Left parietal bone outer surface. Human structure
SKELETON SYSTEM
SKULL BONES
Bones of the brain skull
The frontal bone (os frontale) in an adult is unpaired, participates in the formation of the anterior part of the cranial vault and the anterior cranial fossa. In the frontal bone, an anterior, vertically (frontally) located part is distinguished - the frontal scales, as well as the orbital and nasal parts (Fig. 44, 45).
The frontal scales (squama frontalis) have a convex outer surface (facies externa) and a concave inner surface (facies interna). Below, the scales are separated from the right and left orbital parts by a paired supraorbital margin (margo supraorbitalis), in which there is an infraorbital notch (incisura supraorbitalis) closer to the nasal part of the frontal bone. In this place, the supraorbital artery and nerve are adjacent to the bone. Often this notch turns into a supraorbital foramen (foramen supraorbitale). In the medial part of the supraorbital region there is a recess - frontal notch, through which the nerve and blood vessels of the same name pass. Laterally, the supraorbital margin passes into the zygomatic process (processus zygomaticus), which connects to the zygomatic bone. From the zygomatic process upward and backward along the surface of the scales, the temporal line (linea temporalis) departs - the place of attachment of the temporal fascia covering the temporal muscle. Slightly above each supraorbital edge, a convex ridge is visible - the superciliary arch (arcus superciliaris), passing medially into a smooth area - the glabella, or glabella (glabella). Above the superciliary arch is the frontal tubercle (tuber frontale) - the place where the primary ossification point of the frontal bone appears.
Rice. 45. Frontal bone, bottom view:
1 — Fossa for Iacrimal gland; Lacrimal fossa; 2 - Troehlearspine; 3- Supra-orbital margin; 4 - Nasa l margin; 5 - Nasal spine; 6 - Trochlear fovea; 7 - Supra-orbital notch/foramen; 8 - Orbital surface; nine— Ethmoidal notch; 10 - Orbital part
The inner (brain) surface (facies interna) of the frontal bone below passes into the horizontally located orbital parts. On the inner surface of the scales along the midline there is a groove of the superior sagittal sinus (siilcus sinus sagittalis superioris), which below passes into the frontal crest (crista frontalis). At the base of the crest is a blind hole (foramen caecum), where the process of the hard shell of the brain is fixed.
The orbital part (pars orbitalis) of the frontal bone is steam room, it is a thin plate lying horizontally. The right orbital part is separated from the left by a deep ethmoid notch (incisura ethmoidalis), in which the ethmoid plate of the ethmoid bone is placed. On the upper (brain) surface of the orbital parts, finger-like impressions and cerebral protrusions (elevations) are visible (impressiones digitatae et juga cerebralia - BNA).The lower (orbital) surface is smooth, concave, forming the upper wall of the orbits. Near the lateral angle of the orbital part is the fossa of the lacrimal gland(fossa glandulae lacrimalis), and near the supraorbital notch, a small depression - trochlear fossa(fovea trochlearis). Next to the fossa is a small trochlear spine (spina trochlearis), with which the cartilaginous block (trochlea) fuses for the tendon of the superior oblique muscle of the eye.
The nasal part (pars nasalis) of the frontal bone has the shape of a horseshoe. Located between the orbital parts, it limits the front and sides of the lattice notch. The anterior part of the nasal part is serrated, connected to the nasal bones and the frontal processes of the upper jaws. In the midline, a scallop departs downward from the nasal part, which ends with a sharp nasal spine (spina nasalis), which participates in the formation of the nasal septum. To the right and left of the scallop are the apertures of the frontal sinus (aperturae sinus frontalis). The frontal sinus (sinus frontalis) of an adult, which has a different size, contains air and is separated by a septum. In the posterior sections of the nasal part of the frontal bone there are pits that cover the cells of the ethmoid bone that are open upwards.
The occipital bone (os occipitale) forms the posterior part of the brain region of the skull. It distinguishes between the basilar (main), lateral parts and the occipital scales. All of them surround a large (occipital) foramen (foramen occipitale magnum), through which the cranial cavity communicates with the spinal canal (Fig. 46). The large (occipital) foramen of man, unlike other primates, is located not at the back, but at the bottom of the skull.
The basilar part (pars basilaris) is located in front of the large (occipital) foramen. By the age of 18-20, it fuses with the body of the sphenoid bone into a single structure. The cerebral surface (facies cerebralis) of the basilar part, together with the body of the sphenoid bone, forms a platform inclined towards the large occipital foramen - the clivus. A groove of the inferior stony sinus runs along the lateral edge of the basilar part. On its lower surface there is a well-defined pharyngeal tubercle (tuberculum pharyngeum) - the place of attachment of the posterior pharyngeal wall.
The lateral part (pars lateralis) is a steam room, located on the side of the large (occipital) foramen. Gradually expanding, it passes posteriorly into unpaired occipital scales. On the lower surface of each lateral part is a well-defined occipital condyle (condylus occipitalis) of an ellipsoid shape. The condyles, with their convex surface, articulate with the superior articular fossae of the atlas. Each lateral part above the condyle is pierced by the hypoglossal canal (canalis nervi hypoglossalis), in which the hypoglossal nerve (XII cranial nerve) passes. Immediately behind the occipital condyle is the condylar fossa (fossa condylaris), at the bottom of which there is an opening for the venous outlet - the condylar canal (canalis condylaris), in which the condylar emissary vein passes. The condylar canal opens at the posterior surface of the occipital condyle, and the hypoglossal canal opens at the top of the condyle. Laterally from the occipital condyle there is a jugular notch (incisura jugularis), behind this notch is limited by the jugular process directed upwards (processus jugularis). On the cerebral surface of the lateral part there is a well-defined groove of the sigmoid sinus (sulcus sinus sigmoidei).
The occipital scales (squama occipitalis) is a wide plate with a concave inner surface and a convex outer surface. In the center of the outer surface there is an external occipital protrusion (protuberantia occipitalis externa), from which the external occipital crest (crista occipitalis externa) descends down the midline to the posterior edge of the large (occipital) foramen. From the occipital protrusion to the right and to the left there is an upper nuchal line (linea nuchae superior) curved downwards. Parallel to the latter, approximately at the level of the middle of the external occipital crest, the lower nuchal line (linea nuchae inferior) departs from it in both directions. Above the external occipital protrusion there is a less noticeable highest nuchal line (linea nuchae suprema). Lines and tubercles are places of attachment of the occipital muscles and fascia. The external occipital protrusion, located in the center of the outer surface of the scales, is an important bony landmark on the back of the head.
On the inner, or cerebral, surface of the occipital scales there is a cruciform elevation (eminentia cruciformis), formed by furrows that divide the cerebral surface of the scales into four pits. The center of the cruciform eminence forms the internal occipital protuberance (protuberantia occipitalis interna). At the level of the ledge to the right and to the left there is a groove of the transverse sinus (sulcus sinus transversi), passing into the groove of the sigmoid sinus. The groove of the superior sagittal sinus extends upward from the internal occipital protrusion. The internal occipital protrusion tapers downward and continues as the internal occipital crest (crista occipitalis interna), which reaches the foramen magnum. The edges of the upper and lateral parts of the scales are strongly serrated. In these places, the occipital bone is connected to the parietal and temporal bones.
The parietal bone (os parietale) is paired, forms the upper lateral part of the cranial vault. The parietal bone is a quadrangular plate, convex outward and concave from the inside (Fig. 47). Three of its edges are serrated. The frontal (anterior) edge (margo frontalis) is connected to the frontal bone with a serrated suture; occipital (posterior) edge (margo occipitalis) - with the occipital bone; upper sagittal edge (margo sagittalis) - with the same bone of the other side; the fourth scaly (lower) edge (margo squamosus), obliquely cut, connects to the scales of the temporal bone.
Rice. 46. Occipital bone (A - position of the occipital bone on the outer base of the skull, B - view from below,
C - side view, right, D - inside view, front):
1 - Highest nuchal line; 2 - External occipital crest; 3 - Foramen magnum; 4- Condylar canat; 5 - Hypoglossal canal; 6 - Basilar part; 7 - Pharyngeal tubercle; 8 - Occipital condyle; 9 - Inferior nuchal line; ten— Superior nuchal line; eleven - External occipital protuberance; 12 - Jugular process; thirteen— internal occipital crest; 14 - Cruciform cminence; fifteenGroove for superior sagittal sinus; 16 - Squamous pari of occipital bone; 17 Groove for transverse sinus; 18- Groove for inferior petrosol sinus; nineteen—Jugular notch
Rice. 46-B. Side view. It is possible to estimate the size of the occipital scale located above the large occipital foramen. The internal openings of the condylar canal and the canal of the hypoglossal nerve are located next to the jugular process, which limits the jugular foramen from behind.
Rice. 46-G. View from the inside (front). The grooves of the venous sinuses of the dura mater are visible: the lower petrosal, sigmoid, transverse, superior sagittal sinuses. The cruciate eminence is located above the confluence of the superior sagittal and transverse sinuses. The shape of the elevation suggests that in some cases the sagittal sinus may flow into the left transverse sinus.
Four corners correspond to four edges: anterior superior frontal angle (angulus frontalis), anterior inferior wedge-shaped angle (angulus sphenoidalis), posterior superior occipital angle (angulus occipitalis), posterior inferior mastoid angle (angulus mastoideus).
In the center of the outer convex surface of the parietal bone protrudes parietal tubercle (tuber parietale). Somewhat below it there are two curved upper and lower temporal lines. (lineae temporales superior et inferior), from which the fascia and muscle of the same name begin.
The relief of the concave inner surface of the parietal bone is due to the adjacent hard shell of the brain and its vessels. The sulcus of the superior sagittal sinus runs along the upper edge of the parietal bone. (sulcus sinus sagittalis superioris). The superior sagittal sinus is adjacent to this sulcus, connected to the sulcus of the same name on the opposite side. In the region of the mastoid angle is the groove of the sigmoid sinus (sulcus sinus sigmoidei). On the inner surface of the bone there are tree-branched arterial grooves (sulci arteriosi) - traces of the fit of the meningeal arteries. Along the groove of the superior sagittal sinus, there are granulation pits of various sizes (foveolae granulares) - imprints of pachyon granulations of the arachnoid membrane of the brain.
Rice. 47. Parietal bone, right (A - external view):
1 - Mastoid angle; 2 - Occipital border; 3 - Occipital angie; 4 - Parictal tuber; parietal eminence; 5 - Parietal foramen; 6— Externa l surface; 7 - Sagitta l border; eight - front angle; 9—Superior temporal line; ten— Inferior tempora line; eleven — Frontal border; 12 - Sphcnoidal angle; 13 - Squamosa l border
Rice. 47. Parietal bone, right (B - inside view):
1 - Frontal border; 2 - Frontal angle; 3 - Granular foveolae; 4 - Sagittal border; 5 - Groove for superior sagittal sinus; 6—Occipital angle; 7 - Internal surface; 8 - Occipital border: 9 - Grooves for arteries; 10 Groove for sigmoid sinus; 11 —mastoid angle; 12 - Squamosalborder; 13 - Sphenoidal angle
The ethmoid bone (os ethmoidale) is part of the anterior part of the base of the skull, as well as the facial skull, participating in the formation of the walls of the orbits and the nasal cavity (Fig. 48). In the ethmoid bone, a horizontally located ethmoid plate is distinguished. From it down the middle line goes a perpendicular plate. On the sides, ethmoid labyrinths are attached to the cribriform plate, which are closed from the outside by vertically (sagittally) located right and left orbital plates (Fig. 49, 50).
The cribriform plate (lamina cribrosa), located in the cribriform notch of the frontal bone, is involved in the formation of the bottom of the anterior cranial fossa and the upper wall of the nasal cavity. The plate, like a sieve, has numerous holes through which the olfactory filaments (I pair of cranial nerves) pass into the cranial cavity. A cockscomb (crista galli) rises above the cribriform plate along the midline, which continues anteriorly into a paired process - the wing of the cockscomb (ala cristae galli). These processes, together with the frontal bone lying in front, limit the blind opening (foramen caecum), in which the process of the hard shell of the brain is fixed.
The perpendicular plate (lamina perpendicularis), of an irregular pentagonal shape, is, as it were, a continuation of the cockscomb downwards. In the nasal cavity, the perpendicular plate, located sagittally, participates in the formation of the upper part of the septum of the nasal cavity.
Rice. 48. Location of the ethmoid bone on the inner base of the skull (A - the inner base of the skull, top view, B - the position of the ethmoid bone in the facial skull, front view. Frontal section through the orbits and nasal cavity)
Rice. 48. The upper surface of the ethmoid plate of the ethmoid bone forms part of the anterior cranial fossa, bundles of olfactory nerve fibers pass through the openings of the plate. The lower surface of the cribriform plate is involved in the formation of the upper wall, and the ethmoid labyrinth is involved in the formation of the lateral wall of the nasal cavity. The lattice cells communicate with each other and with the nasal cavity. The ethmoid bone is limited by the frontal and sphenoid bones, occupies a central position in the nasal cavity and participates in the formation of the medial wall of the orbit (orbital plate).
Labyrinth labyrinth (labyrinthus ethmoidalis) - paired, includes bone air-bearing lattice cells (cellulae ethmoidales), communicating with each other and with the nasal cavity. The lattice labyrinth is, as it were, suspended at the ends of the lattice plate to the right and left of the perpendicular plate. The medial surface of the ethmoid labyrinths, facing the nasal cavity, is covered by two thin curved bone plates - nasal conchas. The upper part of each turbinate is attached to the medial wall of the labyrinth cells, and the lower edge hangs freely into the gap between the labyrinth and the perpendicular plate. The superior nasal concha (concha nasalis superior) is attached at the top, below it and somewhat anteriorly is the middle nasal concha (concha nasalis media). Sometimes there is a weakly expressed third - the highest nasal concha (concha nasalis suprema). Between the upper and middle nasal conchas there is a narrow gap - the upper nasal passage (meatus nasi superior). Under the lower edge of the middle turbinate is the middle nasal passage (meatus nasi medius).
Rice. 49. Ethmoid bone (A - top view, B - front view):
1 - Perpendicular piate; 2 - Crista galli; 3 - Ethmoidal cells; 4 - Cribriform piate; 5 - Middle nasal concha; 6 - Orbital piate; 7—Superior nasal meatus
Rice. 49: A. A cribriform plate and a cockscomb are visible, to which the crescent of the brain is partially attached. Through the numerous openings of the cribriform plate, the fibers of the olfactory nerve pass from the nasal cavity to the anterior cranial fossa. Due to the thinness of the plate and the large number of holes in it, the cribriform plate is prone to injury. Most often, damage is clinically manifested by leakage of cerebrospinal fluid through the nose.
B. A perpendicular plate is visible, participating in the formation of the bony septum of the nose, dividing the nasal cavity into the right and left halves. The middle turbinate, which is part of the ethmoid bone, and the ethmoid cells grouped on either side of the middle turbinate are visible.
The posterior end of the middle nasal concha has a hook-shaped process (processus uncinatus) curved downwards, which, on the whole skull, is connected to the ethmoid process of the inferior concha. Behind the uncinate process, one of the large cells of the labyrinth protrudes into the middle nasal passage - the ethmoid vesicle (bulla ethmoidalis). Between this vesicle behind and above and the uncinate process below is a funnel-shaped gap - the ethmoid funnel (infundibulum ethmoidale), through which the frontal sinus communicates with the middle nasal passage.
On the lateral side, the ethmoidal labyrinths are covered by a smooth thin orbital plate (lamina orbitalis), which is part of the medial wall of the orbit. On the other sides, the ethmoid cells on an isolated ethmoid bone gape, and on the whole skull they are covered by neighboring bones: the frontal, lacrimal, sphenoid, palatine, and upper jaw.
Rice. 50. Ethmoid bone (A - topography of the ethmoid bone, B - side view, left, C - rear view):
1 - Orbital piate; 2 - Middle nasal concha; 3 - Posterior ethmoidal foramen; 4— - Anterior ethmoidal foramen; 5 - Ethmoidal cells; 6 - Crista galli; 7 - Perpendicular piate; uncinate process; 9 - Ethmoidal bulla; 10 - Superior nasal concha; 11 - Ethmoidal infundibulum
Rice. 50: B. Perpendicular plate and open anterior cribriform cells are visible. The orbits are separated from the ethmoid cells by a thin orbital plate.
B. Only in this position is the uncinate process visible. In other positions, it is almost completely covered by the middle turbinate. The uncinate process partially closes the entrance to the maxillary sinus. The semilunar cleft is an important landmark during endoscopic maxillary sinus surgery. The narrow depression between the middle nasal concha and the uncinate process is called the ethmoidal infundibulum. The frontal, maxillary sinuses, anterior and middle cells of the ethmoid bone open into the middle nasal passage. The superior turbinate is located at the posterior end of the ethmoid bone.
The temporal bone (os temporale) is a steam room, part of the base and lateral wall of the brain skull, located between the sphenoid bone (front), parietal (above) and occipital (behind). Inside the temporal bone is a receptacle for the organs of hearing and balance. Blood vessels and nerves pass through the canals of the temporal bone. The temporal bone forms a joint with the lower jaw and connects to the zygomatic bone, forming the zygomatic arch (arcus zygomaticus). The temporal bone consists of a pyramid (stony part) with a mastoid process, tympanic and squamous parts (Fig. 51.52).
The pyramid (stony part, pars petrosa) has the shape of a trihedral pyramid, it is called stony due to the hardness of the bone substance. The pyramid is located in the skull in an almost horizontal plane, its base, facing backwards and laterally, passes into the mastoid process. The top of the pyramid (apex partis petrosae) is directed forward and medially. There are three surfaces in the pyramid: anterior, posterior, and inferior. The anterior and posterior surfaces face the cranial cavity, the lower one is clearly visible from the side of the outer base of the skull. According to these surfaces, the pyramid has three edges: upper, front and rear.
Front surface of the pyramid (facies anterior partis petrosae), facing forward and upward, laterally passes into the cerebral surface of the squamous part. In the middle part of the anterior surface of the pyramid, a small arcuate elevation (eminentia arcuata) is visible, corresponding to the anterior (upper) semicircular canal of the bony labyrinth of the inner ear lying in the thickness of the pyramid. Between the arched elevation and the stony-scaly fissure is the roof of the tympanic cavity (tegmen tympani). Near the top of the pyramid on its front surface is the trigeminal impression (impressio trigemini) - the place where the trigeminal ganglion of the same name nerve fits. Lateral to the trigeminal depression there are two small openings: a cleft canal of the greater petrosal nerve (hiatus canalis nervi petrosi majoris), from which the groove of the greater stony nerve originates (sulcus nervi petrosi majoris).Somewhat anteriorly and laterally there is a cleft canal of the small stony nerve(hiatus canalis nervi petrosi minoris),continuing into the furrow of the lesser stony nerve(sulcus nervi petrosi minoris).
The top edge of the pyramid(margo superior partis petrosae)separates the front surface from the back. The groove of the superior petrosal sinus runs along this edge. (sulcus sinus petrosi superioris).
The back surface of the pyramid (facies posterior partis petrosae) facing back and medially. Approximately in the middle of the back surface of the pyramid is the internal auditory opening (porus acusticus internus), passing into a short wide canal - the internal auditory meatus (meatus acusticus internus), at the bottom of which there are several openings for the facial (VII nerve) and vestibulocochlear (VIII nerve). ) nerves, as well as for the artery and veins of the vestibulocochlear organ. Laterally and above the internal auditory opening is the subarc fossa (fossa subarcuata), into which the process of the dura mater of the brain enters. Below and lateral to this fossa is a small gap - the aperture of the tubule of the vestibule (apertura canaliculi vestibuli).
Rear edge of the pyramid (margo posterior partis petrosae) separates its back surface from the bottom. The groove of the inferior stony sinus passes through it. (sulcus sinus petrosi inferioris). Approximately in the middle of the posterior edge, next to the jugular notch, a dimple is visible, at the bottom of which the aperture of the cochlear tubule is located (apertura canaliculi cochleae).
Bottom surface of the pyramid (facies inferior partis petrosae) on the side of the outer base of the skull has a complex relief. Closer to the base of the pyramid is a rather deep jugular fossa (fossa jugularis), on the front wall of which there is a groove ending in the opening of the mastoid canaliculus (canaliculus mastoideus), in which the ear branch of the vagus nerve passes. The jugular fossa does not have a wall on the back side, it is limited by the jugular notch (incisura jugularis), which, together with the notch of the same name of the occipital bone, forms a jugular foramen (foramen jugulare) on the whole skull. Through it pass the internal jugular vein and three cranial nerves: glossopharyngeal (IX cranial nerve), vagus (X nerve) and accessory (XI nerve). Anterior to the jugular fossa is the external aperture of the carotid canal ( apertura externa canalis carotici) - the beginning of the sleep canal. Its internal aperture (apertura interna canalis carotici) opens at the top of the pyramid. In the wall of the carotid canal, near its external opening, there are two small dimples that continue into thin carotid tympanic tubules. (canaliculi caroticotympanici), in which the carotid-tympanic nerves, originating from the autonomic plexus of the internal carotid artery, pass into the tympanic cavity. In the comb separating the external opening of the carotid canal from the jugular fossa, a stony dimple (fossula petrosa) is barely visible. At its bottom, the lower opening of the tympanic tubule opens (apertura inferior canaliculi tympanici - BNA), in which the inferior tympanic artery (a branch of the ascending pharyngeal) and the tympanic branch of the glossopharyngeal nerve (IX nerve) pass. Lateral to the jugular fossa, near the mastoid process, a thin long styloid process protrudes (processus styloideus), from which the stylopharyngeal and stylohyoid muscles begin.
Rice. 51. Temporal bone, right (A - the temporal bone as part of the skull and its parts are highlighted in color, B - ventral view, parts of the temporal bone are highlighted in different colors, C - ventral view):
1 - Occipital bone; 2 - Temporal bone; 3 - parietal bone; 4 - Sphenoid; Sphenoid bone; 5 - Zygomatic bone; 6 - Petrous part; 7 - Squa-mouspart; 8 - Tympanic part; nine— Mandibularfossa; 10 - Styloid process; 11 —Mastoidforamen; 12 - Mastoid notch; thirteen— Mastoid process; fourteen - External acoustic opcning; fifteen— Zygomatic process; 16 - Articular tubercle; 17 - Carotid canal; 18 - Jugular lossa; 19 - Stylomastoid foramen
Rice. 51. Position of the temporal bone in the skull
The temporal bone is one of the main structures at the base of the skull. It forms the bone capsule of the organ of hearing and balance, participates in the formation of the temporomandibular joint.
Centers of ossification (ossification) of the left temporal bone
The temporal bone develops from three ossification centers that form a single bone.
The squamous part develops from the connective tissue, bypassing the cartilaginous stage (blue).
The stony part, or pyramid (purple), goes through all three stages of osteogenesis (connective tissue, cartilage, bone). The stony part contains auditory and vestibular analyzers, develops after the appearance of ossification points in the cartilaginous auditory capsule.
The tympanic part (green color) develops on the basis of the connective tissue, forms the main part of the external auditory canal. The styloid process develops on the basis of cartilage.
Rice. 52. Temporal bone, right (A - side view: parts of the temporal bone are highlighted in different colors, B - side view, C - inside view):
1 - Petreus part; 2 - Squamous part; 3 - Tympanic part; 4 - Mastoid process; 5— Mastoid foramen; 6 - Styloid process; 7 - Tympanomastoid fissure; eight— Extemal acoustic meatus; 9 - External acoustic opening; 10 - Mandibular fossa; eleven- Arliculartubercle; 1 2 - Temporal surface; 13 - Zygomatic process; 14 - Petrotvmpanic fissure; 15 - Styloid process; sixteen - Posterior bordcrof pctrous part; 17 - Superior borderof petrouspart; eighteen- Apex of petrous part; nineteen - Internal acoustic meatus; 20— arterial grooves; 21 - Subarcuate fossa; 22 Groove for sigmoid sinus
Between the styloid and mastoid processes is the stylomastoid foramen (foramen stylomastoideum), through which the facial nerve (VII nerve) and the stylomastoid vein emerge from the facial canal of the temporal bone. The stylomastoid artery, a branch of the posterior auricular artery, enters the canal through this opening.
The lower surface of the pyramid is separated from its anterior surface by the front edge, which is delimited from the scale by a stony-scaly fissure (fissOra petrosquamosa). Next to it, on the front short edge of the pyramid, there is an opening of the musculo-tubal canal (canalis musculotubarius), leading to the tympanic cavity. This canal is divided by a septum into a semi-canal of the muscle that strains the eardrum and a semi-canal of the auditory tube. (semicanalis tubae auditivae).
The mastoid process (processus mastoideus) is located behind the external auditory canal. At the top, it is separated from the scales by a parietal notch (incisura parietalis). The outer surface of the process is convex, rough. The sternocleidomastoid and other muscles are attached to it. Below, the mastoid process is rounded (palpable through the skin). On the medial side, the process is limited by a deep mastoid notch (incisura mastoidea). Medial to this notch is the sulcus of the occipital artery. (sulcus arteriae occipitalis). At the base of the mastoid process, closer to the posterior edge of the temporal bone, there is a non-permanent mastoid opening (foramen mastoideum) for the mastoid emissary vein and the mastoid branch of the occipital artery. On the inner surface of the mastoid process facing the cranial cavity, a wide groove of the sigmoid sinus is visible. Inside the process are mastoid cells separated from each other by bone bridges (cellulae mastoideae). The largest of them - the mastoid cave (antrum mastoideum) - communicates with the tympanic cavity.
The tympanic part (pars tympanica) of the temporal bone is a small plate, curved in the form of a gutter and open at the top. Merging with its edges with the squamous part and with the mastoid process of the temporal bone, it limits the external auditory opening (porus acusticus externus) in front, below and behind. The continuation of this opening is the external auditory canal (meatus acusticus externus), which reaches the tympanic membrane, which separates the auditory canal from the tympanic cavity. On the border of the tympanic part and the mastoid process, behind the external auditory opening, there is a tympanomastoid fissure (fissura tympanomastoidea), through which the ear branch of the vagus nerve emerges from the mastoid canal to the surface of the bone.
In front of the external auditory opening (under the mandibular fossa) is a tympanic fissure (fissura tympanosquamosa), into which a bone plate (lamina tympani) enters from the inside, adjacent to the stony part. As a result, the tympanic-squamous fissure is divided into two: closer to the mandibular fossa, a stony-squamous fissure (fissOra petrosquamosa) is visible; Johann (Glaser Johann Heinrich, 1629-1675) - Swiss physician and anatomist; Huguier Pierre Charles (1804–1874) French physician and anatomist Civinini Philippo (1805-1854), Italian anatomist. Through the stony-tympanic fissure, a branch of the facial nerve (VII nerve) emerges from the tympanic cavity - the tympanic string.
The scaly part (pars squamosa) is a convex outward plate with a beveled free upper edge (Fig. 53). It is superimposed like scales (squama - scales) on the corresponding edge of the parietal bone and the large wing of the sphenoid bone, at the bottom the scales are connected to the pyramid, mastoid process and tympanic part of the temporal bone. On the outer smooth temporal surface (facies temporalis) of the vertical part of the scale involved in the formation of the temporal fossa, the groove of the middle temporal artery runs vertically (sulcus arteriae temporalis mediae).
From the scales somewhat higher and anterior to the external auditory opening, the zygomatic process (processus zygomaticus) begins, which goes forward and connects with the temporal process of the zygomatic bone with its serrated end, forming the zygomatic arch. At the base of the zygomatic process is the mandibular fossa (fossa mandibularis) for articulation with the condylar (articular) process of the lower jaw. In front, the mandibular fossa is limited by the articular tubercle (tuberculum articulare), which separates it from the infratemporal fossa. On the cerebral surface (facies cerebralis) of the squamous part, finger-like impressions and arterial grooves are visible - traces of the adjacent convolutions of the brain, the middle meningeal artery and its branches.
Canals of the temporal bone (Table 11). The carotid canal (canalis caroticus), through which the internal carotid artery and the internal carotid (vegetative) plexus pass into the cranial cavity, begins on the lower surface of the pyramid of the temporal bone with the external opening of the carotid canal. Further, the carotid canal rises, bends at a right angle, goes forward and medially. The canal opens in the cranial cavity with an internal carotid foramen.
Rice. 53. Temporal bone, right, view from inside and from above:
1 - Carotica canal; 2 - Petrotis part; 3 - Anterior surface of petrous pari; 4 - Groove for greater petrosal nerve; 5 - Sphenoidal margin; 6Groove for lesser petrosal nerve; 7- Hiatus for lesser petrosal nerve; 8 - Hiatus for greater petrosal nerve; nine- parietal margin; 10 - C e rebral surface; eleven — Petrosquamous fissure; 12 - Tegmen tympani; 13 - arcuate eminence; fourteenGroove for superior petrosal sinus; 15 - Parietal notch; 1 6— Groove for sigmoid sinus; 17 - Mastoid ceils; 18 - Occipital margin; nineteen- Superior border of petrous part; 20- Trigemina l Impression
The musculoskeletal canal (canalis musculotubarius) has a common wall with the carotid canal. It starts at the anterior edge of the pyramid near its border with the scales of the temporal bone, goes posteriorly and laterally, parallel to the anterior edge of the pyramid. The musculo-tubal canal is divided by a septum into two semi-canals: the upper one is the semi-canal of the muscle that strains the eardrum (semicanalis musculi tensoris tympani), is occupied by the muscle of the same name, and the lower one - the semicanal of the auditory tube (semicanalis tubae auditivae) - is the bone part of this tube. Both semi-channels open into the tympanic cavity on its anterior wall.
The facial canal (canalis facialis), in which the facial nerve and blood vessels pass, begins at the bottom of the internal auditory canal. Then, in the thickness of the pyramid of the temporal bone, the facial canal goes horizontally forward, perpendicular to the longitudinal axis of the pyramid. Having reached the level of the cleft of the canal of the large stony nerve, the canal leaves laterally and posteriorly at a right angle, forming a bend, or knee of the facial canal (geniculum canalis facialis). Further, the canal follows horizontally back along the axis of the pyramid to its base, where it turns vertically down, bending around the tympanic cavity. On the lower surface of the pyramid, the canal ends with a stylomastoid opening.
The tubule of the tympanic string (canaliculus chordae tympani) starts from the canal of the facial nerve slightly above the stylomastoid foramen, goes forward and opens into the tympanic cavity. In this tubule passes a branch of the facial nerve - a tympanic string (chorda tympani), which then exits the tympanic cavity through the stony-tympanic fissure.
Table 11. Canals of the temporal bone
|
Name |
Channel start |
Messages (branches) along the channel and its end |
What's going on in the channel |
|
sleepy channel (Canalis caroticus; Carotid canal) |
External carotid foramen on the lower surface of the pyramid |
Sleepy-tympanic tubules (see below). Internal carotid foramen at the top of the pyramid in the cranial cavity |
Internal carotid artery, accompanied by the venous plexus of the same name and the internal carotid (vegetative) nerve plexus |
|
Carotid tubules (Canaliculi caroticotympanici; Caroticotympanic canaliculi) |
Holes on the wall of the carotid canal (at its beginning) |
Holes on the anterior (carotid) wall of the tympanic cavity |
Carotid-tympanic nerves (branches of the internal carotid plexus); carotid-tympanic arteries (from the internal carotid artery) |
|
facial nerve canal (Canalis nervi facialis; Facial canal) |
internal auditory canal |
Along the channel on the front surface of the pyramid - a cleft of the large stony nerve; in the lower section - the opening of the tubule of the drum string (see below). End - stylomastoid foramen |
Facial nerve (VII pair); superficial petrosal branch (from the middle meningeal artery) - above, stylomastoid artery and vein - below |
|
Drum string tubule (Canaliculus chordae tympani; Canaliculus for chorda tympani) |
Hole in the lower part of the facial canal |
An opening in the posterior (mastoid) wall of the tympanic cavity |
The drum string is a branch of the facial nerve. Leaves the tympanic cavity through the stony-tympanic (Glazerov) fissure |
|
drum tubule (Canaliculus tympanicus; Tympanic canaliculus) |
In a rocky dimple on the bottom surface of the pyramid |
An opening in the lower (jugular) wall of the tympanic cavity where the canal terminates. The nerve passes along its medial (labyrinthine) wall and ends on the anterior surface of the pyramid with a cleft canal of the small stony nerve |
The tympanic nerve, which at the exit from the tympanic cavity is called the small stony nerve (branch of the IX pair); superior tympanic artery (branch of middle meningeal artery) |
|
Musculo-tubal canal (Canalis musculotubarius; Musculotubal canal)(divided into 2 half-channels: the upper one is the half-channel of the muscle straining the eardrum (Semicanalis musculi tensoris tympani; Canal for tensor tympani), lower - semi-canal of the auditory tube (Semicanalis tubae auditivae, Semicanalis tubae auditoriae; Canal for pharyngotympanic tube; Canal for auditory tube)) |
Begins at the junction of the anterior edge of the pyramid with the scales of the temporal bone at the apex of the pyramid |
Ends with holes on the anterior (carotid) wall of the tympanic cavity |
Tensor tympanic membrane muscle and auditory tube |
The tympanic tubule (canaliculus tympanicus) begins with a lower opening in the depths of the stony pit on the lower surface of the temporal bone pyramid, then rises upward into the tympanic cavity through its lower wall. Further, the tubule continues in the form of a furrow (sulcus promontorii) on the labyrinth wall of this cavity on the surface of the cape (promontorium). Then the tubule perforates the upper wall of the tympanic cavity and ends with a cleft of the canal of the small stony nerve on the anterior surface of the pyramid. The tympanic nerve, a branch of the glossopharyngeal nerve, passes through the tympanic tubule.
The mastoid tubule (canaliculus mastoideus) originates in the jugular fossa, crosses the facial canal in its lower part and opens into the tympanic-mastoid fissure. The auricular branch of the vagus nerve passes through this tubule.
Carotid-tympanic tubules (canaliculi caroticotympanici) begin on the wall of the carotid canal near its outer opening and penetrate into the tympanic cavity. Nerves and arteries of the same name pass through both tubules into the tympanic cavity.
The sphenoid bone (os sphenoidale) is located in the center of the base of the skull, it is involved in the formation of the lateral walls of the vault, as well as the cavities and fossae of the brain and facial sections of the skull (Fig. 54). The sphenoid bone consists of a body from which three pairs of processes extend: large wings, small wings and pterygoid processes (Fig. 55).
Inside the body (cdrpus) of the sphenoid bone of an irregular cuboid shape is a cavity - the sphenoid sinus (sinus sphenoidalis). Six surfaces are distinguished on the body: the upper, or cerebral; back, fused in adults with the basilar (main) part of the occipital bone; anterior, passing without sharp boundaries into the lower; two side.
Rice. 54. Sphenoid bone in the skull
Location of the sphenoid bone in the skull
The sphenoid bone is one of the most complex among all the bones of the skull.
A. Side view. Part of the greater wing of the sphenoid bone can be seen above the zygomatic arch, and parts of the pterygoid processes below the zygomatic arch.
B. Base of the skull, internal view. The sphenoid bone is the link between the anterior and middle cranial fossae. The holes through which the nerves and blood vessels pass are clearly visible.
B. Base of the skull, external view. The body of the sphenoid bone connects to the basilar part of the occipital bone, forming a clivus.
Rice. 55. Sphenoid bone (A - front view, B - bottom view):
1 - Spine ofsphenoid bone; 2— lesser wing; 3 - Sphenoidal crest; 4 - Opening ofsphenoidal sinus; 5—Superior orbital fissure; 6 - Orbital surface; 7— Temporal surface; 8 - Foramen rotundum; 9 - Pterygoid canal; ten— Pterygoid fossa; 11 - Pterygoid hamulus; 1 2— Sphenoidal concha; 13 - Pterygoid process, medial piate; 14 - Pterygoid process, lateral piate; 15 - Foramen spinosum; 16 - Foramen ovale; 17 - Greaterwing; 18 - Body of sphenoid
On the upper surface (facies superior) a recess is noticeable - the Turkish saddle (sella turcica). In the center of the Turkish saddle there is a pituitary fossa (fossa hypophysialis), in which the endocrine gland, the pituitary gland, is located. Anterior to the recess is a transverse tubercle of the saddle (tuberculum sellae), behind is the high back of the saddle (dorsum sellae). The lateral parts of the back of the saddle are inclined anteriorly - these are the posterior inclined processes (processus clinoidei posteriores). At the base of the back of the saddle on the right and left there is a groove in which the internal carotid artery passes - the carotid sulcus (sulcus caroticus).
Outside and somewhat posterior to the carotid groove is a wedge-shaped tongue (lingula sphenoidalis), which turns the carotid groove into a deep groove. This groove, together with the top of the pyramid of the temporal bone, limits the internal carotid foramen, through which the internal carotid artery enters the cranial cavity from the carotid canal.
The anterior surface of the body of the sphenoid bone is extended into a small wedge-shaped ridge (crista sphenoidalis). The latter continues on the lower surface of the body of the sphenoid bone in the form of a sharp wedge-shaped beak (rostrum sphenoidale). The sphenoid ridge connects with its anterior edge to the perpendicular plate of the ethmoid bone.
Rice. 55. Sphenoid bone (B - rear view, D - top view):
1 — Spongy bone; Trabcular bone; 2, Ptcrygoid fossa; 3 - Pterygoid canal; 4 - Spinc of sphenoid bone; 5 - Anterior clinoid procss; 6 - Lesserwing; 7 - optical channel; 8 - Dorsum sellae; 9 - Posterior clinoid process; ten— Greaterwing. cerebra! surface; 11 - Superior orbital fissure; 12 - Foramen rotundum; 13 - Seaphoid fossa; 14 - Pterygoid process, lateral piate; 15 - Pterygoid process. medial piate; 16 - Sella turcica; 17 - Foramen spinosum; 18 - Foramen ovale; 19 - Carotid sulcus; 20 - Jugum sphenoidale; Sphenoidal yokc; 21 - Carotid sulcus;22 - Greater swing; 23 - Hypophysial fossa
On the sides of the ridge there are irregularly shaped bone plates - wedge-shaped shells (conchae sphenoidales), limiting the apertures of the sphenoid sinus ( aperturae sinus sphenoidalis), leading to the airy sphenoid sinus (sinus sphenoidalis), most often divided by a septum into two parts. The lateral surfaces of the body of the sphenoid bone continue anteriorly and downwards into the small and large wings.
The small wing (ala minor) is a paired horizontal plate extending from each side of the body of the sphenoid bone with two roots. Between the latter is the optic canal (canalis opticus), through which the optic nerve passes from the orbit. The lesser wing has an upper surface facing the cranial cavity, and a lower one participating in the formation of the upper wall of the orbit. The anterior edges of the small wings are serrated; the orbital part of the frontal bone and the ethmoid plate of the ethmoid bone are connected to them on the right and left. The smooth posterior edges of the lesser wings face the cranial cavity. On the medial side, each small wing has an anterior inclined process. (processus clinoideus anterior). The dura mater fuses with the anterior and posterior inclined processes.
The large wing (ala major) of the sphenoid bone is paired, begins with a wide base from the lateral surface of the body. At the very base, each wing has three holes. Above the others and in front is a round hole (foramen rotundum), through which the second branch of the trigeminal nerve passes. In the middle of the large wing, an oval hole (foramen ovale) is visible, through which the third branch of the trigeminal nerve passes. The spinous opening (foramen spinosum) of a smaller size, intended for the middle meningeal (sheath) artery, is located in the region of the posterior angle of the large wing.
The large wing has four surfaces: cerebral, orbital, maxillary and temporal. On the concave cerebral surface (facies cerebralis), digital depressions, cerebral protrusions and arterial grooves (sulci arteriosi) are well expressed. The quadrangular smooth orbital surface (facies orbitalis) is part of the lateral wall of the orbit. The maxillary surface (facies maxillaris) occupies a triangular area between the orbital surface at the top and the base of the pterygoid process at the bottom. On this surface, facing the pterygopalatine fossa, a round hole opens. The temporal surface (facies temporalis) is the most extensive, the infratemporal crest (crista infratemporalis) divides it into two parts. The upper part of the large wing, located almost vertically, is part of the wall of the temporal fossa. The lower part of the wing, located almost horizontally, forms the upper wall of the infratemporal fossa.
Between the small and large wings is the upper orbital fissure (fissura orbitalis superior). The oculomotor, trochlear, and abducens nerves (III, IV, VI cranial nerves) and the ophthalmic nerve, the first branch of the trigeminal nerve (V nerve), pass through it from the cranial cavity to the orbit.
The pterygoid process (processus pterygoideus) is paired, departs downward from the body of the sphenoid bone at the site of the beginning of the large wing. It consists of two plates - medial (lamina medialis) and lateral (lamina lateralis), fused at the front edges. Below, both plates are separated by a pterygoid notch (incisura pterygoidea). The medial plate below passes into the pterygoid hook (hamulus pterygoideus). The medial surface of the pterygoid process, facing the nasal cavity, forms the posterior part of its lateral wall. The lateral plate serves as the medial wall of the infratemporal fossa. The base of the process pierces from front to back a narrow pterygoid canal (canalis pterygoideus), which serves to pass into the pterygo-palatine fossa of the deep stony nerve (a branch of the facial nerve) and the sympathetic nerve (from the internal carotid plexus). From the fossa through this canal to the upper part of the pharynx passes the artery of the pterygoid canal. The anterior opening of the pterygoid canal opens into the pterygopalatine fossa, the posterior opening on the outer base of the skull near the spine of the sphenoid bone (in the region of the torn opening). Along the anterior edge of the pterygoid process, the pterygopalatine sulcus (sulcus pterygopalatinus - BNA), open in front, passes from top to bottom. Posteriorly, the plates of the pterygoid process diverge, here a pterygoid fossa (fossa pterygoidea) is formed, in which the medial pterygoid muscle (chewing) begins.
The parietal bone forms the following sutures with neighboring bones: sagittal suture - with the paired parietal bone; coronal suture - with the frontal bone; lambdoid suture - with the occipital bone; scaly suture - with the temporal bone, where the parietal bone is covered by the temporal.
The weight of the prepared parietal bone is 42.5 grams.
The outer surface of the parietal bone is convex, with a parietal tubercle in the center. Along the lower edge of the parietal bone are the superior temporal line (linea temporalis superior), where the temporal fascia attaches, and the inferior temporal line ( linea temporalis inferior)- site of attachment of the temporalis muscle. At the sagittal edge, closer to the occipital angle, there is a parietal foramen (foramen parietale), in which the emissary vein passes.
Rice. Anatomy of the parietal bone (according to H. Feneis, 1994): 1 - left parietal bone, side view; 2 - right parietal bone, inside view; 3 - occipital margin; 4 - scaly edge; 5 - sagittal edge; 6 - frontal edge; 7 - parietal opening; 8 - upper temporal line; 9 - lower temporal line; 10 - furrow of the superior sagittal sinus; 11 - groove of the sigmoid sinus; 12 - furrows of the middle meningeal artery.
The inner surface is concave, with a hole in the center corresponding to the parietal tubercle on the outer surface. There are also grooves on the surface of the anterior and posterior branches of the middle meningeal artery ( sulcus arteriae meningeae mediae), sulcus of the superior sagittal sinus (sulcus sinus sagittalis superioris) on the sagittal margin, sulcus of the sigmoid sinus (sulcus sinus sigmoidei) near the mastoid angle. On the frontal edge there is a groove of the sphenoparietal sinus (sulcus sinus sphenoparietalis).
Functional relationships of the parietal bone
The parietal bone has 5 articular joints.
With a steam room parietal bone sagittal edge through a serrated sagittal suture.
With occipital bone occipital margin on the segment between lambda and asterion. The occipital bone covers the parietal bone from lambda to the “core occipital-parietal point”, after which, on the segment to asterion the parietal bone covers the occipital.
From asterion before pterion the parietal bone is covered with scales of the temporal bone, thus forming an articulation with temporal bone.
With frontal bone the parietal bone is connected by the frontal edge, forming a coronal suture from bregma before pterion. There is also a pivotal fronto-parietal point, where the parietal and frontal bones change the direction of the suture cut. So, between bregma and the pivotal fronto-parietal point, the frontal bone covers the parietal. On the segment between the pivotal fronto-parietal point and pterion the parietal bone covers the frontal.
Connection of the parietal bone with sphenoid bone represented at the level pterion. Here the large wing of the sphenoid bone covers the parietal bone.
Muscles and aponeuroses
temporalis muscle (m.temporalis) has an attachment on the lower temporal line of the parietal bone. temporal fascia (fascia temporalis) originates on the upper temporal line of the parietal bone and consists of two plates. surface plate (lamina superficialis) attached to the outer edge of the zygomatic arch. deep plate (lamina profunda) attached to the inner edge of the zygomatic arch.
Attachment of the layers of the dura mater
The falciform ligament of the brain attaches to the groove in which the superior sagittal sinus passes, along the entire sagittal suture.
Brain
The parietal bones cover the parietal lobes and the upper parts of the frontal lobes. In a child, the parietal bones cover most of the cerebral hemispheres. In an adult, the parietal bones cover the cerebral hemispheres to a lesser extent than in a child, and, nevertheless, the most important motor (motor) and sensory (sensitive) areas of the cortex are included in the coverage area. Since the parietal bones cover a large part of the brain in children, correction of the parietal bones is more relevant in children than in adults. Blockade of the sagittal suture leads to a decrease in the drainage function of the superior longitudinal sinus and disrupts the normal functioning of the central nervous system. Dysfunction of the sagittal suture often accompanies bronchial asthma, nocturnal enuresis, hyperexcitability, and sleep disturbances.
The motor area is divided into primary (motor) and secondary (premotor) cortex. The motor cortex, about 2.5 cm in size, initiates the muscular response with gross body movements, while the premotor cortex converts the impulses into more dexterous movements.
The sensory or somatosensory cortex occupies most of the parietal lobe, starting immediately posterior to the precentral gyrus. It is represented by 5 and 7 Brodmann fields. The somatosensory area interprets all incoming sensory stimuli such as temperature, touch, pressure, and pain. The primary and secondary somatosensory cortex are located posterior to the motor cortex and reach almost to lambda. The primary zone produces distinctions between specific types of sensitivity, while the secondary zone interprets them more subtly and identifies different objects through touch. With the defeat of 5 and 7 fields, tactile agnosia occurs. The patient can feel the object placed in the hand, but with his eyes closed he cannot identify it. This inability is caused by the loss of previously accumulated tactile experience (P. Duus, 1997).
Vessels
On the inner surface of the parietal bone are the anterior and posterior branches of the middle meningeal artery, which exits through the spinous foramen of the sphenoid bone.
The parietal bone is in close contact with the superior longitudinal sinus along the sagittal suture, and with the sphenoparietal sinus along the frontal margin. The middle meningeal veins are located on the inner surface of the parietal bone.
The skeleton of the head, that is, the skull (cranium) (Fig. 59), consists of a cerebral and facial skull.
Rice. 59. Skull A - front view; B - side view:1 - parietal bone;2 - frontal bone;3 - sphenoid bone;4 - temporal bone;5 - lacrimal bone;6 - nasal bone;7 - zygomatic bone;8 - upper jaw;9 - lower jaw;10 - occipital bone
The brain skull is ovoid in shape and is formed by the occipital, frontal, sphenoid, ethmoid, a pair of temporal and a pair of parietal bones. The facial skull is formed by six paired bones (maxilla, inferior nasal concha, lacrimal, nasal, zygomatic and palatine bones) and three unpaired bones (mandible, hyoid bone, vomer) and represents the initial section of the digestive and respiratory apparatus. The bones of both skulls are connected to each other with sutures and are practically motionless. The lower jaw is connected to the skull by a joint, therefore it is the most mobile, which is necessary for its participation in the act of chewing.
The cranial cavity is a continuation of the spinal canal, it contains the brain. The upper part of the brain skull, formed by the parietal bones and scales of the frontal, occipital and temporal bones, is called the vault or roof of the skull (calvaria cranii). The bones of the cranial vault are flat, their outer surface is smooth and even, and the inner surface is smooth, but uneven, since the furrows of the arteries, veins and adjacent convolutions of the brain are marked on it. Blood vessels are located in the spongy substance - diploe (diploe), located between the outer and inner plates of the compact substance. The inner plate is not as strong as the outer one, it is much thinner and more fragile. The lower part of the brain skull, formed by the frontal, occipital, sphenoid and temporal bones, is called the base of the skull (basis cranii).
Bones of the brain skull
The occipital bone (os occipitale) (Fig. 59) is unpaired, located in the posterior part of the brain skull and consists of four parts located around a large hole (foramen magnum) (Fig. 60, 61, 62) in the anteroinferior section of the outer surface.
The main, or basilar, part (pars basilaris) (Fig. 60, 61) lies anterior to the external opening. In childhood, it is connected to the sphenoid bone with the help of cartilage and sphenoid-occipital synchondrosis (synchondrosis sphenooccipitalis) is formed, and in adolescence (after 18–20 years) the cartilage is replaced by bone tissue and the bones grow together. The upper inner surface of the basilar part, facing the cranial cavity, is slightly concave and smooth. It contains part of the brain stem. At the outer edge there is a groove of the lower petrosal sinus (sulcus sinus petrosi inferior) (Fig. 61), adjacent to the posterior surface of the petrous part of the temporal bone. The lower outer surface is convex and rough. In the center of it is the pharyngeal tubercle (tuberculum pharyngeum) (Fig. 60).
Lateral, or lateral, part (pars lateralis) (Fig. 60, 61) steam room, has an elongated shape. On its lower outer surface is an elliptical articular process - the occipital condyle (condylus occipitalis) (Fig. 60). Each condyle has an articular surface, through which it articulates with the I cervical vertebra. Behind the articular process is the condylar fossa (fossa condylaris) (Fig. 60) with the non-permanent condylar canal (canalis condylaris) lying in it (Fig. 60, 61). At the base, the condyle is pierced by the hypoglossal canal (canalis hypoglossi). On the lateral edge is the jugular notch (incisura jugularis) (Fig. 60), which, combined with the same notch of the temporal bone, forms the jugular foramen (foramen jugulare). The jugular vein, glossopharyngeal, accessory and vagus nerves pass through this opening. On the posterior edge of the jugular notch is a small protrusion called the jugular process (processus intrajugularis) (Fig. 60). Behind him, along the inner surface of the skull, there is a wide groove of the sigmoid sinus (sulcus sinus sigmoidei) (Fig. 61, 65), which has an arcuate shape and is a continuation of the temporal bone groove of the same name. Anterior to it, on the upper surface of the lateral part, there is a smooth, gently sloping jugular tubercle (tuberculum jugulare) (Fig. 61).
Rice. 60. Occipital bone (outside view):
1 - external occipital protrusion; 2 - occipital scales; 3 - upper vynynaya line; 4 - external occipital crest; 5 - lower vynynaya line; 6 - a large hole; 7 - condylar fossa; 8 - condylar canal; 9 - side part; 10 - jugular notch; 11 - occipital condyle; 12 - jugular process; 13 - pharyngeal tubercle; 14 - main part
The most massive part of the occipital bone is the occipital scales (squama occipitalis) (Fig. 60, 61, 62), located behind the large occipital foramen and taking part in the formation of the base and vault of the skull. In the center, on the outer surface of the occipital scales, there is an external occipital protrusion (protuberantia occipittalis externa) (Fig. 60), which is easily palpable through the skin. From the external occipital protrusion to the large occipital foramen, the external occipital crest (crista occipitalis externa) is directed (Fig. 60). Paired upper and lower nuchal lines (linea nuchae superiores et inferiores) (Fig. 60) depart from the external occipital crest on both sides, which are a trace of muscle attachment. The upper protruding lines are at the level of the outer protrusion, and the lower ones are at the level of the middle of the outer ridge. On the inner surface, in the center of the cruciform eminence (eminentia cruciformis), there is an internal occipital protrusion (protuberantia occipittalis interna) (Fig. 61). Down from it, up to the large occipital foramen, the internal occipital crest (crista occipitalis interna) descends (Fig. 61). A wide flat groove of the transverse sinus (sulcus sinus transversi) is directed to both sides of the cruciform eminence (Fig. 61); the furrow of the superior sagittal sinus (sulcus sinus sagittalis superioris) goes vertically upwards (Fig. 61).
Rice. 61. Occipital bone (inside view):
1 - occipital scales; 3 - internal occipital protrusion; 4 - groove of the transverse sinus; 5 - internal occipital crest; 6 - a large hole; 8 - condylar canal; 9 - jugular process; 10 - furrow of the lower stony sinus; 11 - side part; 12 - main part
The occipital bone is connected to the sphenoid, temporal and parietal bones.
The sphenoid bone (os sphenoidale) (Fig. 59) is unpaired, located in the center of the base of the skull. In the sphenoid bone, which has a complex shape, the body, small wings, large wings and pterygoid processes are distinguished.
The body of the sphenoid bone (corpus ossis sphenoidalis) has a cubic shape, six surfaces are distinguished in it. The upper surface of the body faces the cranial cavity and has a depression called the Turkish saddle (sella turcica), in the center of which is the pituitary fossa (fossa hypophysialis) with the lower appendage of the brain, the pituitary gland, lying in it. In front, the Turkish saddle is limited by the tubercle of the saddle (tuberculum sellae) (Fig. 62), and in the back by the back of the saddle (dorsum sellae). The posterior surface of the body of the sphenoid bone is connected to the basilar part of the occipital bone. On the front surface there are two openings leading to the airy sphenoid sinus (sinus sphenoidalis) and called the aperture of the sphenoid sinus (apertura sinus sphenoidalis) (Fig. 63). The sinus is finally formed after 7 years inside the body of the sphenoid bone and is a paired cavity separated by the septum of the sphenoid sinuses (septum sinuum sphenoidalium), which emerges on the front surface in the form of a sphenoid ridge (crista sphenoidalis) (Fig. 63). The lower section of the crest is pointed and is a wedge-shaped beak (rostrum sphenoidale) (Fig. 63), wedged between the wings of the vomer (alae vomeris), which is attached to the lower surface of the body of the sphenoid bone.
Small wings (alae minores) (Fig. 62, 63) of the sphenoid bone are directed in both directions from the anteroposterior corners of the body and represent two triangular plates. At the base, the small wings are pierced by the optic canal (canalis opticus) (Fig. 62), which contains the optic nerve and the ophthalmic artery. The upper surface of the small wings faces the cranial cavity, and the lower surface takes part in the formation of the upper wall of the orbit.
Large wings (alae majores) (Fig. 62, 63) of the sphenoid bone move away from the side surfaces of the body, heading outward. At the base of the large wings there is a round hole (foramen rotundum) (Fig. 62, 63), then an oval (foramen ovale) (Fig. 62), through which the branches of the trigeminal nerve pass, and outwards and backwards (in the region of the wing angle ) there is a spinous opening (foramen spinosum) (Fig. 62), passing the artery that feeds the hard shell of the brain. The inner, cerebral, surface (facies cerebralis) is concave, and the outer one is convex and consists of two parts: the orbital surface (facies orbitalis) (Fig. 62), which is involved in the formation of the walls of the orbit, and the temporal surface (facies temporalis) (Fig. 63) involved in the formation of the wall of the temporal fossa. Large and small wings limit the upper orbital fissure (fissura orbitalis superior) (Fig. 62, 63), through which blood vessels and nerves enter the orbit.
Rice. 62. Occipital and sphenoid bones (top view):
1 - large wing of the sphenoid bone; 2 - small wing of the sphenoid bone; 3 - visual channel; 4 - tubercle of the Turkish saddle; 5 - occipital scales of the occipital bone; 6 - upper orbital fissure; 7 - round hole; 8 - oval hole; 9 - a large hole; 10 - spinous foramen
Pterygoid processes (processus pterygoidei) (Fig. 63) depart from the junction of large wings with the body and go down. Each process is formed by the outer and inner plates, fused in front, and diverging behind and limiting the pterygoid fossa (fossa pterygoidea).
Rice. 63. Sphenoid bone (front view):
1 - large wing; 2 - small wing; 3 - upper orbital fissure; 4 - temporal surface; 5 - aperture of the sphenoid sinus; 6 - orbital surface; 7 - round hole; 8 - wedge-shaped ridge; 9 - wedge-shaped channel; 10 - wedge-shaped beak; 11 - pterygoid process; 12 - lateral plate of the pterygoid process; 13 - medial plate of the pterygoid process; 14 - pterygoid hook
The inner medial plate of the pterygoid process (lamina medialis processus pterygoideus) (Fig. 63) takes part in the formation of the nasal cavity and ends with a pterygoid hook (hamulus pterygoideus) (Fig. 63). The outer lateral plate of the pterygoid process (lamina lateralis processus pterygoideus) (Fig. 63) is wider, but less long. Its outer surface faces the infratemporal fossa (fossa infratemporalis). At the base, each pterygoid process is pierced by the pterygoid canal (canalis pterygoideus) (Fig. 63), through which the vessels and nerves pass.
The sphenoid bone is connected to all the bones of the brain skull.
Rice. 64. Temporal bone (outside view): 1 - scaly part;2 - zygomatic process;3 - mandibular fossa;4 - articular tubercle;5 - external auditory opening;6 - stony-scaly gap;7 - drum part;8 - mastoid process;9 - styloid process
The temporal bone (os temporale) (Fig. 59) is paired, takes part in the formation of the base of the skull, lateral wall and arch. It contains the organ of hearing and balance (see the "Sense Organs" section), the internal carotid artery, part of the sigmoid venous sinus, the vestibulocochlear and facial nerves, the trigeminal ganglion, the branches of the vagus and glossopharyngeal nerves. In addition, connecting with the lower jaw, the temporal bone serves as a support for the masticatory apparatus. It is divided into three parts: stony, scaly and drum.
Rice. 65. Temporal bone (inside view): 1 - scaly part;2 - zygomatic process;3 - arched elevation;4 - drum roof;5 - subarc fossa;6 - internal auditory opening;7 - groove of the sigmoid sinus;8 - mastoid opening;9 - rocky part;10 - outer opening of the water supply vestibule;11 - styloid process
The stony part (pars petrosa) (Fig. 65) has the shape of a tripartite pyramid, the top of which is facing anteriorly and medially, and the base, which passes into the mastoid process (processus mastoideus), is posteriorly and laterally. On the smooth front surface of the stony part (facies anterior partis petrosae), near the top of the pyramid, there is a wide depression, which is the site of the adjoining trigeminal nerve, the trigeminal depression (impressio trigemini), and almost at the base of the pyramid there is an arcuate elevation (eminentia arcuata) (Fig. 65), formed by the upper semicircular canal of the inner ear lying under it. The front surface is separated from the inner stony-scaly fissure (fissura petrosquamosa) (Fig. 64, 66). Between the gap and the arcuate elevation is a vast platform - the tympanic roof (tegmen tympani) (Fig. 65), under which lies the tympanic cavity of the middle ear. Almost in the center of the posterior surface of the stony part (facies posterior partis petrosae), the internal auditory opening (porus acusticus internus) (Fig. 65) is noticeable, heading into the internal auditory meatus. Vessels, facial and vestibulocochlear nerves pass through it. Above and lateral to the internal auditory opening is the subarc fossa (fossa subarcuata) (Fig. 65), into which the process of the dura mater penetrates. Even more lateral to the opening is the external opening of the vestibule aqueduct (apertura externa aquaeductus vestibuli) (Fig. 65), through which the endolymphatic duct exits the cavity of the inner ear. In the center of the rough lower surface (facies inferior partis petrosae) there is an opening leading to the carotid canal (canalis caroticus), and behind it is the jugular fossa (fossa jugularis) (Fig. 66). Lateral to the jugular fossa, a long styloid process (processus styloideus) (Fig. 64, 65, 66), which is the point of origin of muscles and ligaments, protrudes downward and anteriorly. At the base of this process is the stylomastoid foramen (foramen stylomastoideum) (Fig. 66, 67), through which the facial nerve emerges from the cranial cavity. The mastoid process (processus mastoideus) (Fig. 64, 66), which is a continuation of the base of the stony part, serves as an attachment point for the sternocleidomastoid muscle.
On the medial side, the mastoid process is limited by the mastoid notch (incisura mastoidea) (Fig. 66), and along its inner, cerebral side, there is an S-shaped groove of the sigmoid sinus (sulcus sinus sigmoidei) (Fig. 65), from which to the outer surface of the skull leads mastoid opening (foramen mastoideum) (Fig. 65), relating to non-permanent venous graduates. Inside the mastoid process there are air cavities - mastoid cells (cellulae mastoideae) (Fig. 67), communicating with the middle ear cavity through the mastoid cave (antrium mastoideum) (Fig. 67).
Rice. 66. Temporal bone (bottom view):
1 - zygomatic process; 2 - muscular-tubal channel; 3 - articular tubercle; 4 - mandibular fossa; 5 - stony-scaly gap; 6 - styloid process; 7 - jugular fossa; 8 - stylomastoid opening; 9 - mastoid process; 10 - mastoid notch
The scaly part (pars squamosa) (Fig. 64, 65) has the shape of an oval plate, which is located almost vertically. The outer temporal surface (facies temporalis) is slightly rough and slightly convex, participates in the formation of the temporal fossa (fossa temporalis), which is the starting point of the temporal muscle. The inner cerebral surface (facies cerebralis) is concave, with traces of adjacent convolutions and arteries: digital depressions, cerebral eminences and arterial grooves. Anterior to the external auditory meatus, the zygomatic process (processus zygomaticus) rises sideways and forward (Fig. 64, 65, 66), which, connecting with the temporal process, forms the zygomatic arch (arcus zygomaticus). At the base of the process, on the outer surface of the scaly part, there is a mandibular fossa (fossa mandibularis) (Fig. 64, 66), providing a connection with the lower jaw, which is limited in front by the articular tubercle (tuberculum articularae) (Fig. 64, 66).
Rice. 67. Temporal bone (vertical section):
1 - the probe is inserted into the facial canal; 2 - mastoid cave; 3 - mastoid cells; 4 - semi-channel of the muscle straining the eardrum; 5 - semi-canal of the auditory tube; 6 - the probe is inserted into the carotid canal; 7 - the probe is inserted into the stylomastoid foramen
The tympanic part (pars tympanica) (Fig. 64) is fused with the mastoid process and the squamous part, it is a thin plate that limits the external auditory opening and the external auditory meatus in front, behind and below.
Rice. 68. Parietal bone (outside view):
1 - sagittal edge; 2 - occipital angle; 3 - frontal angle; 4 - parietal tubercle; 5 - upper temporal line; 6 - occipital margin; 7 - frontal edge; 8 - lower temporal line; 9 - mastoid angle; 10 - wedge-shaped angle; 11 - scaly edge
The temporal bone contains several canals:
Carotid canal (canalis caroticus) (Fig. 67), in which lies the internal carotid artery. It starts from the outer opening on the lower surface of the rocky part, goes vertically upwards, then, gently curving, passes horizontally and exits at the top of the pyramid;
The facial canal (canalis facialis) (Fig. 67), in which the facial nerve is located. It begins in the internal auditory canal, goes horizontally forward to the middle of the anterior surface of the petrous part, where, turning at a right angle to the side and passing into the posterior part of the medial wall of the tympanic cavity, it goes vertically down and opens with a stylomastoid opening;
The muscular-tubal canal (canalis musculotubarius) (Fig. 66) is divided by a septum into two parts: the semi-canal of the muscle straining the eardrum (semicanalis m. tensoris tympani) (Fig. 67), and the semi-canal of the auditory tube (semicanalis tubae auditivae) (Fig. 67), connecting the tympanic cavity with the pharyngeal cavity. The canal opens with an external opening lying between the anterior end of the petrous part and the scales of the occipital bone, and ends in the tympanic cavity.
The temporal bone is connected to the occipital, parietal and sphenoid bones.
The parietal bone (os parietale) (Fig. 59) is paired, flat, has a quadrangular shape and takes part in the formation of the upper and lateral parts of the cranial vault.
The outer surface (facies externa) of the parietal bone is smooth and convex. The place of its greatest convexity is called the parietal tubercle (tuber parietale) (Fig. 68). Below the tubercle are the upper temporal line (linea temporalis superior) (Fig. 68), which is the site of attachment of the temporal fascia, and the lower temporal line (linea temporalis inferior) (Fig. 68), which serves as the site of attachment of the temporal muscle.
The inner, cerebral, surface (facies interna) is concave, with a characteristic relief of the adjacent brain, the so-called digital impressions (impressiones digitatae) (Fig. 71) and tree-like branching arterial grooves (sulci arteriosi) (Fig. 69, 71).
Four edges are distinguished in the bone. The anterior frontal edge (margo frontalis) (Fig. 68, 69) is connected to the frontal bone. Rear occipital margin (margo occipitalis) (Fig. 68, 69) - with the occipital bone. The upper swept, or sagittal, edge (margo sagittalis) (Fig. 68, 69) is connected to the same edge of the other parietal bone. The lower squamous edge (margo squamosus) (Fig. 68, 69) is covered in front by the large wing of the sphenoid bone, a little further by the scales of the temporal bone, and behind it is connected to the teeth and mastoid process of the temporal bone.
Rice. 69. Parietal bone (inside view): 1 - sagittal edge;2 - furrow of the superior sagittal sinus;3 - occipital angle;4 - frontal angle;5 - occipital margin;6 - frontal edge;7 - arterial grooves;8 - groove of the sigmoid sinus;9 - mastoid angle;10 - wedge-shaped angle;11 - scaly edge
Also, according to the edges, four corners are distinguished: frontal (angulus frontalis) (Fig. 68, 69), occipital (angulus occipitalis) (Fig. 68, 69), wedge-shaped (angulus sphenoidalis) (Fig. 68, 69) and mastoid (angulus mastoideus ) (Fig. 68, 69).
Rice. 70. Frontal bone (outside view):
1 - frontal scales; 2 - frontal tubercle; 3 - temporal line; 4 - temporal surface; 5 - glabella; 6 - superciliary arch; 7 - supraorbital notch; 8 - supraorbital margin; 9 - zygomatic process; 10 - bow; 11 - nasal spine
Rice. 71. Frontal bone (inside view):
1 - furrow of the superior sagittal sinus; 2 - arterial grooves; 3 - frontal scallop; 4 - finger indentations; 5 - zygomatic process; 6 - orbital part; 7 - nasal spine
The frontal bone (os frontale) (Fig. 59) is unpaired, participates in the formation of the anterior part of the vault and base of the skull, eye sockets, temporal fossa and nasal cavity. Three parts are distinguished in it: the frontal scales, the orbital part and the nasal part.
Frontal scales (squama frontalis) (Fig. 70) is directed vertically and backwards. The outer surface (facies externa) is convex and smooth. From below, the frontal scales end in a pointed supraorbital margin (margo supraorbitalis) (Fig. 70, 72), in the medial part of which there is an supraorbital notch (incisura supraorbitalis) (Fig. 70), containing the vessels and nerves of the same name. The lateral section of the supraorbital margin ends with a triangular zygomatic process (processus zygomaticus) (Fig. 70, 71), which connects to the frontal process of the zygomatic bone. Behind and upward from the zygomatic process, an arcuate temporal line (linea temporalis) (Fig. 70) passes, separating the outer surface of the frontal scale from its temporal surface. The temporal surface (facies temporalis) (Fig. 70) is involved in the formation of the temporal fossa. Above the supraorbital margin on each side is the superciliary arch (arcus superciliaris) (Fig. 70), which is an arcuate elevation. Between and slightly above the superciliary arches there is a flat, smooth area - the glabella (glabella) (Fig. 70). Above each arc there is a rounded elevation - the frontal tubercle (tuber frontale) (Fig. 70). The inner surface (facies interna) of the frontal scales is concave, with characteristic indentations from the convolutions of the brain and arteries. The groove of the superior sagittal sinus (sulcus sinus sagittalis superioris) (Fig. 71) runs along the center of the inner surface, the edges of which in the lower section are combined into the frontal scallop (crista frontalis) (Fig. 71).
Rice. 72. Frontal bone (view from below):
1 - nasal spine; 2 - supraorbital margin; 3 - block hole; 4 - block awn; 5 - fossa of the lacrimal gland; 6 - orbital surface; 7 - lattice cut
Rice. 73. Ethmoid bone (top view):
2 - lattice cells; 3 - cockscomb; 4 - lattice labyrinth; 5 - lattice plate; 6 - orbital plate
The orbital part (pars orbitalis) (Fig. 71) is steam room, takes part in the formation of the upper wall of the orbit and has the form of a horizontally located triangular plate. The lower orbital surface (facies orbitalis) (Fig. 72) is smooth and convex, facing the cavity of the orbit. At the base of the zygomatic process in its lateral section is the fossa of the lacrimal gland (fossa glandulae lacrimalis) (Fig. 72). The medial part of the orbital surface contains a trochlear fossa (fovea trochlearis) (Fig. 72), in which lies the trochlear spine (spina trochlearis) (Fig. 72). The upper cerebral surface is convex, with a characteristic relief.
Rice. 74. Ethmoid bone (bottom view):
1 - perpendicular plate; 2 - lattice plate; 3 - lattice cells; 5 - superior turbinate
The nasal part (pars nasalis) (Fig. 70) of the frontal bone in an arc surrounds the ethmoid notch (incisura ethmoidalis) (Fig. 72) and contains pits that articulate with the cells of the labyrinths of the ethmoid bone. In the anterior section there is a descending nasal spine (spina nasalis) (Fig. 70, 71, 72). In the thickness of the nasal part lies the frontal sinus (sinus frontalis), which is a paired cavity separated by a septum, belonging to the air-bearing paranasal sinuses.
The frontal bone is connected to the sphenoid, ethmoid and parietal bones.
The ethmoid bone (os ethmoidale) is unpaired, participates in the formation of the base of the skull, the orbit and the nasal cavity. It consists of two parts: a lattice, or horizontal, plate and a perpendicular, or vertical, plate.
Rice. 75. Ethmoid bone (side view): 1 - cockscomb;2 - lattice cells;3 - orbital plate;4 - middle nasal concha;5 - perpendicular plate
Ethmoid plate (lamina cribosa) (Fig. 73, 74, 75) is located in the ethmoid notch of the frontal bone. On both sides of it is a lattice labyrinth (labyrinthus ethmoidalis) (Fig. 73), consisting of air-bearing lattice cells (cellulae ethmoidales) (Fig. 73, 74, 75). On the inner surface of the ethmoid labyrinth there are two curved processes: the upper (concha nasalis superior) (Fig. 74) and the middle (concha nasalis media) (Fig. 74, 75) nasal conchas.
Perpendicular plate (lamina perpendicularis) (Fig. 73, 74, 75) is involved in the formation of the septum of the nasal cavity. Its upper part ends with a cockscomb (crista galli) (Fig. 73, 75), to which a large sickle-shaped process of the dura mater is attached.
Parietal bone (human anatomy)
Parietal bone , os parietale, a pair of quadrangular-shaped flat bone, concave in the form of a bowl. Forms most of the roof of the skull. It distinguishes between a convex outer surface, facies externa, and a concave inner, facies interna, 4 edges, passing one into another through four corners. The anterior, frontal, margo frontalis, is connected to the scales of the frontal bone, the posterior, occipital, margo occipitalis - to the scales of the occipital bone. The upper edge is sagittal, margo sagittalis, located in the sagittal direction and connected to the corresponding edge of the bone of the opposite side. The lower edge is scaly, margo squamosus, adjacent to the scales of the temporal bone. The upper anterior angle is frontal, angulus frontalis, and the upper posterior one is occipital, angulus occipitalis, almost straight. The anterior lower angle is wedge-shaped, angulus sphenoidalis, connects to the greater wing of the sphenoid bone, sharp, and the posterior lower angle is mastoid, angulus mastoideus, obtuse, adjacent to the mastoid part of the temporal bone.
On the outer surface of the parietal bone is the parietal tubercle, tuber parietale; below it pass the upper and lower temporal lines, lineae temporales superior et inferior, facing the convexity of the top. The upper temporal line is the site of attachment of the temporal fascia, the lower - the temporal muscle. At the sagittal edge there is a parietal opening, foramen parietalae, through which a graduate passes, connecting the superior sagittal sinus and the veins of the soft tissues of the cranial vault.
On the inner surface of the parietal bone along the sagittal edge, a sagittally extending groove of the superior sagittal sinus, sulcus sinus sagittalis superioris, is noticeable, which, connecting with the groove of the same name of another parietal bone, serves as the location of the superior sagittal sinus. Near the specified furrow there are pits, foveolae granulares, - traces of granulations of the arachnoid membrane, which are differently expressed and sometimes presented in the form of holes (especially in the elderly). On the inner surface of the parietal bone there are digital impressions, cerebral eminences and arterial grooves. The arterial sulcus comes from the main angle and is a trace of the location in this area of the middle artery of the dura mater. On the inner surface of the mastoid angle is a wide groove of the sigmoid sinus, sulcus sinus sigmoidei.
Ossification. The parietal bone is formed from two ossification points located one above the other in the region of the parietal tubercle and appearing at the end of the 2nd month of intrauterine development. The end of the process of ossification of the parietal bone ends in the 2nd year of life.
Occipital bone (human anatomy)
Occipital bone , os occipitalae, unpaired, makes up the back of the base and roof of the skull. It distinguishes four parts: the main, pars basilaris, two lateral, partes laterales, and scales, squama. In a child, these parts are separate bones connected by cartilage. On the 3-6th year of life, the cartilage ossifies and they fuse together into one bone. All these parts join together to form a large opening, the foramen magnum. In this case, the scales lie behind this hole, the main part is in front, and the lateral ones are on the sides. The scales are mainly involved in the formation of the back of the skull roof, and the main and lateral parts are the base of the skull.
The main part of the occipital bone is wedge-shaped, the base of which faces forward to the sphenoid bone, and the apex is posterior, limiting the large opening in front. In the main part, five surfaces are distinguished, of which the upper and lower are connected behind at the anterior edge of the occipital foramen. The anterior surface is connected to the sphenoid bone until the age of 18-20 with the help of cartilage, which subsequently ossifies. The upper surface - the slope, clivus, is concave in the form of a gutter, which is located in the sagittal direction. The medulla oblongata, pons, blood vessels and nerves are adjacent to the slope. In the middle of the lower surface is the pharyngeal tubercle, tuberculum pharyngeum, to which the initial part of the pharynx is attached. On the sides of the pharyngeal tubercle, two transverse ridges extend from each side, of which m is attached to the anterior one. longus capitis, and to the back - m. rectus capitis anterior. Lateral rough surfaces of the main part are connected by means of cartilage to the petrous part of the temporal bone. On their upper surface, near the lateral edge, there is a small groove of the lower petrosal sinus, sulcus sinus petrosi inferioris. It is in contact with a similar groove in the petrous part of the temporal bone and serves as a place to which the inferior petrosal venous sinus of the dura is adjacent.
The lateral part is located on both sides of the foramen magnum and connects the main part to the scales. Its medial edge faces the foramen magnum, the lateral edge faces the temporal bone. The lateral edge carries the jugular notch, incisura jugularis, which, with the corresponding notch of the temporal bone, limits the jugular foramen. The intra-jugular process, processus intra] ugularis, located along the edge of the notch of the occipital bone, divides the opening into anterior and posterior. In the anterior passes the internal jugular vein, in the posterior - IX, X, XI pairs of cranial nerves. The back of the jugular notch is limited by the base of the jugular process, processus jugularis, which faces the cranial cavity. Behind and inside of the jugular process on the inner surface of the lateral part is a deep groove of the transverse sinus, sulcus sinus transversi. In the anterior part of the lateral part, on the border with the main part, there is a jugular tubercle, tuberculum jugulare, and on the lower surface there is an occipital condyle, condylus occipitalis, with which the skull articulates with the 1st cervical vertebra. The condyles, according to the shape of the upper articular surface of the atlas, form oblong ridges with convex oval articular surfaces. Behind each condyle there is a condylar fossa, fossa condylaris, at the bottom of which there is a visible opening of the outlet canal connecting the veins of the meninges with the external veins of the head. This hole is absent in half of the cases on both sides or on one side. Its width is highly variable. The base of the occipital condyle is pierced by the hypoglossal nerve canal, canalis hypoglossi.
The occipital scales, squama occipitalis, are triangular in shape, curved, its base facing the occipital foramen, the apex facing the parietal bones. The upper edge of the scales is connected to the parietal bones by means of a lambdoid suture, and the lower edge is connected to the mastoid parts of the temporal bones. In this regard, the upper edge of the scales is called lambdoid, margo lambdoideus, and the lower edge is mastoid, margo mastoideus. The outer surface of the scales is convex, in its middle there is an external occipital protrusion, protuberantia occipitalis externa, from which the external occipital crest, crista occipitalis externa, descends vertically down towards the occipital foramen, intersecting in pairs with two nuchal lines, lineae nuchae superior et inferior. In some cases, the highest nuchal line, lineae nuchae suprema, is also noted. Muscles and ligaments are attached to these lines. The inner surface of the occipital scale is concave, forming in the center an internal occipital protrusion, protuberantia occipitalis interna, which is the center of the cruciform eminence, eminentia cruciformis. This elevation divides the inner surface of the scale into four separate depressions. The occipital lobes of the brain adjoin the two upper ones, and the cerebellar hemispheres adjoin the two lower ones.
Ossification. It begins at the beginning of the 3rd month of intrauterine development, when islands of ossification appear both in the cartilaginous and connective tissue parts of the occipital bone. In the cartilaginous part, five ossification points arise, of which one is located in the main part, two in the lateral parts, and two in the cartilaginous part of the scale. Two ossification points appear in the connective tissue upper part of the scale. By the end of the 3rd month, the fusion of the upper and lower sections of the scales occurs; in the 3rd-6th year, the main part, lateral parts and scales grow together.
Frontal bone (human anatomy)
frontal bone , os frontale, has the shape of a shell and is involved in the formation of the base, the roof of the skull, as well as the walls of the orbits and the nasal cavity. The following parts are distinguished in the frontal bone: unpaired - frontal scales, squama frontalis, and nasal, pars nasalis, and paired - orbital parts, partes orbitales. The scales have two surfaces: outer, fades externa, and inner, fades interna. The outer surface is convex, smooth, composed of two halves connected by a frontal suture. By the age of 5, this suture is usually overgrown. However, often the suture does not heal, and the frontal bone remains divided into two halves. Two frontal tubercles, tuber frontale, corresponding to the initial ossification points, are defined on the sides of the suture. Under the tubercles are on each side of the crescent-shaped ridges - superciliary arches, arcus superciliaris, individually different in shape and size. Between the frontal tubercles and the superciliary arches, a platform is formed - the glabella, glabella. Laterally, the lower sections of the frontal bone are elongated and the zygomatic processes, processus zygomaticus, which are connected by a serrated edge to one of the processes of the zygomatic bone. From each zygomatic process, a temporal line goes up, linea temporalis, delimiting a small lateral temporal surface, fades temporalis, from the anterior part of the frontal scales. The upper edge of the scales - the parietal, margo parietalis, is arcuately curved and connects at the top with the parietal bone and the large wing of the sphenoid bone. Below, the scales are delimited from the orbital parts by a paired supraorbital margin, margo supraorbitalis, and from the nasal part by a small uneven notch that makes up the nasal margin, margo nasalis. On the supraorbital margin in its medial part, an infraorbital notch, incisura supraorbitalis, is formed, and medially from it, a frontal notch, incisura frontalis, sometimes turning into openings through which the vessels and nerves of the same name pass.
The inner surface of the scales is concave, has imprints of the cerebral convolutions, arterial grooves and in the middle a sharp vertical frontal crest, crista frontalis, diverging outward into two legs, delimiting the sagittally located groove of the superior sagittal sinus, sulcus sinus sagittalis superior. Below, at the beginning of the ridge, a small blind hole, foramen caecum, is visible. On the sides of the sagittal groove are pits of arachnoid granulations.
The nasal part is located between the orbital parts and is represented by an uneven horseshoe-shaped section of bone that limits the front and sides of the ethmoid notch, incisura ethmoidalis. The anterior part of this part is connected in front with the nasal bones and the frontal process of the upper jaw, and with the posterior edge - with the anterior edge of the perforated plate of the ethmoid bone. Below, it passes into a sharp spike - the nasal spine, spina nasalis, which is part of the nasal septum. The posterior sections of the nasal part contain cells that are in contact with the ethmoid bone and form the roof of the cells of the ethmoid bone, cellulae ethmoidales. Between the frontal spine and the edge of the ethmoid notch on each side there is an opening of the frontal sinus, apertura sinus frontalis.
The orbital part is a steam room, it is an irregular quadrilateral bone plate, in which the upper and lower surfaces and 4 edges are distinguished. The anterior margin is formed by the supraorbital margin, the lateral margin is connected in front with the zygomatic bone, posteriorly with the greater wings of the sphenoid bone, the posterior margin is adjacent to the lesser wings of the sphenoid bone, the medial margin is attached to the lacrimal bone and the orbital plate of the ethmoid bone. The upper surface faces the cranial cavity, has finger impressions and cerebral elevations. The lower surface is directed to the orbit, it is smooth. In its anterior-lateral part there is a small block fossa, fovea trochlearis. The fossa of the lacrimal gland, fossa glandulae lacrimalis, is located in front and laterally.
The frontal bone belongs to the pneumatic bones, as it contains a cavity - the frontal sinus, sinus frontalis, filled with air. The frontal sinus is located between the scale plates in the region corresponding to the glabella and superciliary arches and communicates with the nasal cavity. It is divided by a vertical partition into the right and left sinuses. The size of the frontal sinuses is subject to large individual fluctuations: the sinuses may be absent or may be of considerable size, extending laterally to the zygomatic process. The right and left sinuses are different in size. The partition between the sinuses may be absent or, conversely, instead of one there may be several partitions. In such cases, there are 3-4 frontal sinuses.
Ossification. The frontal bone develops from two islands of ossification located near the supraorbital margin and arising at the end of the 2nd month of intrauterine development. By the time of birth, the frontal bone of a newborn consists of two separate bones, which join in the 2nd year of life. The seam between both halves of the bone is observed up to 5 years.
Ethmoid bone (human anatomy)
Ethmoid bone , os ethmoidale, unpaired, consists of a middle part and two lateral parts (Fig. 22). The middle part is composed of a small horizontal lattice plate, lamina cribrosa, and a large perpendicular one, lamina perpendicularis.
Rice. 22. Ethmoid bone, posterior view and somewhat ventrally. 1 - cockscomb; 2 - perforated plate; 3 - rear lattice cells; 4 - lattice bubble; 5 - perpendicular plate; 6 - middle turbinate; 7 - hook-shaped process; 8 - superior nasal concha; 9 - the top shell; 10 - orbital plate; 11 - wing of the cockscomb
The lateral parts are a complex of a large number of air cells, limited by thin bone plates and forming a lattice labyrinth, labyrintus ethmoidalis.
The ethmoid bone is located in the ethmoid notch of the frontal bone. Its cribriform plate is part of the brain skull. The remaining parts take part in the formation of the skeleton of the nasal cavity and the inner walls of the orbit. The shape of the ethmoid bone resembles an irregular cube, but its shape as a whole and its individual parts is individually different and ranges from cuboid to parallelepiped. The ethmoid plate is connected in front and on the sides with the frontal bone, behind - with the anterior edge of the sphenoid bone. The plate is permeated with many small holes for the branches of the olfactory nerves. A cockscomb, crista galli, extends upward from the lamina cribrosa in the midline. Anterior to it lies a paired process - the wing of the cockscomb, ala cristae galli, which, together with the base of the spina frontalis, forms the blind hole already mentioned above. Attached to the crista galli is the anterior end of the greater falciform process of the dura mater. The perpendicular plate of irregular hexagonal shape descends freely down, forming the anterior part of the bony septum of the nose and connecting its edges with the spina frontalis, nasal bones, vomer, sphenoid crest and cartilaginous part of the nasal septum.
The lattice labyrinth is located on both sides of the perpendicular plate, connecting at the top with the outer edge of the lattice plate. The cells of the labyrinth are divided into three troupes, not sharply delimited from each other: front, middle and back. On the lateral side, they are covered by a very thin bony orbital plate, lamina orbitalis, facing the free surface into the cavity of the orbit. From the inside, only a small part of the cells is covered with bone plates. Most of them remain open and are covered by neighboring bones - the frontal, lacrimal, sphenoid, palatine and upper jaw. The orbital plate is part of the medial wall of the orbit. The medial surface of the labyrinth limits the upper part of the nasal cavity and is equipped with two thin bone plates facing the nasal cavity - the upper and middle nasal conchas, conch-chae nasalis superior et media. Between the shells there is a gap - the upper course of the nose, meatus nasi superior. Above and behind the upper shell, the highest nasal shell, concha nasalis suprema, is sometimes found. Under the middle shell there is a large ethmoid vesicle, bulla ethmoidalis, which, together with the hook-shaped process, processus uncinatus, extending at the point of transition of the lower edge of the labyrinth into the anterior part of the middle turbinate, limits the semilunar cleft, hiatus semilunaris, passing into the ethmoid funnel, infundibulum ethmoidale, where the entrance to the maxillary sinus is located. The shells of the ethmoid bone have a different shape and size; consequently, the depth and length of the corresponding cavity passages are different.
Ossification. Ossification of the ethmoid bone begins from the lateral sections at the 5-6th month of intrauterine development. At the end of the 1st year of life, ossification points appear at the base of the cock's comb and in the perpendicular plate. The merger of the lateral sections with the middle one occurs in the 5-6th year. The cartilaginous base of the ethmoid bone of the newborn does not have a cockscomb.
Temporal bone (human anatomy)
The temporal bone, os temporale, is a paired bone, complex in shape and structure, which participates in the formation of the base of the skull, being placed between the occipital and sphenoid bones, and also complements the side walls of the cranial roof. It distinguishes three parts located around the external auditory opening: scaly, tympanic and stony.
The squamous part, pars squamosa, is a vertically located bone plate. With a free, uneven, oblique edge, it is connected by means of a scaly suture to the lower edge of the parietal bone and to the greater wing of the sphenoid bone. Below, the scaly part is adjacent to the stony and tympanic parts and is separated from it by a stony-scaly fissure, fissura petrosquamosa (visible only on the bones of young subjects), and from the tympanic part by a tympanic-squamous fissure, fissura tympanosquamosa.
The outer temporal surface, facies temporalis, of the squamous part is smooth, participates in the formation of the temporal fossa (Fig. 23). Near the lower edge, the zygomatic process departs from it, processus zygomaticus, directed anteriorly, where it connects with the temporal process of the zygomatic bone and forms the zygomatic arch, arcus zygomaticus. The zygomatic process departs with two roots, between which the mandibular fossa, jossa mandibularis, is formed. It is covered with cartilage and articulates with the articular process of the lower jaw. The anterior root of the zygomatic process, thickening anteriorly from the mandibular fossa, forms the articular tubercle, tuberculum articulare. On the posterior root of the zygomatic process there is a similar articular tubercle, tuberculum retroarticulare, less pronounced. Posteriorly, it passes into the temporal line, linea temporalis.
Rice. 23. Temporal bone, right, external view. 1 - zygomatic process; 2 - articular tubercle; 3 - mandibular fossa; 4 - stony-tympanic fissure; 5 - styloid process; 6 - drum part; 7 - external auditory opening; 8 - edge of the drum part; 9 - mastoid process; 10 - mastoid opening; 11 - temporal line; 12 - scaly part
The inner cerebral surface, facies cerebralis, of the squamous part is equipped with cerebral eminences, digital impressions, as well as furrows of the vessels of the meninges.
Rice. 24. Right temporal bone, view from inside and behind. 1 - arcuate elevation; 2 - parietal edge; 3 - roof of the tympanic cavity; 4 - furrow of the upper stony sinus; 5 - groove of the sigmoid sinus; 6 - mastoid opening; 7 - occipital margin; 8 - styloid process; 9 - furrow of the lower stony sinus; 10 - the top of the pyramid; 11 - rocky part, or pyramid; 12 - zygomatic process; 13 - wedge-shaped edge; 14 - arterial groove; 15 - back surface of the pyramid; 16 - internal auditory opening
The tympanic part, pars tympanica, is centered around the external auditory canal, meatus acusticus externus. In newborns, it is expressed in the form of a ring, anulus tympanicus, open upward and surrounding the external auditory meatus. In the future, it grows and merges with neighboring parts. In adults, the tympanic part limits the external auditory opening, porus acusticus externus, and the tympanic cavity, cavum tympani, from below and behind, merging with the free edge with the scales and the mastoid part. It is separated from the scales by a tympanic-squamous fissure, into which a process of the tympanic roof enters from the front surface of the pyramid, due to which the said fissure is divided into two parallel cavity passes a branch of the facial nerve - a drum string, chorda tympani. The cartilaginous part of the ear canal is attached to the free rough and curved edge of the tympanic part, which limits the external auditory opening.
Rice. 25. Right temporal bone, ventral view. 1 - articular tubercle; 2 - mandibular fossa; 3 - stony-tympanic fissure; 4 - drum part; 5 - mastoid process; 6 - mastoid notch; 7 - muscular-tubal canal; 8 - internal carotid opening; 9 - external carotid opening; 10 - jugular fossa; 11 - awl-mastoid opening; 12 - groove of the occipital artery
Above the external auditory opening rises the supra-anal spine, spina supra meatum.
The stony part, pars petrosa, or pyramid, is shaped like a three-sided pyramid, the base of which is turned backwards and laterally, the top is anteriorly and medially. Three surfaces are distinguished on the pyramid, of which the anterior, facies anterior, and the posterior, facies posterior, face the cranial cavity, and the lower, facies inferior, is part of the outer surface of the base of the skull (Fig. 24 and 25). The surfaces are separated by three edges: top, back and front. The base of the pyramid is fused with the scaly part. A small section of the base of the pyramid, facing outward, remains uncovered and contains an external auditory opening. The pyramid of the temporal bone contains most of the elements of the hearing organs: the bone part of the external auditory canal, middle and inner ear.
On the front surface of the pyramid is an arcuate elevation, eminentia arcuata, corresponding to the anterior semicircular canal of the labyrinth of the inner ear. In front of this elevation are two thin grooves: the large and small stony nerves, sulci n. retrosi majoris et n. petrosi minoris, ending in front with the same clefts, hiatus canalis n. petrosi majoris et hiatus canalis n. petrosi minoris. Nerves exit through these openings. The lateral part of this bone surface, lying between the arcuate elevation and the scaly-stony fissure, constitutes the upper wall of the tympanic cavity and is therefore called the tympanic roof, tegmen tympani. Near the top of the pyramid is the trigeminal impression, impressio trigemini. Along the upper edge of the pyramid runs a furrow of the superior petrosal sinus, sulcus sinus petrosi superioris. On the back surface of the pyramid there is an internal auditory opening, porus acusticus internus, leading to the internal auditory meatus, meatus acusticus internus. Behind the internal auditory opening, the external opening of the vestibule aqueduct, apertura externa aqueductus vestibuli, through which the ductus endolymphaticus passes (see Fig. 23), is determined. At the upper edge of the pyramid, between the internal auditory opening and the external opening of the aqueduct of the vestibule, there is a subarc fossa, fossa subarcuata, which in children reaches a large size, and in adults it is significantly reduced. At the lower edge at the level of porus acusticus internus is the opening of the cochlear tubule, apertura externa canaliculi cochleae. Along the posterior edge of the pyramid there is a furrow of the lower petrosal sinus, sulcus sinus petrosi inferioris. The bottom surface of the pyramid is uneven. From it descends down and forward the styloid process, processus styloideus - the place of attachment of the muscles. The process reaches its full development in the elderly. It is composed of several segments, ossifying separately and merging with each other rather late. Between the styloid and mastoid processes under the external auditory opening is the awl-mastoid opening, foramen stylomastoideum, which serves as the exit point of the facial nerve. Anterior and medial to the styloid process is the jugular fossa, fossa jugularis. At the bottom of this fossa, the opening of the mastoid tubule, canaliculus mastoideus, is visible. Anterior to the jugular fossa is the external opening of the carotid canal, foramen caroticum externum, leading to the carotid canal, canalis caroticus, which opens at the top of the pyramid with an exit internal opening, foramen caroticum internum. On the back wall of the carotid canal, near the external opening, there are several small openings of the carotid tympanic tubules, canaliculi caroticotympanici, which open into the tympanic cavity and conduct vessels and nerves. In the crest between the external opening of the carotid canal and the jugular fossa, a stony dimple, fossula petrosa, is isolated, at the bottom of which the tympanic canaliculus for the nerve of the same name begins. Laterally from the foramen caroticum internum, in the depth of the angle formed by the scales and the front edge of the pyramid, the inlet of the musculo-tubal canal, canalis musculotubarius, is determined, divided by an incomplete bone septum into two half-channels: for the muscle that strains the eardrum, semicanalis m. tensoris iympani, auditory tube, semicanalis tubae auditivae.
The base of the pyramid is extended downwards into the mastoid process, processus mastoideus, the outer surface of which is rough due to the attachment of the sternocleidomastoid muscle to it. Inside the mastoid process there are cells, cellulae mastoidei, of various shapes and sizes, lined with a mucous membrane. The largest cell is the mastoid cave, antrum mastoideum, which communicates with the middle ear cavity. Inside from the top of the mastoid process are two parallel furrows. Medially passes the groove of the occipital artery, sulcus a. occipitalis, and laterally - the mastoid notch, incisura mastoidea, which is the site of the beginning of the digastric muscle. The mastoid process is separated from the tympanic part by the tympanic mastoid fissure, fissura tympanomastoidea, through which the ear branch of the vagus nerve passes. In the seam between the mastoid part and the occipital bone is the mastoid opening, foramen mastoideum. On the outer surface of the mastoid process, a practically important area is isolated - the mastoid triangle, which is bounded in front by a line drawn from the spina supra meatum (see the Temporal bone section of this publication) to the top of the mastoid process, behind - by the line of attachment of the sternocleidomastoid muscle and from above - a line that is a continuation of the lower edge of the zygomatic process. The triangle serves as a place for trepanation in inflammatory processes of the middle ear.
On the inner surface of the mastoid process there is an S-shaped curved groove of the sigmoid sinus, sulcus sinus sigmoidei. Approximately in the middle of its length, the mastoid opening opens.
Canals of the temporal bone. 1. The facial nerve canal, canalis facialis, begins at the bottom of the internal auditory canal and goes forward and laterally to the level of the clefts of the petrosal nerve canals. From here, at a right angle, it goes laterally and backward, forming a bend - the knee, geniculum canalis facialis, changes direction from horizontal to vertical and ends with an awl-mastoid opening.
2. Canal of the carotid artery, canalis caroticus (described in the text).
3. Musculo-tubal canal, canalis musculotubarius.
4. The tubule of the drum string, canaliculus chordae tympani, starts from the facial canal slightly above the awl-mastoid foramen and ends in the area of fissura petrotympanica. It contains a branch of the facial nerve - the drum string.
5. Mastoid tubule, canaliculus mastoideus, originates at the bottom of the jugular fossa and ends in the tympanic-mastoid fissure. A branch of the vagus nerve passes through this tubule.
6. The tympanic canaliculus tympanicus arises in the fossula petrosa with an opening apertura inferior canaliculi tympanici, through which a branch of the glossopharyngeal nerve, n. tympanicus, enters. After passing through the tympanic cavity, this nerve, called n. petrosus superficialis minor, exits through the upper opening of the canal, located on the anterior surface of the pyramid.
7. Carotid tympanic tubules, canaliculi caroticotympanici, pass through the wall of the carotid canal near its external opening and open into the tympanic cavity. They serve for the passage of blood vessels and nerves.
Ossification. The temporal bone has 6 ossification points. At the end of the 2nd month of intrauterine development, ossification points appear in the scales, at the 3rd month - in the tympanic part. On the 5th month, several ossification points appear in the cartilaginous anlage of the pyramid. By the time of birth, the temporal bone consists of three parts: squamous with the rudiment of the zygomatic process, stony with the rudiment of the mastoid part and the tympanic, which are mostly already connected, but the newborn still has gaps between them filled with connective tissue. The styloid process develops from two centers. The upper center appears before birth and merges with the petrous part during the 1st year of life. The lower center appears after birth and merges with the upper one only after the onset of puberty. During the first year of life, the three parts of the bone fuse together.
Sphenoid bone (human anatomy)
Sphenoid bone , os sphenoidale, unpaired, located in the middle of the base of the skull. It connects with many bones of the skull and takes part in the formation of a number of bone cavities, cavities, and to a small extent in the formation of the roof of the skull. The shape of the sphenoid bone is peculiar and complex. 4 parts are distinguished in it: the body, corpus, and three pairs of processes, of which two pairs are directed to the sides and are called small wings, alae minora, and large wings, alae majora.
The third pair of processes, pterygoid, processus pterygoidei, is turned downward (Fig. 26 and 27).
Rice. 26. Sphenoid bone, dorsal view. 1 - small wing; 2 - body of the sphenoid bone; 3 - furrow of the intersection of the optic nerves; 4 - fossa of the epididymis; 5 - visual channel; 6 - upper orbital fissure; 7 - round hole; 8 - cerebral surface of large wings; .9 - oval hole; 10 - spinous opening; 11 - back of the Turkish saddle; 12 - big wing
The body makes up the middle part of the bone and has an irregular shape, close to a cube, in which 6 surfaces are distinguished. In the body there is a sphenoid sinus, sinus sphenoidalis, filled with air. Therefore, the sphenoid bone belongs to the pneumatic bones. The posterior surface of an approximately quadrangular shape fuses with the main part of the occipital bone in children through cartilage, in adults through bone tissue. The anterior surface of the body faces the posterior upper part of the nasal cavity, adjoining the posterior bone cells of the ethmoid bone. A wedge-shaped ridge, crista sphenoidalis, passes along the midline of this surface, to which the perpendicular plate of the ethmoid bone is adjacent. The wedge-shaped crest passes below into the wedge-shaped beak, rostrum sphenoidale. On both sides of the crista sphenoidalis are the openings of the sphenoid sinus, aperturae sinus sphenoidalis, individually different in shape and size. The front surface at an angle passes into the lower, bearing in the middle the already mentioned wedge-shaped beak. The anterior part of the lower surface and the lower part of the anterior are formed by thin triangular bone plates, shells of the sphenoid bone, conchae sphenoidales, which limit the lower and partly outer edges of the apertura sinus sphenoidalis. In young, the wedge-shaped shells are connected to the rest of the body by a suture and are somewhat mobile. The lateral surfaces of the body in the middle and lower parts are occupied by the base of large and small wings. The upper part of the lateral surfaces is free and on each side there is a groove of the carotid artery, sulcus caroticus, along which the internal carotid artery passes. Behind and laterally, the edge of the furrow forms a protrusion - a wedge-shaped tongue, lingula sphenoidalis. The upper surface, facing the cranial cavity, has a recess in the middle, called the Turkish saddle, sella turcica (see Fig. 26). At the bottom of it is the pituitary fossa, fossa hypophysialis, in which the pituitary gland is placed. The saddle is bounded in front and behind by protrusions, the anterior of which is represented by a tubercle of the saddle, tuberculum sellae, and the posterior by a high ridge called the back of the saddle, dorsum sellae. The back surface of the back of the saddle continues into the upper surface of the main part of the occipital bone, forming a slope, clivus. The corners of the back of the Turkish saddle are extended downward and backward in the form of posterior deviated processes, processus clinoidei posteriores. Behind the tuberculum sellae on each side is the median deviated process, proceccus clinoideus medius. In front of the tubercle of the saddle is a transversely running shallow furrow of the chiasm, sulcus chiasmatis, where the optic chiasm is located.
Rice. 27. Sphenoid bone, front view. 1 - large wing; 2 - small wing; 3 - lateral plate of the pterygoid process; 4 - body of the sphenoid bone; 5 - wedge-shaped ridge; 6 - pterygoid channel; 7 - medial plate of the pterygoid process; 8 - pterygoid fossa; 9 - pterygoid hook; 10 - pterygoid fossa; 11 - round hole; 12 - orbital surface of the large wing; 13 - upper orbital fissure; 14 - visual channel; 15 - opening of the sphenoid sinus
The small wings of the sphenoid bone, alae minora, depart from the body on each side with two roots. Between them is the optic canal, canalis opticus, through which the optic nerve and ophthalmic artery pass. Small wings of a flat shape are directed horizontally outwards and either connect with large wings or terminate separately from them. The upper surface of the wings faces the cranial cavity, the lower surface faces the orbit. The anterior serrated edge of the wings is connected to the frontal bone, while the posterior smooth edge protrudes into the cranial cavity: an anterior deviated process, processus clinoideus anterior, is formed on it on each side. The lower surface of the small wings, together with the large wings, limits the upper orbital fissure, fissura orbitalis superior, through which the oculomotor, trochlear, ophthalmic and abducens nerves and the superior ophthalmic vein pass.
Large wings, alae majora, depart from each side of the lower-lateral parts of the body of the sphenoid bone, spreading outwards and upwards. They have 4 surfaces and 4 edges. The cerebral surface, facies cerebralis, faces the cranial cavity, is concave, has cerebral elevations and digital impressions. Medially, 3 holes are defined on it: round, foramen rotundum, oval, foramen ovale, and spinous, foramen spinosum, penetrating the wing through. Posteriorly, the large wings end in a sharp protrusion, an angular spine, spina angularis. The temporal surface, facies temporalis, is external, divided transversely by the infratemporal crest, crista infratemporalis. on two surfaces, of which the upper one participates in the formation of the temporal fossa, the lower one passes to the base of the skull and takes part in the formation of the infratemporal fossa. The orbital surface, facies orbitalis, faces forward, forms the posterior part of the outer wall of the eye socket. The maxillary surface, facies maxillaris, faces the upper jaw. The edges of the large wings are connected to the squamous part of the temporal bone, with the zygomatic bone, parietal and frontal. The marginal names correspond to the adjacent bones, margo squamosus, margo zygomaticus, margo parietalis, and margo frontalis.
Pterygoid processes, processus pterygoidei, depart from the sphenoid bone at the junction of the body with large wings and consists of medial and lateral plates, laminae medialis et laminae lateralis. In front, both plates are connected, and behind they are separated from each other by a deep pterygoid fossa, fossa pterygoidea. Below, between both plates, there is a pterygoid notch, incisura pterygoidea, which includes the processus pyramidalis of the palatine bone. On the anterior surface of the pterygoid processes there is a large palatine groove, sulcus palatinus major, which, when connected to the corresponding grooves of neighboring bones (palatine and maxillary), turns into a large palatine canal, canalis palatinus major. At the base of the pterygoid process in the anterior-posterior direction is the pterygoid canal, canalis pterygoideus. The lateral plate is shorter, but wider than the medial one, and is part of the infratemporal fossa. The medial plate ends below with a curved pterygoid hook, hamulus pterygoideus. In the upper part of the posterior edge of the medial plate there is a navicular fossa, fossa scaphoidea, which serves to attach m. tensoris veli palatini, and the cartilaginous part of the auditory tube is adjacent to its upper section.
The sphenoid sinus is divided by a septum, septum sinuum sphenoidalium, into two unequal parts. The sinus opens into the nasal cavity through openings on the anterior surface of the body of the sphenoid bone.
Ossification. The development of the sphenoid bone comes from 4 ossification points that arise in the anterior and posterior parts of the body, in each of the processes; in addition, there are separate ossification points in the medial plate of the pterygoid processes and in the conchae sphenoidales. The first on the 2nd month of embryonic development are the ossification points in the large wings, and on the 3rd month - all the rest, except for the conchae sphenoidales, where they appear after birth. At the 6-7th month of intrauterine development, small wings are connected to the anterior half of the body of the sphenoid bone. By the end of the intrauterine period, the anterior and posterior parts of the body merge. Large wings and sphenoid processes are connected to the body of the bone at the end of the 1st year after birth. The sphenoid sinus in newborns is small and reaches full development in the 6th year of life. The connection of the body of the sphenoid bone with the main part of the occipital bone occurs between 16 and 20 years, more often at 16-18 years.
Parietal bone, os parietale, steam room, forms the middle part of the cranial vault. In man, it reaches the greatest development in comparison with all animals in connection with the highest development of his brain. It represents a typical integumentary bone, which performs mainly the function of protection. Therefore, it has a relatively simple structure in the form of a quadrangular plate, convex on the outside and concave on the inside.
Its four edges serve to connect with neighboring bones, namely: the anterior - with the frontal, margo frontalis, the posterior - with the occipital, margo occipitalis, the medial - with the same bone of the other side, margo sagittalis, and the lateral - with the scales of the temporal bone, margo squamosus . The first three edges are serrated, and the last is adapted to form a scaly suture. Of the four angles, the anteromedial connects to the frontal bone, angulus frontalis, the anterolateral to the sphenoid bone, angulus sphenoidalis, the posteromedial to the occipital bone, angulus occipitalis, and the posterolateral to the base of the mastoid process of the temporal bone, angulus mastoideus.
The relief of the outer convex surface is due to the attachment of muscles and fascia. In the center of it stands the parietal tubercle, tuber parietale (the place where ossification begins). Below it are curved temporal lines - lineae temporales (superior et inferior) - for the temporal fascia and muscle. Near the medial edge there is a hole, foramen parietale (for an artery and a vein).
The relief of the inner concave surface, facies interna, is due to the fit of the brain and especially its hard shell; the places of attachment of the latter to the bone look like a groove of the sagittal sinus passing along the medial edge, sulcus sinus sagittalis superioris (trace of the venous sinus, sinus sagittalis superior), as well as in the region of the angulus mastoideus of the transverse groove,