Αυχενική Μοίρα Σπονδυλικής Στήλη Βιομηχανική

Παρουσίαση με θέμα: "Αυχενική Μοίρα Σπονδυλικής Στήλη Βιομηχανική"— Μεταγράφημα παρουσίασης:

1 Αυχενική Μοίρα Σπονδυλικής Στήλη Βιομηχανική
Γιάννης Καλούδης

2 Μαθησιακοί Στόχοι Βρείτε τα οστικά σημεία ενός αυχενικού σπονδύλου C3-C6 και περιγράψτε σε τι διαφέρει από C1, 2, and C7 Περιγράψτε τα όρια του μεσοσπονδύλιου τρήματος Περιγράψτε τις ζυγοαποφυσιακές αρθρώσεις ( PIV) Περιγράψτε τις αρθρώσεις του Luscha Περιγράψτε τις διαφορές αυχενικού και οσφυικού δίσκου Περιγράψτε τη πορεία και λειτουργία της σπονδυλικής αρτηρίας Περιγράψτε τις προσφύσεις και λειτουργία των κύριων συνδέσμων της άνω και κάτω αυχενικής μοίρας

3 Μαθησιακοί Στόχοι Περιγράψτε βιομηχανικά τι συμβαίνει στη κάμψη, έκταση, πλάγια κάμψη και στροφή της κάτω αυχενικής μοίρας. Περιγράψτε κινήσεις της άνω αυχενικής μοίρας Ορίστε τις συζευγμένες κινήσεις και περιγράψτε πως συμβαίνουν στην κάτω αυχενική μοίρα

4 Οστικά Χαρακτηριστικά Αυχενικών Σπονδύλων
Σπονδυλικό Σώμα Μηνοειδής ακρολοφία Εγκάρσιο τρήμα Αρθρική επιφάνεια αυχενικών l facet Σπονδυλικό τόξο Δισχιδής ακανθώδης απόφυση ΙST/UH NMΣ2

5 ΙST/UH NMΣ2

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7 Ανατομία ΑΜΣΣ Ανώτερη ΑΜΣΣ: ινιακό – Α2 Κατώτερη ΑΜΣΣ: Α3-Α7
ΙST/UH NMΣ2

8 Α1 Άτλαντας Α1 Πρόσθιο φύμα πρόσθιο τόξο βοθρίο του οδόντα
άνω και κάτω αρθρικές επιφάνειες οπίσθιο τόξο οπίσθιο φύμα εγκάρσιες αποφύσεις εγκάρσιο τρήμα Basics: C1 Has an anterior tubercle, articular facet for the dens, lateral masses, inferior& superior articular facets, posterior arch, posterior tubercle & transverse process Slightly convex anteriorly, the short flattened anterior arch of C1 (atlas) has an anterior tubercle in the midline, giving attachment to the ALL, either side of which is the attachment of the superior oblique part of longus colli. Posteriorly, a concave circular facet articulates with the dens (odontoid process) of C2 (axis). The superior and inferior borders give attachment to the anterior atlanto-occipital membrane and anterior longitudinal ligament respectively. Atlas (First Cervical Vertebra): Anterior Arch Anatomy Text Slightly convex anteriorly, the short flattened anterior arch of C1 (atlas) has an anterior tubercle in the midline, giving attachment to the anterior longitudinal ligament (image) , either side of which is the attachment of the superior oblique part of longus colli. Posteriorly, a concave circular facet articulates with the dens (odontoid process) of C2 (axis). The superior and inferior borders give attachment to the anterior atlanto-occipital membrane and anterior longitudinal ligament respectively. Atlas (First Cervical Vertebra): Anterior Tubercle Anatomy Text The anterior tubercle is situated in the midline, on the anterior aspect of the anterior arch, where it gives attachment to the anterior longitudinal ligament (image) . Atlas (First Cervical Vertebra): Articular Facet for Dens Anatomy Text The articular facet for the dens is a concave circular facet located on the posterior aspect of the anterior arch of C1 (atlas), where it serves as an articular facet for the dens (odontoid process) (image) of C2 (axis). Atlas (First Cervical Vertebra): Inferior Articular Facets Anatomy Text The inferior articular processes of C1 (atlas) are flat or slightly concave circular facets located on the inferior surface of each lateral mass and are orientated more obliquely to the transverse plane than the superior articular facets and face postero-medially. The inferior articular facets articulate with the superior articular facets of C2 (axis) at the atlanto-axial joints (image) , thereby permitting rotation of the head and circumduction around the dens of the axis. Atlas (First Cervical Vertebra): Lateral Masses Anatomy Text The lateral masses are ovoid masses whose long axes converge anteriorly. Each has superior and inferior surfaces that bear superior and inferior articular facets, respectively. On the medial surface of each lateral mass is a roughened area with vascular foramina and a tubercle to which the transverse band of the cruciform ligament (image) (transverse ligament of atlas) attaches. Rectus capitis anterior attaches to the anterior surface of the lateral mass Atlas (First Cervical Vertebra): Posterior Arch Anatomy Text The posterior arch of C1 (atlas) forms most of a ring that represents the pedicles and laminae of a typical cervical vertebra. Immediately behind the lateral mass, the posterior arch is grooved on its superior surface by the vertebral artery (image) and vein and first cervical spinal nerve. This groove may be converted into a foramen (arcuate foramen) by cartilaginous or bony tissue (posterior ponticle) that bridges the posterior aspect of the lateral mass and the posterior arch. The posterior tubercle represents a rudimentary spinous process and gives attachment to the ligamentum nuchae. The rectus capitis posterior minor (animation) muscles attach lateral to the posterior tubercle. The superior and inferior borders give attachment to the posterior atlanto-occipital membrane and ligament flava, respectively. Atlas (First Cervical Vertebra): Posterior Tubercle Anatomy Text The posterior tubercle is situated in the midline, on the posterior aspect of the posterior arch. The tubercle is a rudimentary spinous process that projects posteriorly and gives attachment to the ligamentum nuchae. Atlas (First Cervical Vertebra): Superior Articular Facets on Lateral Masses Anatomy Text The superior articular facets are concave, reniform facets located on the superior surface of each lateral mass that face superiorly and medially. Each facet is narrowed in the middle (kidney-shaped) and occasionally completely divided into larger anterior and smaller posterior parts. They articulate with the occipital condyles at the atlanto-occipital joints (image) , thereby permitting flexion and extension of the head. As with the lateral masses themselves, the long axes of the facets converge anteriorly. Atlas (First Cervical Vertebra): Transverse Processes Anatomy Text The transverse processes of C1 (atlas) are longer than in other cervical vertebrae (except those of C7) and act as long levers. The broad flat apex represents the posterior tubercle of a typical cervical vertebra. Close to the lateral mass is the foramen transversarium that transmits the vertebral vessels (image) and associated sympathetic plexus. Several muscles attach to the transverse processes of C1. Obliquus capitis superior (animation) and rectus capitis lateralis attach superiorly to the transverse processes, with the latter displaying a more anterior site of attachment than the former. Laterally, obliquus capitis inferior (image) attaches to the apex, and scalenus medius, splenius cervicis and levator scapulae (antero-posteriorly) attach to the inferior surface ΙST/UH NMΣ2

9 Α2 - Άξονας Α2: Οδόντας μακριά ακανθώδη απόφυση εγκάρσιο τρήμα
Basics: The dens (odontoid process) is a conical projection that arises from the superior surface of the vertebral body of C2 The spinous process of C2 (axis) is a large, posteriorly orientated process associated with a broad inferiorly concave base and bifid apex The inferior articular facets of the axis are situated on its inferior articular processes. These facets are oval, slightly concave in shape and face antero-inferiorly for articulation with the superior articular facets of C3 at the facet joint. The superior articular facets of C2 (axis) are slightly convex in shape and project supero-laterally from the superior surface of the pedicles and the anterior part of the transverse processes. The superior articular facets are covered with hyaline cartilage and articulate with the inferior articular facets of C1 (atlas) at the lateral atlanto-axial joints, (image) which permit forward and backward gliding of the C1 lateral masses during rotation on C2. Laterally, the laminae of C2 (axis) are thick, strong and concave. They run postero-medially, thereby forming a connection between the pedicles and the spinous process. Axis (Second Cervical Vertebra): Articular Facet for Anterior Arch of Atlas Anatomy Text On the anterior aspect of the dens (odontoid process) lies an ovoid, vertically orientated facet. It is covered with hyaline cartilage and articulates with the facet on the posterior aspect of the anterior arch of C1 (atlas) at the median atlanto-axial joint. Axis (Second Cervical Vertebra): Bifid Spinous Process Anatomy Text The spinous process of C2 (axis) is a large, posteriorly orientated process associated with a broad inferiorly concave base and bifid apex. Obliquus capitis inferior attaches to the lateral surfaces anteriorly and rectus capitis posterior major (image) posteriorly. Multifidus (animation) , semispinalis cervicis and spinalis cervicis attach to the inferior concavity antero-posteriorly and interspinales attaches near the apex. The ligamentum nuchae attaches to the apical notch of the spinous process and the interspinous ligament attaches to the inferior margin, in the midline. Axis (Second Cervical Vertebra): Body Anatomy Text The body of C2 (axis) consists of partly fused centra of C1 (atlas) and C2 and a rudimentary intervertebral disc between. A deep depression on each side of the anterior surface gives attachment to longus colli. The inferiorly projecting anterior border gives attachment to the anterior longitudinal ligament (image) , whereas the flat or slightly concave posterior surface gives attachment to the posterior longitudinal ligament, the deep and superficial laminae of the tectorial membrane and the inferior band of the cruciform ligament (image) (from the lower border of the transverse band of the cruciform ligament - transverse ligament of atlas). The inferior surface has a thin covering of hyaline cartilage, the ‘end-plate’, to which the adjacent intervertebral disc is attached Axis (Second Cervical Vertebra): Dens (Syn. Odontoid Process) Anatomy Text Jump to Clinical Pathology Text The dens (odontoid process) is a conical projection that arises from the superior surface of the vertebral body of C2 (axis) (image) . It may be tilted posteriorly, anteriorly or laterally with respect to the vertebral body. The posterior surface is grooved for the transverse band of the cruciform ligament (transverse ligament of atlas), above which is the head. The anterior surface has an ovoid facet for articulation with the facet on the posterior aspect of the anterior arch of C1 (atlas). The apical ligament attaches to the pointed apex whereas the alar ligaments attach to ovoid flattenings on the postero-lateral aspect of the apex of the dens. At the junction of the body and vertebral arch are large ovoid flat or slightly convex superior articular facets for articulation with the inferior articular facets of C1 (atlas) at the atlanto-axial joint (image) . Axis (Second Cervical Vertebra): Inferior Articular Facets Anatomy Text The inferior articular facets of the axis are situated on its inferior articular processes. These facets are oval, slightly concave in shape and face antero-inferiorly for articulation with the superior articular facets of C3 at the zygapophyseal joint (image) . Axis (Second Cervical Vertebra): Laminae Anatomy Text Laterally, the laminae of C2 (axis) are thick, strong and concave. They run postero-medially, thereby forming a connection between the pedicles and the spinous process. Ligamentum flava pass from the superior and inferior borders to adjacent borders of C1 and C3, respectively. Axis (Second Cervical Vertebra): Superior Articular Facets for Inferior Facets of Atlas Anatomy Text Axis (Second Cervical Vertebra): Transverse Processes Anatomy Text The transverse processes of C2 (axis) (image) , which contain the foramen transversarium, are infero-lateral projections arising from the pedicle-laminar junction and lateral aspect of the interarticular area of the pedicle. The rounded apex is equivalent to the posterior tubercle of a typical cervical vertebrae. The muscles attaching to the transverse processes include scalenus medius, levator scapulae (animation) and splenius cervicis, which attach to the tip antero-posteriorly and the intertransversarii muscles, which attach to the superior and inferior surfaces. Α2: Οδόντας μακριά ακανθώδη απόφυση εγκάρσιο τρήμα άνω/κάτω αρθρικές αποφύσεις τόξο. ΙST/UH NMΣ2

10 Α7 Α7: Ο Α7 είναι μεγαλύτερος από τους προηγούμενους σπονδύλους και εμφανίζει χαρακτηριστικά παρόμοια με αυτά των θωρακικών σπονδύλων: Μεγαλύτερο σπονδυλικό σώμα Μικρότερο σπονδυλικό τρήμα Οι κάτω αρθρικές αποφύσεις έχουν μεγαλύτερή πρόσθια γωνίωση Οι άνω αρθρικές αποφύσεις έχουν μεγαλύτερη οπίσθια γωνίωση The seventh cervical vertebra (animation) (C7) is larger than the preceding cervical vertebrae and displays characteristics similar to those of the thoracic vertebrae; -Larger vertebral body -Smaller vertebral foramen -Pedicles directed more posteriorly rather than laterally -Inferior articular facets directed more anteriorly than inferiorly -Superior articular facets more posteriorly than superiorly C7 has a broad vertebral body and triangular vertebral foramen (image) . The vertebral foramen is bound by the vertebral body anteriorly, pedicles laterally and laminae postero-laterally. It contains the spinal cord (animation) surrounded by the meninges and associated vessels. The anterior surface of the vertebral body is convex and has a downward projecting lip to which the anterior longitudinal ligament (image) attaches. The posterior surface is concave and the superior surface is saddle-shaped with lateral elevations known as the uncinate processes which articulate with reciprocal articular facets located on the inferior (concave) surface of the vertebra above. These articulations are known as the ‘uncovertebral joints’ or ‘joints of Luschka’ The pedicles project postero-laterally and are notched on their superior and inferior surfaces by the superior and inferior vertebral notches, respectively; they contribute to the formation of the boundaries of the intervertebral foramina. The thin, curved laminae project postero-medially and have thinner superior and thicker inferior borders. The spinous process of C7 projects from the junction of the laminae. It is atypical in that it resembles a thoracic spinous process; it is long, non-bifid, and ends in a prominent tubercle, which is easily palpable (image) . The thick transverse processes end laterally in anterior and prominent posterior tubercles joined by a thin costotransverse bar. Within each transverse process is a small (and sometimes absent) foramen transversarium. Unlike the other cervical vertebrae the foramina transversaria of C7 do not transmit the vertebral artery, although they frequently transmit vertebral veins. At the junction of the pedicles and laminae project large superior and inferior articular processes, on which are the slightly convex superior and slightly concave inferior articular facets. The superior articular facets face postero-superiorly and the inferior articular facets face antero-inferiorly. The superior and inferior articular processes from C2 (inferior articular process) to C7 form the articular pillar of the cervical spine. It is palpable 2-3cm from the cervical spinous processes ΙST/UH NMΣ2

11 Facet ΙST/UH NMΣ2

12 Αυχενικές Ζυγαποφυσιακές Αρθρώσεις-Facet
Άρθρωση: Επίπεδη Γωνίωση περίπου 45 μοιρών σε σχέση με το οριζόντιο επίπεδο. Ανάντεις αρθρικές αποφύσεις προσανατολισμένες προς τα άνω και οπίσθια Κατάντεις αρθρικές αποφύσεις προσανατολισμένες προς τα κάτω και πρόσθια Facet orientation facilitates sagittal plane movements, meaning that rotation and lateral flexion are always a coupled movement. Joint capsule is lax, facilitating great amount of movements –Capsule partly formed by ligamentum flavum anteriorly and posteriorly capsule is thin. There is often a large triangular fat pad as the lower posterior portion of the joint which is enclosed by the insertions of deep multifidus. ΙST/UH NMΣ2

13 Αυχενικές Ζυγαποφυσιακές Αρθρώσεις-Facet
Χαλαρός αρθρικός θύλακας Nεύρωση: Μέσος κλάδος των ραχιαίων κλάδων των νωτιαίων νεύρων Λειτουργία: Ο προσανατολισμός των Facet διευκολύνει τις κινήσεις στο οβελιαίο επίπεδο Facet orientation facilitates sagittal plane movements, meaning that rotation and lateral flexion are always a coupled movement. Joint capsule is lax, facilitating great amount of movements –Capsule partly formed by ligamentum flavum anteriorly and posteriorly capsule is thin. There is often a large triangular fat pad as the lower posterior portion of the joint which is enclosed by the insertions of deep multifidus. ΙST/UH NMΣ2

14 Αναφερόμενος Πόνος από Facet (PIV)
Από την ενδοαρθρική έγχυση φυσιολογικού ορού ή τη διέγερση των νεύρων που την νευρώνουν Fukui et al (1996) Lord et al (1996) Picture from Dwyer et al (1990) Fukui determined the distribution of referred pain from the cervical facet joints by injecting the facet or electrical stimulation of the nerves that supply the facet joint. From these tests performed on 61 patients, the following patterns were found. These areas of referred pain are very similar to the distribution of pain experienced by patients with WAD. Lord et al injected the medial branch of the dorsal rami in patients with WAD. Authors found that 60% of the patients had evidence of facet joint injury Dwyer, A, Aprill, C, Bogduk, N (1990). ' Cervical zygapophyseal joint pain patterns. 1. A study  in normal volunteers', Spine, 15: 453. Fukui, S, Oheseto, K, Shitani, M et al (1996). ' Referred pain distribution of the cervical zygapophyseal joints and cervical dorsal rami', Pain, 68, Lord, S M et al (1996). 'Percutaneous radiofrequency neurotomy for chronic cervical zygapophyseal joint pain', New England Medical journal, 335, 23, ΙST/UH NMΣ2

15 Αναφερόμενος Πόνος από Facet (PIV)
Πατέντα πόνου παρόμοια με αυτά των ασθενών με Whiplash( WAD) Προφανώς ο πόνος σε τραυματισμούς «δίκην μαστιγίου» προέρχεται από τραυματισμό των facet. ΙST/UH NMΣ2

16 Μηνοειδής Ακρολοφία – Αρθρώσεις του Luschka
Άρθρωση: Η μηνοειδής ακρολοφία του κάτω σπονδύλου αρθρώνεται με τον ανώτερο σπόνδυλο. Οι αρθρώσεις αυτές λέγονται αρθρώσεις του Luschka’ λειτουργία: Ελαττώνει το μεσάρθριο διάστημα, αυξάνει την πλάγια σταθερότητα The anterior surface of the vertebral body is convex and has a downward projecting lip to which the ALL attaches. The posterior surface is concave and the superior surface is saddle-shaped with lateral elevations known as the uncinate processes which articulate with reciprocal articular facets located on the inferior (concave) surface of the vertebra above. These articulations are known as the ‘uncovertebral joints’ or ‘joints of Luschka’. Some debate as to whether these are true joints or fissures which develop in the lateral aspect of the disc. ΙST/UH NMΣ2

17 ΙST/UH NMΣ2

18 Αυχενικός σύνδεσμος ΙST/UH NMΣ2

19 Αυχενικοί Σύνδεσμοι Αυχενικός Σύνδεσμος:
Πυκνή τραπεζοειδής, τριγωνική μεμβράνη δύο πτυχών Ελαστική & ινώδης Εκφύεται από το έξω ινιακό όγκωμα και καταφύεται στην ακαθώδη απόφυση του Α7 Επίσης προσφύεται στο έσω χείλος των δισχιδών ακανθωδών αποφύσεων όλων των αυχενικών σπονδύλων Προσφέρει πρόσφυση για αυχενικούς μυς The ligamentum nuchae is a dense, bilaminar, triangular midline fibroelastic intermuscular septum. It extends from the external occipital protuberance to the spine of C7 and attaches to the median part of the external occipital crest, the posterior tubercle of C1 and the medial aspect of the cervical bifid spines. It provides attachment for cervical muscles and is distinct from the supraspinous and interspinous ligaments, although appears to largely replace this in cervical spine. ΙST/UH NMΣ2

20 Αυχενικοί Σύνδεσμοι Πρόσθιος επιμήκης: Οπίσθιος επιμήκης
Α1 - ιερό Οπίσθιος επιμήκης Α2 - Ι1 Ωχρός Σύνδεσμος Α1/2 έως Ο4/5 από τόξο σε τόξο Μεσεγκάρσιος Μεσακάνθιος Επακάνθιος Anterior Longitudinal Ligament Anatomy Text The anterior longitudinal ligament is a strong band supporting the anterior aspect of the vertebral column. It is narrower superiorly (image) (4-5mm) and broader inferiorly (image) (20-25mm). It extends from the anterior tubercle of C1 to the pelvic surface of the upper sacrum. It is between 1-2mm thick and consists of three dense layers of collagen fibers. The superficial layer extends over three or four vertebrae; the intermediate layer over two or three and the deep layer consists of laterally short fibers connecting adjacent vertebrae. The fibers are strongly attached to the intervertebral margins, but loosely to the bodies. Superiorly, the ligament is continuous with the anterior atlanto-occipital membrane. Posterior Longitudinal Ligament Anatomy Text The posterior longitudinal ligament is a strong band supporting the posterior aspect of the vertebral column. It is wider superiorly (10-15mm) and narrower and denticulate inferiorly (6-8mm over the bodies; 10-15mm over the discs). It extends from the posterior surface of the body of C2 to the posterior surface of S1. It is 1-1.4mm thick and consists of two dense layers of collagen fibers. The superficial fibers extend over three or four vertebrae and the deeper ones pass between adjacent vertebrae. The fibers attach to the intervertebral discs and the adjacent margins of the vertebral bodies. Between attachments they are separated from the bodies by basivertebral veins and their communications with the anterior internal vertebral venous plexus. Superiorly, the ligament is continuous with the tectorial membrane. Ligamentum Flava Anatomy Text The ligamentum flava connects the laminae of adjacent vertebrae. The first arises at C1/C2 and the last at the level of L4/L5 (L5/S1 in a lumbarized sacrum). They pass postero-inferiorly from the anterior aspect of the inferior border of the laminae above to the posterior aspect of the superior border of the laminae below. Laterally, the ligaments extend as far as the zygapophyseal joint capsules. Medially, their borders meet at the root of the spinous process and may be partially fused leaving gaps for the passage of veins connecting the internal and posterior external vertebral venous plexus. The predominant tissue is yellow elastic tissue to permit and control spinal flexion and prevent abrupt limitation, they also aid the return to the erect posture and prevent redundant folds projecting into the vertebral foramen. The ligaments are broad, thin and long in the cervical region, becoming thicker as they descend the vertebral column. Intertransverse ligt are, generally, insignificant bands connecting adjacent transverse processes. In the cervical region, they consist of irregular fibers largely replaced by intertransversarii muscles. In the thoracic region, they intimately blend with adjacent muscles and in the lumbar region they are thin and membranous. ΙST/UH NMΣ2

21 Κάμψη-έκταση Κατά την κάμψη ο ανώτερος σπόνδυλος ολισθαίνει προς τα πρόσθια σε σχέση με τον κάτω. Οι κατάντεις του άνω σπονδύλου κινούνται προς τα άνω και πρόσθια. Στην έκταση συμβαινει το αντίθετο. Κάμψη= 45°-50° Έκταση= 75°-80° Flexion & extension = 110 (25 degrees flexion) During flexion the upper vertebral body tilts and slides anteriorly on the lower compressing the intervertebral space anteriorly. The inferior facet of the upper vertebrae moves upwards and forwards causing a widening of the joint space posteriorly. Flexion is limits by tension in the PLL, facet joints, ligt flava, nuchae and posterior muscles. In extension the opposite occurs . Limited by tension in the ALL and bony impaction. ΙST/UH NMΣ2

22 Κάμψη/Έκταση Η κάμψη περιορίζεται από: Η έκταση περιορίζεται από:
Οπίσθιο επιμήκη συνδ. Facet Ωχρό σύνδεσμο Αυχενικό σύνδεσμο Οπίσθιους μύες Η έκταση περιορίζεται από: Πρόσθιο επιμήκη Οστική επαφή Flexion & extension = 110 (25 degrees flexion) During flexion the upper vertebral body tilts and slides anteriorly on the lower compressing the intervertebral space anteriorly. The inferior facet of the upper vertebrae moves upwards and forwards causing a widening of the joint space posteriorly. Flexion is limits by tension in the PLL, facet joints, ligt flava, nuchae and posterior muscles. In extension the opposite occurs . Limited by tension in the ALL and bony impaction. ΙST/UH NMΣ2

23 Συζευγμένες Κινήσεις Γιατί άραγε? Κινήσεις που γίνονται μαζί
Οι πλάγιες κάμψεις της ΣΣ συνοδεύονται πάντα από στροφή στην ίδια κατεύθυνση και το αντίθετο. Γιατί άραγε? Coupled motions are defined as motions that are not in the principal direction of the applied load; they are inherently coupled to the principal motion. For example, loading that produces left lateral bending can also produce axial rotation and flexion. The axial rotation and flexion are coupled to the lateral bending and in the healthy spine these motions cannot be separated. Lateral flexion : 40 degrees to each side. When the neck is side flexed the lower articular processes on that side glides downwards and backwards on the superior process of the vertebra below, on the other side each articular process moves forwards and upwards. Thus side flexion and rotation occur to the same side. Rotation: 50 degrees in each direction. In rotation, the IVF increases on the opposite side.. Limited by tension in the facet joints. ΙST/UH NMΣ2

24 Πλάγια Κάμψη (κατώτερη ΑΜΣΣ)
40° σε κάθε πλευρά. Κατά την πλάγια κάμψη, το κάτω facet της ίδιας πλευρά κινείται πίσω και κάτω Στην αντίθετη πλευρά το κάθε αρθρική απόφυση κινείται πρόσθια και προς τα άνω. Αυτό προκαλεί στροφή προς την ίδια πλευρά Τα ίδια ισχύουν και για την πλάγια κάμψη. Lateral flexion : 40 degrees to each side. When the neck is side flexed the lower articular processes on that side glides downwards and backwards on the superior process of the vertebra below, on the other side each articular process moves forwards and upwards. Thus side flexion and rotation occur to the same side. ΙST/UH NMΣ2

25 Στροφή (κατώτερη ΑΜΣΣ)
Στροφή: Περίπου 70-80° σε κάθε κατεύθυνση. Τα μεσοσπονδύλια τρήματα αυξάνονται στην αντίθετη πλευρά Το ίδιο ισχύει και στην πλάγια κάμψη Περιορίζεται από την τάση των facet. ΙST/UH NMΣ2

26 Αυχενικός και Οσφυϊκός Δίσκος
Distinctly different to the lumbar disc. Not surprising considering the form and function of the disc in the cervical spine. Axial rotation is a major function of the cervical spine whereas load bearing is more important in the lumbar. Nucleus pupolsis constitutes 25% of cervical spine disc (in lumbar its 50%0. Less volume in CSP. NP much more fibro cartilaginous than gelationous in CSP. From 30 years old the NP becomes dehydrated. Some studies suggest that by the age of 40 it is impossible to herniate the CSP disc. Higher levels of collagen to resist tensile forces. Clefts appear in the lateral aspect of the disc with age and maybe early signs of pathological degeneration or signs of the shearing which occurs at this level. The clefts appear from the ages of 9-14 and coincide with the uncinate processes reaching their maximum height. However the more deeply penetrating transverse fissures which transect the disc may be the result of degenerative changes. Annulus Fibrosis: Significantly different orientation of the lamellae than the lumbar disc. – alar fibres and vertically orientated fibres ΙST/UH NMΣ2

27 Αυχενικός και Οσφυϊκός Δίσκος
Οσφυϊκός δίσκος Κύρια λειτουργία η απορρόφηση των φορτίων Μεγαλύτερη ποσότητα ζελατινώδους ουσίας Εκφυλίζεται μετά τα 30 Μεγαλύτερος Μεγαλύτερη ποσότητα κολλαγόνου για τα φορτία Αυχενικός δίσκος Κύρια λειτουργία η στροφή Μεγαλύτερη ποσότητα ινοχόνδρινου ιστού Εκφυλίζεται μετά τα 40 Μικρότερος ΙST/UH NMΣ2

28 Αναφερόμενος Πόνος Δισκογενούς Προέλευσης
Cloward ΙST/UH NMΣ2

29 Σύνδεσμοι Ανώτερης Αυχενικής Μοίρας
Πτερυγοειδείς Σύνδεσμοι Είναι παχιές ταινίες παράλληλα προσανατολισμένων κολλαγόνων ινών που εκτείνονται από το οδόντα του άξονα στους ινιακούς κονδύλους. Περιορίζει την αντίθετη πλάγια κάμψη Alar Ligaments Anatomy Text The alar ligaments are thick cords of parallel collagen fibers extending horizontally and laterally from ovoid regions on the postero-lateral aspect of the apex of the dens to roughened areas on the medial sides of the occipital condyles. Most individuals also have an antero-inferior band, which attaches to the lateral mass of C1 anterior to the transverse atlantal ligament, with occasionally a few fibers passing from the dens to the anterior arch of C1. The ligaments limit atlanto-axial rotation, however slight upward movement of the axis during rotation helps permit a wider range of movement by reducing tension in the ligaments. ΙST/UH NMΣ2

30 Σύνδεσμοι Ανώτερης Αυχενικής Μοίρας
Κορυφαίος Σύνδεσμος Είναι μια λεπτή ταινία που εκτείνεται από την κορυφή του οδόντα στο πρόσθιο χείλος του ινιακού τρήματος ανάμεσα από του πτερυγοειδείς συνδέσμους. Εμποδίζει την απομάκρυνση Α0- Α1 Apical Ligament of the Dens Anatomy Text The apical ligament of the dens is a slender band, fanning out from the apex of the dens to the anterior margin of the foramen magnum between the alar ligaments. It is positioned with the anterior atlanto-occipital membrane anteriorly and the superior band of the cruciform ligament posteriorly, and is separated from both by pads of fatty tissue, but blends with their attachments at the foramen magnum. It is said to represent the cranial continuation of the notochord and its sheath. ΙST/UH NMΣ2

31 Εγκάρσιος σύνδεσμος Ισχυρή δεσμίδα
Προσφύεται μεταξύ των 2 πλάγιων ογκωμάτων του άτλαντα Συγκρατεί τον οδόντα στο οστικό δαχτυλίδι του άτλαντα Η ακεραιότητα του είναι ζωτικής σημασίας Περιορίζει τη κάμψη και τη πρόσθια μετατόπιση του άτλαντα ΙST/UH NMΣ2

32 Εγκάρσιος σύνδεσμος ΙST/UH NMΣ2

33 Κινήσεις Στην Ανώτερη Μοίρα
Α0-Α1: κάμψη/έκταση (20°), πλάγια κάμψη (8°), στροφή (λίγες μοίρες) Α1-Α2: κυρίως στροφή (45°), κάμψη/έκταση (λίγες μοίρες) The occipito–atlantal joint has a ball–and–socket shape that permits flexion–extension and lateral bending. By contrast, the atlanto–axial joint (C1–C2) facilitates axial rotation (around the axis of the odontoid process) by translation (sliding) of the convex joint surfaces. Meniscoid synovial folds project into the C1–C2 joint space anteriorly and posteriorly. The spaces above and below the arch of the atlas are occupied by wide venous sinuses. Between the occiput and C1 the vertebral artery (red) and the small C1 nerve behind the artery are completely surrounded by the venous sinusoid, between the C1 lamina and the pars interarticularis of C2 a venous cavern surrounds the large C2 root ganglion (yellow). C0-1: Allows flexion and extension, lateral flexion and rotation Flexion & extension = 20 degrees., movement bought about by the occipital condyles sliding on the lateral masses of the atlas. During flexion the occipital condyles move backwards on the lateral masses and there is gapping poteriroly.,Limited by tension in the ligt nuchae, posterior capsule and posterior membrane. In extension = vice versa and limited by impact of bone. Lateral flexion: 8 degrees either side. Slipping of occipital condyles so that on the side of flexion it moves toward the midline. Limited by the contralateral alar ligament and tension in the joint capsule. Rotation: Few degrees C1-2; Mainly rotation with a few degrees of flexion and extension. Head and C1 move as a unit = 15 degrees each side.. Anterior arch and transverse ligt pivot around the dens, the lateral masses of the atlas glide over the articular surface of the axis., one forward and one backward.. Flexion & extension: Few degrees only. The lateral mass of the atlas rolls and slides on the superior articular facet of the axis. ΙST/UH NMΣ2

34 Α0-Α1 Κάμψη/έκταση = 20° Πλάγια κάμψη= 8°-10°
στροφή = λίγες μόνον μοίρες C0-1: Allows flexion and extension, lateral flexion and rotation Flexion & extension = 20 degrees., movement bought about by the occipital condyles sliding on the lateral masses of the atlas. During flexion the occipital condyles move backward son the lateral masses and there is gapping posteriorly. Limited by tension into ligt nuchae, posterior capsule and posterior membrane. In extension = vice versa and limited by impact of bone. Lateral flexion: 8 degrees either side. Slipping of occipital condyles so that on the side of flexion it moves toward the midline. Limited by the contralateral alar ligament and tension in the joint capsule. Rotation: Few degrees only – minimal ΙST/UH NMΣ2

35 Α1-Α2 Κυρίως στροφή Κεφαλή και Α1 κινούνται ως μια μονάδα = 45° σε κάθε πλευρά C1-2; Mainly rotation with a few degrees of flexion and extension. Rotation: Head and C1 move as a unit = 45 degrees each side.. Anterior arch and transverse ligt pivot around the dens, the lateral masses of the atlas glide over the articular surface of the axis., one forward and one backward. Flexion & extension: Few degrees only. The lateral mass of the atlas rolls and slides on the superior articular facet of the axis. ΙST/UH NMΣ2

36 Ανώτερη Μοίρα Ποιοι σύνδεσμοι βοηθούν τον έλεγχο κινήσεων στην άνω αυχενική; ΙST/UH NMΣ2

37 Σπονδυλικές Αρτηρίες Branches from the subclavian artery at the level of T1 Ascends between Longus Colli & scalenus anterior Passes through the foramen of C6 with a branch from the inferior sympathetic ganglion and vertebral venous plexus Ascends vertically through foramina transversaria of C5 to C2 From the foramen transversarium of C2 (axis) the VA passes laterally to enter the foramen transversarium of C1 (atlas). Each vertebral artery then lies in the groove on the superior surface of the posterior arch of C1 and enters the vertebral canal below the inferior border of the posterior atlanto-occipital membrane. The vertebral artery subsequently pierces the dura and arachnoid mater, ascends into the skull through the foramen magnum. ΙST/UH NMΣ2

38 Quiz Πως αλλιώς λέγεται ο Α1; Πως αλλιώς λέγεται ο Α2; ΙST/UH NMΣ2

39 Quiz Πως λέγονται οι αρθρώσεις που σχηματίζονται από την μηνοειδή ακρολοφία και το σώμα του ανώτερου σπονδύλου; ΙST/UH NMΣ2

40 Quiz Ποιο το εύρος τροχιάς από κάμψη σε έκταση; ΙST/UH NMΣ2

41 Quiz Ποια συζευγμένη κίνηση γίνεται κατά την αριστερή στροφή της ΑΜΣΣ;
Ποια συζευγμένη κίνηση γίνεται κατά την αριστερή στροφή της ΑΜΣΣ; ΙST/UH NMΣ2

42 Quiz Ποίος είναι αυτός ο σύνδεσμoς; ΙST/UH NMΣ2