1. BIOLOGY OF THE HUMAN DENTITION Temporomandibular Joint -TMJ

2. Ligaments: There are three ligaments associated with the TMJ:one major and two minor ligaments. The major ligament, the temporomandibular ligament, or lateral ligament, is really the thickenest lateral portion of the capsule. Some authors mention the temporomandibular ligament as an anterior thickening of the capsule, not a separate ligament. Anatomy of TMJ

3. lateral ligament capsule

4. The minor ligaments, ‾ the stylomandibular ligament, This ligament runs from the styloid process to the angle of the mandible. Anatomy of TMJ stylomandibular ligament

5. Anatomy of TMJ ‾ the sphenomandibular ligament. It arises from the angular spine of the sphenoid bone and ends broadly at the lingula of the mandible. sphenomandibular ligament

6. Both minor ligaments are accessory and are not directly attached to any part of the joint. They may stabilize the articular system during jaw movements. These ligaments are important for defining the border movements, or in other words, the farthest extents of movements, of the mandible. Anatomy of TMJ

7. However, movements of the mandible made past the extents functionally allowed by the muscular attachments will result in painful stimuli. Anatomy of TMJ

9. Muscles: The mandible is moved primary by the four muscles of mastication: ‾ the masseter, ‾ the medial pterygoid, ‾ the temporalis and ‾ the lateral pterygoid. Anatomy of TMJ

10. Masseter muscle Lateral pterygoid muscle Medial pterygoid muscle

11. Anatomy of TMJ Masseter muscle Lateral pterygoid muscle Temporalis muscle

12. These four muscles, all innervated by the mandibular division of the trigeminal nerve, work in different groups to move the mandible in different directions. Anatomy of TMJ

13. Origin: temporal fossa & temporal fascia Insertion: coronoid process & anterior of ramus Function: Elavation and positioning of the mandible Temporalis muscle

14. Origin: zygomatic arch Insertion: lateral surface of ramus, coronoid process & angle of mandible Function: power with vertical elevation of the mandible; deep portion stabilizes the condyle in protrusive closure Masseter muscle

15. Function of the inferior portion: protrusion, lateral movement and contributes to opening Function of the superior portion: active with themuscles of closure, especially aiding stabilization of the condyle during the power stroke. lateral pterygoid muscle

16. Function: elevation of the mandible, protrusion of the mandible and lateral movement of the mandible with unilateral activation Medial pterygoid muscle

17. Contraction of the lateral pterygoid acts to pull the disc and condyle forward within the glenoid fossa and down the articular eminence; thus, action of this muscle serves to open the mouth. Anatomy of TMJ

18. The TMJ is an example of diarthrosis, and its movements are a combination of: a hinge action and a gliding action. Motion of TMJ

19. The lower joint compartment formed by the mandible and the articular disk is involved in rotational/hinge movement (opening and closing movements). For the first 15° to 18° of motion, the condyle moves without disk movement. The condyle simply rotates in the capsule; a purely hinge motion. Motion of TMJ

20. With a motion past 18°, the disk and condyle begin moving forward and down the articular eminence of the temporal bone. The condyle is now rotating and gliding down the articular eminence; a hinge and gliding joint. The upper joint compartment formed by the articular disk and the temporal bone is involved in this translational movements. Motion of TMJ

21. At maximum opening, the condyle and disk are positioned inferior to their original position, the condyle has rotated such that the posterior portion of the head is now articulating with the temporal bone, and the medial and lateral pole attachments of the disk have dragged it down with the condyle while the retrodiscal lamina fibers have stopped the disk from moving further over the condyle. Motion of TMJ

22. Thank you very much