Between atlas and axis
aphiarthrosis
An example of an amphiarthrosis joint is the intervertebral joints between the vertebrae in the spine. These joints allow for limited movement and are stabilized by intervertebral discs.
Bending the trunk forward at the intervertebral discs is an example of flexion, which is a movement that decreases the angle between body parts at a joint.
Gomphosis is a type of joint that connects teeth to the jawbone, not between vertebrae like L2 and L3. The joint between L2 and L3 is called an intervertebral joint or a symphysis joint, where the fibrocartilaginous disc sits between the two vertebrae.
A joint of the backbone, not including the intervertebral discs, is called a facet joint. These joints are located at the back of the spinal column and help to connect the vertebrae together, providing stability and allowing for movement.
Fibrocartilage is found in structures that require both strength and flexibility, such as the intervertebral discs in the spine, the knee joint meniscus, and the attachment sites of tendons and ligaments to bone.
Intervertebral discs are classified as fibrocartilaginous joints, specifically as symphysis joints due to the presence of a fibrocartilaginous disc between the vertebral bodies. The symphysis pubis is classified as a secondary cartilaginous joint, also known as a symphysis joint, due to the presence of fibrocartilage between the pubic bones.
The joint type that includes the joints between the vertebral bodies is a cartilaginous joint called an intervertebral disc joint. The joint type that includes the joints forming the pubic symphysis is a cartilaginous joint called a symphysis joint.
The joints between the vertebrae of the backbone are called intervertebral joints. These joints are formed by the articulation of the vertebral bodies and the intervertebral discs, which help provide stability, flexibility, and cushioning to the spine.
The neck is indeed a gliding joint. This is because it does not have to move in rigid movements in any particular direction.
yes. the atlas and axis, or C1 and C2, do not have an intervertebral disc, nor an intervertebral foramen, between them. C1 looks like an oval. it has two lateral masses (no vertebral body) where it makes contact with the occiput and C2. the inferior articular facets of the C1 and the superior articular facets of C2 form 2 joints, one on each side. there is also a third joint formed by the dens, or odontoid process, of C2 and the interior of the anterior arch of C1. this is the joint you use to shake your head "no".
An intervertebral disk in which the nucleus pulposus has protruded through surrounding fibrocartilage. This occurs most frequently in the lower lumbar region. Alternative terms: Intervertebral Disk Displacement; Disk Displacement, Intervertebral; Disk Displacements, Intervertebral; Displacement, Intervertebral Disk; Displacements, Intervertebral Disk; Intervertebral Disk Displacements; Intervertebral Disc Displacement; Disc Displacement, Intervertebral; Disc Displacements, Intervertebral; Displacement, Intervertebral Disc; Displacements, Intervertebral Disc; Intervertebral Disc Displacements; Disk, Herniated; Disks, Herniated; Herniated Disk; Herniated Disks; Slipped Disk; Disk, Slipped; Disks, Slipped; Slipped Disks; Disk Prolapse; Disk Prolapses; Prolapse, Disk; Prolapses, Disk; Prolapsed Disk; Disk, Prolapsed; Disks, Prolapsed; Prolapsed Disks; Herniated Disc; Disc, Herniated; Discs, Herniated; Herniated Discs; Lumbar is referring to the lower back L1-L5