Anatomy of the back: spine and back muscles (2024)

Vertebral column

The vertebral column is formed by a series of vertically aligned vertebrae. Vertebral alignment produces 4 curvatures of the vertebral column; cervical lordosis, thoracic kyphosis, lumbar lordosis and sacral kyphosis. Lordoses are concave posteriorly, while kyphoses are concave anteriorly. Located centrally within the vertebral column is the vertebral foramen (spinal canal), through which the spinal cord passes.

Vertebra

Vertebrae are the structural constituents of the spine. There are 33 vertebrae in total; seven cervical vertebrae in the neck, twelve thoracic vertebrae in the torso and five lumbar vertebrae in the lower back. Five sacral and 3-5 coccygeal vertebrae are fused into the sacrum and coccyx bones, respectively.

Each typical vertebra consists of a body, an arch and three processes that stem from the arch (spinous, transverse and articular). The vertebral body is the main weight bearing structure of the spine, while the arch and processes provide numerous muscle and ligament attachment points. The arch is connected to the body by bony pedicles, together these structures bound the vertebral foramen. The superior and inferior margins of each pedicle are convex toward its midline, forming superior and inferior vertebral notches. Notches of adjacent vertebrae bound the intervertebral foramen, providing an outlet for the spinal nerves and vessels.

Although having the same parts, the vertebral groups are distinct from each other in terms of their appearance. This is all related to their function. For example, cervical vertebrae have the widest vertebral foramen and the smallest bodies, while lumbar vertebrae have the largest bodies and a very narrow vertebral canal. This is because the lumbar vertebrae bear much more weight than the cervical. Vertebrae also differ in the appearance of their processes and other anatomical features.

Try out our special, customizable, quiz to test your knowledge about the bones of the spine!

Vertebral joints

Adjacent vertebrae are connected by two intervertebral joints:

• Intervertebral discs - fibrocartilaginous joints (symphysis) interposed between the vertebral bodies.
• Zygapophyseal joints - (z joints or facet joints) formed by the superior and inferior articular processes of adjacent vertebrae.

The column joins with the skull superiorly at the two craniovertebral joints; atlantooccipital and atlantoaxial joints. The former isbetween the occipital bone and atlas (C1 vertebra), while the latter is between the atlas and axis(C1 and C2 vertebrae). Inferiorly, the vertebral column articulates with the pelvis at sacroiliac joints.

Costovertebral joints anchor the ribs to the thoracic cage through articulations between each rib and its adjacent thoracic vertebrae. The joint of head of rib (costocorporeal joint) is the articulation between the rib head and vertebral body. This articulation is present at all thoracic levels (T1-T12) however, at T2-T9 levels the rib articulates with 2 adjacent vertebral bodies and the intervening disc while at T1, T10-T12 levels the articulation is with a single vertebra. Costotransverse joints is the articulation between the rib neck and tubercle with the adjacent vertebral transverse process. This joint is present only at T1-T10 levels.

Muscles of the back act upon these joints producing the movements of the spine. The movements of the spine are flexion, extension, lateral flexion (sidebending) and rotation.Ligaments of the vertebral column support its joints and stabilize them during spinal movements. The anterior and posterior longitudinal ligaments (ALL, PLL) extend along the entire length of the spine, primarily supporting the intervertebral joints. Accessory ligaments also support the spine, these are the ligamenta flava, interspinous, supraspinous, nuchal and intertransverse ligaments. Other specialised ligaments are involved in supporting the atlantooccipital and atlantoaxial joints.

Jump right into a quiz about these costovertebral joints, multiple difficulty levels included!

To learn more about the spine anatomy, function and distinctive anatomy of each group of vertebrae, check out our study materials.

Superficial back muscles

The superficial back muscles include thetrapezius, latissimus dorsi, levator scapulae, rhomboids and serratus posterior muscles.

Let us introduce you to each of these muscles presented in our diagram.

Trapezius

The trapezius muscle consists of three parts; descending, transverse and ascending. By attaching between the occipital bone, scapula, vertebrae and clavicle, this muscle bounds the nuchal region. Trapezius is supplied by the accessory spinal nerve (CN XI) and anterior rami of C3-C4 via cervical plexus. It moves the scapula and causes extension, lateral flexion and rotation of the head and neck.

Latissimus dorsi

The latissimus dorsi is also multipartial, having vertebral, iliac, costal, scapular and humeral parts. It is innervated by the thoracodorsal nerve. Its functions are internal rotation, adduction and extension of the arm, it also assists respiration.

Levator scapulae

Levator scapulae extends from C1-C4 vertebrae to the medial border of scapula. It is innervated by the anterior rami of spinal nerves C3-C4 and dorsal scapular nerve. This muscle draws the scapula superomedially, rotates the glenoid fossa of the shoulder joint inferiorly and flexes the neck ipsilaterally.

Rhomboids

The rhomboids include rhomboid major and rhomboid minor. The former spans between the T2-T5 vertebrae and medial border of scapula. The latter attaches from the nuchal ligament and C7-T1 vertebrae to the root of the spine of scapula. They are supplied by the dorsal scapular nerve. Both muscles act upon the scapulothoracic joint where they draw the scapula superomedially, rotate the glenoid cavity inferiorly and support the position of scapula.

Serratus posterior

Serratus posterior consists of two muscles that assist respiration; serratus posterior superior and serratus posterior inferior. The former attaches between the nuchal ligament, vertebrae C7-T3 and ribs 2-4. Its function is to elevate the ribs. The latter spans from vertebrae T11-L2 and ribs 9-12. It acts to depress the ribs. Both muscles are supplied by anterior rami of spinal nerves T9-T12 (a.k.a. Intercostal nerves 9-11 and subcostal nerve).

Deep back muscles

The deep back muscles are divided into three layers; superficial, intermediate and deep.

The superficial layer contains the splenius cervicis and splenius capitis muscles. They extend and rotate the head and neck. The intermediate layer contains the erector spinae muscles, whose many functions include the extension and lateral flexion of the spine, head and neck. The deep layer consists of the transversospinalis muscles. Their functions include extension, lateral flexion and rotation of the head and spine. All intrinsic muscles are supplied by the posterior rami of spinal nerves.

Now, you’ve probably heard that each of these muscles have their own parts. This is often confusing for anatomy students, so we’ll make a simple table just to get you going before you start reading about them further.

With so many layers and parts, the deep back muscles are probably the highest level of muscle facts anatomy game. We’ve created these muscle anatomy reference charts to make your muscle study session easier.

To spare you from hours of memorization, we’ve made some pretty cool video tutorials, articles and quizzes about muscles of the back.

Arteries and veins

The back is supplied by the posterior branches of the vertebral, ascending cervical, deep cervical, occipital, intercostal, subcostal, lumbar and lateral sacral arteries. A venous network of longitudinal channels form the veins of the spine, called basivertebral and intervertebral veins. These empty into two major networks; internal and external vertebral venous plexuses, and ultimately drain into the vertebral and segmental veins. Occipital, deep cervical, intercostal, subcostal and lumbar veins drain the skin and back muscles into the vertebral veins, azygos venous system and inferior vena cava.

Nerves

Posterior rami of spinal nerves supplyinnervation to the skin, spine and intrinsic muscles of the back.Supply to the skin of the back follows the standard segmental dermatome pattern, while intrinsic muscles are innervated by adjacent posterior rami of the spinal nerves. Extrinsic muscles are supplied by branches of the cervical and brachial plexus (latissimus dorsi, levator scapulae, rhomboids), by spinal accessory nerve (trapezius) or by the intercostal and subcostal nerves (serratus posterior muscles).Spinal nerves from cervical, thoracic, lumbar and sacral regions of the spinal cord form four plexuses of the peripheral nervous system after exiting the vertebral column. These are cervical (C1-C4), brachial (C5-T1), lumbar (L1-L4) and sacral (L4-S4) plexuses.

Solidify your knowledge on the neurovasculature of the back with the following study unit and custom quiz!