Multifidus and Rotatores Deep Back Muscle Groups

The multifidus and rotatores are two back muscles that belong to a group known as the deep layer of the intrinsic back muscles.

Rear View Of Female Athlete Exercising Battle Rope In Gym
Jordan Beal / EyeEm / Getty Images

The back has a (potentially confusing) number of groups, including an overall extrinsic layer that mainly moves the upper extremity and helps with breathing, plus an overall intrinsic layer, tasked with moving the spine itself. Inside each of these main layer divisions are more layers and/or muscle groups.

The superficial layer contains muscles with which you may be familiar like your lats, rhomboids or paraspinals (just to name a few). But when we get into the intrinsics, and especially the deep layer of the intrinsics, we may be talking about muscles you haven't heard of before. Let’s unpack.

The Deep Intrinsic Layer Muscles

The deep intrinsic layer belongs, as the name suggests, to the overall intrinsic layer. (The other intrinsic layers are the superficial and intermediate.) Also as the name suggests, the muscles in the deep intrinsic layer are the ones located most closely to the spine, when you compare them to the other back muscles.

Four muscles comprise the deep layer of the intrinsic back muscles. From superficial to deep: the semispinalis, the multifidus, the rotatores and the interpinalis and intertransversii. The multifidus and rotatores have special functions and jobs as we'll outline below.

Multifidus Muscles

The multifidus muscle is comprised of repeated bundles of short muscles that span one to five vertebral levels each, and shaped like triangles. These triangles are located on either side of the spine, attaching on the transverse and spinous processes.

The multifidus is divided into parts that correspond with the main regions of your spine. These would be cervical (neck), thoracic (mid and upper back), lumbar (lower back), and sacral (sacrum bone). The muscle attaches onto all spinal vertebrae except the atlas, which is the first (and topmost) bone in your neck.

The job of the multifidus is to extend your spine (think about arching). It also contributes to rotation (twisting) of the spine away from the side of the body on which they are located. And finally, the multifidus contributes to side bending, which is called lateral flexion.

The multifidus, like the rotatores and other deep back muscles, play a role in upright posture and spinal stability. According to Diane Lee, a physiotherapist based in Canada, the multifidus works in concert with your transverse abdominus (TA), the deepest ab muscle in the body, and pelvic floor muscles (PFM) to stabilize your lumbar area—even before you add movement. Because of this subtle but important function of the multifidus, using imagery while lying in a supine position can help recruit the multifidus and help coordinate its action with the TA and PFM.

Lee notes that when there’s low back pain, there tends to be a delayed reaction on the part of the multifidus, or it does not activate at all. And unless you do something to correct this, she adds, the physical dysfunction created by a sluggish or non-contributing multifidus will remain even after your pain goes away.

The multifidus also plays a role in sacroiliac joint stability, especially when you make big movements of the lower body such as climbing stairs, running, leg exercises, and more.

Rotatores Muscles

Just below the multifidus lies the rotatores. Like the multifidus, the rotatores are small muscles located on either side of the spine. They are shaped like a quadrilateral and attach on the transverse process of the vertebrae.

But unlike the multifidus, whose other attachment site is the spinous process, the rotatores originate at the transverse process and insert on the spinous process at one or two vertebral levels higher.

Rotatore Action

The entire intrinsic layer of the back, including the rotatores (and, as discussed above, the multifidus), produces spinal extension, and assists with lateral flexion (side bending) and rotation (twisting).

As a part of the team, the rotatores may contribute to these actions, but as you will see next, they also have a couple of other functions that distinguish them from their co-contractors.

First, the unique function of the rotatores is not well known. While they are grouped with all the other spinal extensor muscles (discussed above), because of their small size, they are at a mechanical disadvantage when it comes to actually producing any meaningful spinal motion. Instead, it is thought that the rotatores play a role in stiffening or stabilizing the spine.

Along with their likely contribution to spinal stabilization, the rotatores also serve as a sort of motion monitor, providing feedback about the precise location of the spinal bones they affect. A 1986 study published in the journal American Surgery found many more muscle spindles (nerve endings that sense your position, muscle tension and similar things) in the short rotatores (called rotatore brevis) than in the other spinal muscles. Because of this, the authors postulate that the role the rotatores likely play is more about your ability to sense the position of your low back and the degree of muscle tension or flexibility (called proprioception) than it is about actually moving that part of your spine.

Frequently Asked Questions

Can back pain be caused by problems with the multifidus and rotatores muscles?

Yes, these small muscles along the spine control flexibility and posture. Research has found that the multifidus and rotatores muscles may be atrophied in people with lower back pain. This can lead to pain for those in poor physical condition and even elite athletes who don’t develop the muscles.

How can I strengthen the multifidus muscles?

Lumbar-stabilizing exercises can strengthen the deep intrinsic muscles of the spine. Working these muscles has been shown to improve lower back pain. Swimming, dancing, and Pilates may also help target the multifidi and rotatores.

2 Sources
Verywell Health uses only high-quality sources, including peer-reviewed studies, to support the facts within our articles. Read our editorial process to learn more about how we fact-check and keep our content accurate, reliable, and trustworthy.
  1. Fortin M, Macedo LG. Multifidus and paraspinal muscle group cross-sectional areas of patients with low back pain and control patients: a systematic review with a focus on blinding. Phys Ther. 2013;93(7):873-888. doi: 10.2522%2Fptj.20120457

  2. Woodham M, Woodham A, Skeate JG, Freeman M. Long-term lumbar multifidus muscle atrophy changes documented with magnetic resonance imaging: a case seriesJ Radiol Case Rep. 2014;8(5):27-34. doi: 10.3941%2Fjrcr.v8i5.1401

Additional Reading
  • Diane Lee & Associates. Training for the deep muscles of the core. Diane Lee & Associates website.

  • Kendall, F., McCreary, E. Provance, P. Muscles: Testing and Function. 4th edition. Williams & Wilkins. Baltimore, MD. 1993.

  • MacDonald. David A., Moseley, G. Lorimer, Hodgesa, Paul, W. The lumbar multifidus: Does the evidence support clinical beliefs? Review. Manual Therapy. 2006.

  • Moore, K., Dalley, A. Clinically Oriented Anatomy. Fifth. Edition. Lippincott, Williams & Wilkins. 2006. Baltimore. Philadelphia, PA.

  • Nitz AJ, Peck D. Comparison of muscle spindle concentrations in large and small human epaxial muscles acting in parallel combinations. Am Surg. May 1986.

By Anne Asher, CPT
Anne Asher, ACE-certified personal trainer, health coach, and orthopedic exercise specialist, is a back and neck pain expert.