Tibialis anterior muscle

Tibialis anterior muscle
Tibialis anterior muscle
	Tibialis anterior
	Animation
Details
Pronunciation	/ˌtɪbiˈeɪlɪs/ or /ˌtɪbiˈælɪs/
Origin	From the upper 1/2 or 2/3 of the lateral surface of the tibia and the adjacent interosseous membrane
Insertion	Medial cuneiform and the base of first metatarsal bone of the foot
Artery	Anterior tibial artery
Nerve	Deep fibular (peroneal) nerve (L5)
Actions	Dorsiflexion and inversion of the foot
Antagonist	Fibularis longus, gastrocnemius, soleus, plantaris, tibialis posterior
Identifiers
Latin	musculus tibialis anterior
TA98	A04.7.02.037
TA2	2644
FMA	22532
	Anatomical terms of muscle [ edit on Wikidata]

Last updated May 05, 2024

The tibialis anterior muscle is a muscle of the anterior compartment of the lower leg. It originates from the upper portion of the tibia; it inserts into the medial cuneiform and first metatarsal bones of the foot. It acts to dorsiflex and invert the foot. This muscle is mostly located near the shin.

Structure

The tibialis anterior muscle is the most medial muscle of the anterior compartment of the leg.^[1]^{[ better source needed ]}

The muscle ends in a tendon which is apparent on the anteriomedial dorsal aspect of the foot close to the ankle.^{[ citation needed ]} Its tendon is ensheathed in a synovial sheath. The tendon passes through the medial compartment superior and inferior extensor retinacula of the foot.^[2]

Origin

The tibialis anterior muscle arises from the upper 2/3 of the lateral surface of the tibia and^[3]^{[ better source needed ]} the adjoining part of the interosseous membrane and deep fascia overlying it,^[2] and the intermuscular septum between this muscle and the extensor digitorum longus.^{[ citation needed ]}

Insertion

It is inserted into the medial and inferior surface of the medial cuneiform bone, and adjacent portion of the first metatarsal bone.^[2]'

Nerve supply

The tibialis anterior muscle is innervated by the deep fibular nerve, and recurrent genicular nerve (L4).^[2]

Variation

A deep portion of the muscle is rarely inserted into the talus, or a tendinous slip may pass to the head of the first metatarsal bone or the base of the first phalanx of the great toe.^{[ citation needed ]}

The tibiofascialis anterior, a small muscle from the lower part of the tibia to the transverse or cruciate crural ligaments or deep fascia.^{[ clarification needed ]}

Actions/movements

The muscle acts to dorsiflex and invert the foot.^[2] It is the largest dorsiflexor of the foot.^[1] The muscle also contributes to deceleration.^[4]^{[ better source needed ]}

Function

The muscle helps maintain the medial longitudinal arch of the foot.^[2] It draws up and holds the toe in a locked position. The tibialis anterior aids in any activity that requires moving the leg or keeping the leg vertical. It functions to stabilize the ankle as the foot hits the ground during the contact phase of walking (eccentric contraction) and acts later to pull the foot clear of the ground during the swing phase (concentric contraction). It also functions to 'lock' the ankle, as in toe-kicking a ball, when held in an isometric contraction.^[5]^{[ better source needed ]}

The movements of tibialis anterior are dorsiflexion and inversion of the ankle. However, actions of tibialis anterior are dependent on whether the foot is weight bearing or not (closed or open kinetic chain). When the foot is on the ground, the muscle helps to balance the leg and talus on the other tarsal bones so that the leg is kept vertical even when walking on uneven ground.^{[ citation needed ]}

Clinical significance

A tibialis anterior hernia is a rare type of hernia in which fat or other material protrudes through a defect in the tibialis anterior muscle.^[6] It may be caused by trauma, such as an inadvertent kick to the lower leg from an opposing player in a football match.^{[ citation needed ]}

Additional images

medial view of dissected ankle has two muscles

Lateral aspect of right leg.
Tibialis anterior muscle
Cross-section through top third and second third of right leg.
Tibialis anterior muscle
Ankle joint. Deep dissection. Lateral view *This has some structures labelled incorrectly e.g. tibialis anterior, extensor hallucis longus and cuboid bone

Related Research Articles

The foot is an anatomical structure found in many vertebrates. It is the terminal portion of a limb which bears weight and allows locomotion. In many animals with feet, the foot is a separate organ at the terminal part of the leg made up of one or more segments or bones, generally including claws and/or nails.

<span class="mw-page-title-main">Human leg</span> Lower extremity or limb of the human body (foot, lower leg, thigh and hip)

The leg is the entire lower limb of the human body, including the foot, thigh or sometimes even the hip or buttock region. The major bones of the leg are the femur, tibia, and adjacent fibula. The thigh is between the hip and knee, while the calf (rear) and shin (front) are between the knee and foot.

In human anatomy, the fibularis longus is a superficial muscle in the lateral compartment of the leg. It acts to tilt the sole of the foot away from the midline of the body (eversion) and to extend the foot downward away from the body at the ankle.

The tibia, also known as the shinbone or shankbone, is the larger, stronger, and anterior (frontal) of the two bones in the leg below the knee in vertebrates ; it connects the knee with the ankle. The tibia is found on the medial side of the leg next to the fibula and closer to the median plane. The tibia is connected to the fibula by the interosseous membrane of leg, forming a type of fibrous joint called a syndesmosis with very little movement. The tibia is named for the flute tibia. It is the second largest bone in the human body, after the femur. The leg bones are the strongest long bones as they support the rest of the body.

The fibula or calf bone is a leg bone on the lateral side of the tibia, to which it is connected above and below. It is the smaller of the two bones and, in proportion to its length, the most slender of all the long bones. Its upper extremity is small, placed toward the back of the head of the tibia, below the knee joint and excluded from the formation of this joint. Its lower extremity inclines a little forward, so as to be on a plane anterior to that of the upper end; it projects below the tibia and forms the lateral part of the ankle joint.

<span class="mw-page-title-main">Ankle</span> Region where the foot and the leg meet

The ankle, the talocrural region or the jumping bone (informal) is the area where the foot and the leg meet. The ankle includes three joints: the ankle joint proper or talocrural joint, the subtalar joint, and the inferior tibiofibular joint. The movements produced at this joint are dorsiflexion and plantarflexion of the foot. In common usage, the term ankle refers exclusively to the ankle region. In medical terminology, "ankle" can refer broadly to the region or specifically to the talocrural joint.

<span class="mw-page-title-main">Extensor hallucis longus muscle</span> Thin muscle, situated between the tibialis anterior and the extensor digitorum longus

The extensor hallucis longus muscle is a thin skeletal muscle, situated between the tibialis anterior and the extensor digitorum longus. It extends the big toe and dorsiflects the foot. It also assists with foot eversion and inversion.

<span class="mw-page-title-main">Tibialis posterior muscle</span> Muscle in the most central of all the leg muscles

The tibialis posterior muscle is the most central of all the leg muscles, and is located in the deep posterior compartment of the leg. It is the key stabilizing muscle of the lower leg.

The gastrocnemius muscle is a superficial two-headed muscle that is in the back part of the lower leg of humans. It is located superficial to the soleus in the posterior (back) compartment of the leg. It runs from its two heads just above the knee to the heel, extending across a total of three joints.

The anterior tibial artery is an artery of the leg. It carries blood to the anterior compartment of the leg and dorsal surface of the foot, from the popliteal artery.

<span class="mw-page-title-main">Tibial nerve</span> Branch of the sciatic nerve

The tibial nerve is a branch of the sciatic nerve. The tibial nerve passes through the popliteal fossa to pass below the arch of soleus.

The flexor hallucis longus muscle (FHL) attaches to the plantar surface of phalanx of the great toe and is responsible for flexing that toe. The FHL is one of the three deep muscles of the posterior compartment of the leg, the others being the flexor digitorum longus and the tibialis posterior. The tibialis posterior is the most powerful of these deep muscles. All three muscles are innervated by the tibial nerve which comprises half of the sciatic nerve.

The flexor digitorum longus muscle is situated on the tibial side of the leg. At its origin it is thin and pointed, but it gradually increases in size as it descends. It serves to flex the second, third, fourth, and fifth toes.

<span class="mw-page-title-main">Extensor digitorum longus muscle</span> Pennate muscle, situated at the lateral part of the front of the leg

The extensor digitorum longus is a pennate muscle, situated at the lateral part of the front of the leg.

<span class="mw-page-title-main">Fibularis brevis</span> Shorter and smaller of the fibularis (peroneus) muscles

In human anatomy, the fibularis brevis is a muscle that lies underneath the fibularis longus within the lateral compartment of the leg. It acts to tilt the sole of the foot away from the midline of the body (eversion) and to extend the foot downward away from the body at the ankle.

In human anatomy, the fibularis tertius is a muscle in the anterior compartment of the leg. It acts to tilt the sole of the foot away from the midline of the body (eversion) and to pull the foot upward toward the body (dorsiflexion).

<span class="mw-page-title-main">Deep fibular nerve</span> Type of nerve

The deep fibular nerve begins at the bifurcation of the common fibular nerve between the fibula and upper part of the fibularis longus, passes infero-medially, deep to the extensor digitorum longus, to the anterior surface of the interosseous membrane, and comes into relation with the anterior tibial artery above the middle of the leg; it then descends with the artery to the front of the ankle-joint, where it divides into a lateral and a medial terminal branch.

In humans, the sole of the foot is anatomically referred to as the plantar aspect.

<span class="mw-page-title-main">Superior extensor retinaculum of foot</span> Upper part of the extensor retinaculum of foot

The superior extensor retinaculum of the foot is the upper part of the extensor retinaculum of foot which extends from the ankle to the heelbone.

<span class="mw-page-title-main">Malleolus</span> Ankle bone protrusion

A malleolus is the bony prominence on each side of the human ankle.

References

This article incorporates text in the public domain from page 480 of the 20th edition of Gray's Anatomy (1918)

1 2 Ma, Yun-tao (2011-01-01), Ma, Yun-tao (ed.), "CHAPTER 14 - General Principles of Treating Soft Tissue Dysfunction in Sports Injuries", Acupuncture for Sports and Trauma Rehabilitation, Saint Louis: Churchill Livingstone, pp. 212–233, doi:10.1016/b978-1-4377-0927-8.00014-2, ISBN 978-1-4377-0927-8 , retrieved 2021-03-01
1 2 3 4 5 6 Sinnatamby, Chummy (2011). Last's Anatomy (12th ed.). Elsevier Australia. p. 144. ISBN 978-0-7295-3752-0.
↑ Baldry, P. E.; Thompson, John W. (2005-01-01), Baldry, P. E.; Thompson, John W. (eds.), "Chapter 18 - Pain in the lower limb", Acupuncture, Trigger Points and Musculoskeletal Pain (Third Edition), Edinburgh: Churchill Livingstone, pp. 315–324, doi:10.1016/b978-044306644-3.50022-x, ISBN 978-0-443-06644-3 , retrieved 2021-03-01
↑ "10 Incredible Tibialis Raise Benefits". 2022-04-08. Retrieved 2023-09-28.
↑ Uzun, Bora; Taylan, Orçun; Gültekin, Barış; Havıtçıoğlu, Hasan (2011-05-01). "Dynamic measurements of musculus tibialis anterior ligaments with different angles". Journal of Biomechanics. Abstracts of the Fifth International Participated National Biomechanics Congress. 44: 2. doi:10.1016/j.jbiomech.2011.02.021. ISSN 0021-9290.
↑ Hullur, H.; Salem, Y.; Al Khalifa, J.; Salem, A. (2016). "Tibialis anterior muscle hernia: rare but not uncommon". BMJ Case Reports. 2016: bcr2016217569. doi:10.1136/bcr-2016-217569. PMC 5174854 . PMID 27999130.

External links

Anatomy photo:15:st-0415 at the SUNY Downstate Medical Center
Tibialis Anterior from Wheeless' Textbook of Orthopaedics

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Text is available under the CC BY-SA 4.0 license; additional terms may apply.
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[:1-1] 1 2 Ma, Yun-tao (2011-01-01), Ma, Yun-tao (ed.), "CHAPTER 14 - General Principles of Treating Soft Tissue Dysfunction in Sports Injuries", Acupuncture for Sports and Trauma Rehabilitation, Saint Louis: Churchill Livingstone, pp. 212–233, doi:10.1016/b978-1-4377-0927-8.00014-2, ISBN 978-1-4377-0927-8 , retrieved 2021-03-01

[:02-2] 1 2 3 4 5 6 Sinnatamby, Chummy (2011). Last's Anatomy (12th ed.). Elsevier Australia. p. 144. ISBN 978-0-7295-3752-0.

[:0-3] Baldry, P. E.; Thompson, John W. (2005-01-01), Baldry, P. E.; Thompson, John W. (eds.), "Chapter 18 - Pain in the lower limb", Acupuncture, Trigger Points and Musculoskeletal Pain (Third Edition), Edinburgh: Churchill Livingstone, pp. 315–324, doi:10.1016/b978-044306644-3.50022-x, ISBN 978-0-443-06644-3 , retrieved 2021-03-01

[4] "10 Incredible Tibialis Raise Benefits". 2022-04-08. Retrieved 2023-09-28.

[5] Uzun, Bora; Taylan, Orçun; Gültekin, Barış; Havıtçıoğlu, Hasan (2011-05-01). "Dynamic measurements of musculus tibialis anterior ligaments with different angles". Journal of Biomechanics. Abstracts of the Fifth International Participated National Biomechanics Congress. 44: 2. doi:10.1016/j.jbiomech.2011.02.021. ISSN 0021-9290.

[hernia-6] Hullur, H.; Salem, Y.; Al Khalifa, J.; Salem, A. (2016). "Tibialis anterior muscle hernia: rare but not uncommon". BMJ Case Reports. 2016: bcr2016217569. doi:10.1136/bcr-2016-217569. PMC 5174854 . PMID 27999130.

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