PT 701 Human Anatomy: The Leg PDF

Summary

These notes describe the anatomy of the human leg, focusing on bone structure (tibia and fibula), fascia, compartments, and muscles. It covers the superficial posterior compartment and provides detailed anatomical information.

Full Transcript

The Leg 1

PT 701 Human Anatomy
The Leg

1. Osteology
a. Tibia
i. Medial and lateral vi. Shaft
condyles vii. Anterior boarder and
ii. Intercondylar eminence medial surfaces
iii. Anterolateral tibial viii. Interosseus boarder
tubercle (Gerdy’s ix. Soleal line
tubercle) x. Medial malleolus
iv. Tibial tuberosity xi. Fibular notch
v. Facet for fibula

b. Fibula
i. Head iii. Lateral malleolus
ii. Neck iv. Shaft

c. Interosseus Membrane
i. Syndesmoses between tibia and fibular (middle tibiofibular joint)

d. Proximal and Distal tibiofibular joints
i. Planar synovial joints
ii. See notes on anterior and lateral leg for more details

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The Leg 2

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The Leg 3

2. Fascia
a. Crural Fascia
i. Continuous with fascia lata
ii. Surrounds the leg except along the medial surface of the tibia
1. Attaches to anterior and posterior margins of the tibia
iii. Intermuscular septa  form anterior and lateral compartments
iv. Retinacula: Prominent bands of the fascia in the distal leg that prevent the
long tendons from bowstringing at the ankle
1. Superior and inferior extensor retinaculum
2. Flexor Retinaculum
3. Fibular Retinaculum

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The Leg 4

b. Compartments of the Leg (four compartments)
i. Compartments
1. Anterior compartment
a. Bounded by Tibia, interosseus membrane, and anterior
intermuscular septum
2. Lateral Compartment
a. Bounded by anterior intermuscular septum, fibula, and
posterior intermuscular septum
3. Deep Posterior Compartment
a. Bounded by tibia, interosseus membrane and fibular
anteriorly and the transverse septum posteriorly
4. Superficial Posterior Compartment
a. Posterior to transverse septum

ii. Clinical Relevance of the Compartments
1. Compartment Syndrome: soft tissue injury or edema or hemorrhage
can quickly build up pressure in the injured compartment
a.  Pressure on neurovascular structures in that compartment
and can lead to nerve damage if not resolved
b. This is a medical emergency and requires surgical release (an
incision in the crurual fascia) to relieve the pressure
2. Chronic overuse injuries can also cause inflammation and increased
pressure in selective compartments

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The Leg 5

3. Superficial Posterior Compartment
a. Overview
i. Muscles of the posterior compartment are the more powerful plantar flexors
ii. These muscles are crucial for walking, running, jumping
iii. Planatris has little function and its tendon may be used for surgical repair of
other strucutres
iv. All three insert into the tendocalcaneus (Achilles tendon)

b. Muscles of the Superficial Posterior Compartment
Muscle Origin Insertion Nerve Action
Plantar flexes
Lateral head: lateral aspect
ankle when knee
of lateral condyle of femur
is extended, raises
Gastrocnemius Medial head: popliteal
heel during
surface of femur superior
walking, flexes leg
to medial condyle
at knee joint
Posterior
Posterior aspect of head
surface of
and superior ¼ of posterior Plantar flexes
calcaneus Tibial
surface of fibula; soleal line ankle independent
via calcaneal nerve S1,2
Soleus and middle 1/3 of medial of position of
tendon
border of tibia; and knee, steadies leg
tendinous arch extending on foot
between bony attachments
Inferior end of lateral Weakly assists
supracondylar line of gastroc in
Plantaris
femur; oblique popliteal plantarflexing
ligament ankle

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The Leg 6

c. Neurovascular
i. Shares the posterior tibial artery and the tibial nerve with the deep posterior
compartment (the neurovascular structures travel along the midline in the
deep posterior compartment (see below for details)

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The Leg 7

d. Clinical Considerations
i. Achilles tendonitis/rupture
1. Tendonitis (and tendinosis) can develop due to improper training
increases or impaired lower extremity biomechanics
2. Tendon rupture can lead to balling up of tendon in the calf  inability
to plantarflex against gravity
a. Typically requires surgical repair and extensive rehabilitation
ii. Deep vein thrombosis and calf pump
1. Deep vein thrombosis (DVT) occurs when blood clots due to stasis
2. In individuals who are sedentary (especially on bed rest) this can
happen in the posterior tibial veins (in the deep posterior
compartment)
3. The triceps surae (calf muscles) can act as a muscle pump to help
pump blood
4. PT’s are often involved in the care of individuals in acute care to help
promote their use of active dorsi/plantarflexion to reduce risk of DVT

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The Leg 8

4. Deep Posterior Compartment
a. Overview
i. Contains the long flexors of the foot and toes
ii. These muscles function to control the foot during standing and gait

b. Muscles
Muscle Origin Insertion Nerve Action
Weakly flexes knee
Lateral surface of lateral and unlocks it by
Posterior surface of tibia Tibial nerve
Popliteus condyle of femur and rotating femur 5
superior to soleal line L4, L5. S1
lateral meniscus degrees on fixed
tibia,
Flexes great toe at
Inferior 2/3 of posterior all joints, weakly
Flexor
surface of fibula, inferior Base of distal phalanx of Tibial nerve plantarflexes ankle,
halluces
part of interosseous great toe S2, 3 supports medial
longus
membrane longitudinal arch of
foot
Flexes lateral 4
Medial part of posterior
Flexor digits plantar flexes
surface of tibia inferior Bases of distal phalanges Tibial nerve
digitorum ankle, supports
to soleal line, bly broad of lateral 4 digits S2, 3
longus longitudinal arch of
tendon to fibula
foot
Interosseous membrane;
Tuberosity of navicular,
posterior surface of tib,
Tibialis cuneiform, cuboid and, Tibial nerve Plantar flexes and
inferior to soleal line,
posterior bases of 2nd 3rd and 4th L4. L5 inverts foot
posterior surface of
metatarsals
fibula

c. Neurovascular

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The Leg 9

i. Innervation: Tibial nerve
ii. Vascular: Posterior tibial artery (continuation of the popliteal artery as it
descends from the popliteal fossa)

d. Clinical/Functional Considerations
i. Pure Inversion
1. Inversion of the foot is controlled by both the tibialis anterior and
tibialis posterior. Working together these muscles can produce pure
inversion. Working alone, the tibialis anterior produces inversion
with dorsiflecion and the tibialis posterior produces inversion with
plantarflexion.
2. Note that both muscles (although in different compartments with
different peripheral nerves) receive the same spinal segments

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The Leg 10

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The Leg 11

5. Anterior Compartment
a. Overview
i. The muscles of the anterior compartment are the dorsiflexors (extensors) of the
ankle
b. Muscles of the Anterior Compartment
Proximal
Muscle Distal Attachment Innervation Actions
Attachment
Lateral condyle
Medial & inferior DF and inversion;
and superior ½ of Deep fibular
Tibialis Anterior surfaces of 1st (also draws the leg
lateral surface of (peroneal) n;
(TA) cuneiform and over the foot
tibia, interosseous L4, 5
base of 1st MT. during gait)
membrane
Lateral condyle of
Deep fibular
Extensor tibia and superior Middle and distal Extends lateral
(peroneal) n;
digitorum longus ¾ of medial fibula phalanges of four digits and
L4, L5
(EDL) and interosseous lateral 4 digits DF’s ankle
membrane
Middle part of
Dorsal aspect, Deep fibular
anterior surface of
Extensor hallucis base of distal (peroneal) n; Extends great toe,
fibula and
longus (EHL) phalanx of great L4, L5 DF’s ankle
interosseous
toe
membrane
Inferior 2/3 of Deep fibular
Fibularis anterior fibula and Dorsum of base of (peroneal) n;
DF and eversion
(Peroneus) tertius interosseous 5th MT L4, L5
membrane

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The Leg 12

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The Leg 13

c. Muscles of the dorsal foot (short toe extensors)
Muscle Origin Insertion Action Innervation
Merge with
Extensor Calcaneus (floor assist ext of toes Deep Fibular n L5
extensor
Digitorum Brevis of tarsal sinus) at MTP jt S1
Tendons digits 2-4
Dorsal aspect
Extensor Hallucis Calcaneus (floor assist ext of great Deep Fibular n L5
base of prox
Brevis of tarsal sinus) toe at MTP jt S1
phalanx great toe

Section 4
The Leg 14

d. Neurovascular
i. Innervation: Deep fibular nerve (branch of common fibular)

ii. Vascular: Anterior Tibial Artery
1. Becomes Dorsalis Pedis Artery as it crosses the ankle joint

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The Leg 15

e. Clinical Considerations
i. Anterior Shin Splints
1. Swelling and inflammation of the anterior compartment muscles
(frequently due to increase in running/jumping activities too quickly)
2. May progress to compartment syndrome if inflammation/swelling is
not controlled
3. May also include irritation/inflammation where the fascia attaches to
the bone
ii. Compartment Syndrome
1. See posterior leg notes
iii. Foot Drop
1. Injury to deep fibular nerve (or common fibular)  paralysis of
dorsiflexors of the ankle
2. As a result, the individual is unable to pull up his/her toes when
stepping/walking  can lead to tripping and falling

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The Leg 16

6. Lateral Compartment
a. Overview
i. Muscles of the lateral compartment evert the ankle
ii. Primary function is to counteract the inversion actions of the dorsiflexors
iii. Fibularis longus also plays a critical role in stabilizing/supporting the arches of
the foot
b. Muscles of the Lateral Compartment
Proximal
Muscle Distal Attachment Innervation Actions
Attachment
Superficial fibular
Fibularis Head, superior 2/3 Base of 1st MT and Everts foot, weak
(peroneal) n.
(peroneus) longus of lateral fibula 1st cuneiform PF
L5, S1, S2
Dorsal surface of
Superficial fibular
Fibularis Inferior 2/3 of tuberosity on Everts foot, weak
(peroneal) n.
(peroneus) brevis lateral fibula lateral side, base PF
L5, S1, S2
of 5th MT

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The Leg 17

c. Neurovascular to Lateral Compartment
i. Innervation: Superficial Fibular Nerve
1. Consider the course of the Superficial Fibular nerve: how could it be
injured in a lateral ankle sprain? (more on that with the ankle!)

ii. Vascular: Fibular Artery
1. Fibular artery does NOT run in the lateral compartment. It is a branch
of the posterior tibial artery that runs in the deep posterior
compartment
2. Perforating branches of the fibular artery traverse the posterior
intermuscular septum to supply the fibularis muscles

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The Leg 18

Section 5
The Leg 19

7. Overview of Neurovascular to the Leg
a. Arterial Supply
i. Blood supply derives from the popliteal artery which divides into anterior
and posterior tibial arteries in the proximal leg
ii. Anterior tibial artery supplies the anterior compartment and travels with the
deep fibular nerve
iii. Posterior tibial artery travels in the deep posterior compartment and gives of
the fibular artery which travels near the fibula (also in the deep posterior
compartment)

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The Leg 20

b. Superficial Veins
i. Great saphenous (medial)
1. From the dorsum of the foot  anterior to medial malleolus
2. Medial leg to medial thigh  merges with femoral vein
ii. Small saphenous (posterior)
1. From lateral malleolus  posterior leg
2. Between heads of gastroc  joins popliteal vein in popliteal fossa

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The Leg 21

c. Innervation Overview
i. The tibial nerve travels in the deep posterior compartment near the posterior
tibial artery

ii. The deep fibular nerve travels in the anterior compartment with the anterior
tibial artery

iii. The superficial fibular nerve travels alone in the lateral compartment and
then emerges superficially to provide cutaneous innervation over the distal
lateral leg and dorsal foot

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The Leg 22

d. Sensory to the Leg

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The Leg 23

8. Arthrology of the Tibiofibular Joints
a. Proximal Tibiofibular Joint
i. Structure
1. Gliding Planar Joint
2. Between head of fibula and facet on proximal lateral tbia
3. Joint capsule may communicate with knee joint

ii. Joint supports
1. Ligaments
a. Proximal anterior tibiofibular ligament
b. Proximal posterior tibiofibular ligament

2. Structures in close proximity
a. Common peroneal nerve (runs around head of fibula)
b. Biceps femoris and popliteus tendons
c. IT band
d. Origins of PL, EDL, Lateral Gastrocnemius and Soleus

iii. Motions
1. Fibula glides superiorly and posteriorly with dorsiflexion (functional w/ ankle)

iv. Neurovascular Supports
1. Innervation: common peroneal (fibular) nerve
2. Blood supply: Lateral genicular, anterior tibial, and recurrent tibial arteries

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The Leg 24

B. Middle Tibiofibular Joint
i. Structure
1. Syndesmosis: interosseus membrane b/t tibia and fibula
2. Fibers of IO membrane obliquely oriented to resist muscle pull and disperse
forces (Fibula does not bear weight)

ii. Motions
1. Accessory movement with ankle joint

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The Leg 25

C. Distal Tibiofibular Joint
i. Structure
1. Fibrous/Syndesmosis, but may be gliding planar
2. Fibula = convex, Tibia = concave surface

ii. Joint supports
1. Ligaments
a. Interosseus ligament (continuous with IO membrane)
b. Distal Anterior Tibiofibular Ligament
c. Distal Posterior Tibiofibular Ligament (very strong, more likely to avulse than
tear)
i. Deep portion = Transverse Tibiofibular Ligament (involved in “tri
malleolar fx”)

iii. Neurovascular Supports
1. Innervation: Deep peroneal (fibular), tibial, and saphenous nn
2. Blood supply: Perforating branches of peroneal, anterior and posterior tibial aa

iv. Motions
1. Fibula glides superiorly and posteriorly with dorsiflexion (functions w/ ankle)

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The Leg 26

9. Clinical Considerations for the leg
a. Tibial fractures- heal slowly owing to a sparse muscular attachment to the tibia and
thus poor blood supply. Tibial plateau fractures are particularly troublesome.
b. Injuries to the common fibular nerve- on the neck of the fibula where it lies
superficially and is prone to injury. This causes foot drop.
c. Deep venous thrombosis and varicose veins- discussed in posterior leg.
d. Compartment syndrome
e. Shin splints: anterior and medial
i. Anterior: see above
ii. Medial shin splints: multiple theories implicating either tibialis posterior or
the soleus along their attachments to the tibia
f. Ankle reflex (ankle jerk) produced by tapping the tendo calcaneus tests the reflex
pathways through spinal segments S1 and S2. It is performed similar to the knee jerk
reflex.

Section 7