Anatomy, Bony Pelvis and Lower Limb, Tibial Nerve


Article Author:
Sohil Desai


Article Editor:
Wayne Cohen-Levy


Editors In Chief:
Ron Feller
Grant Goold
Kyle Cohen


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Frank Smeeks
Kristina Soman-Faulkner
Radia Jamil
Patrick Le
Sobhan Daneshfar
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Navid Mahabadi
Steve Bhimji
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Nazia Sadiq
Hajira Basit
Phillip Hynes
Tehmina Warsi


Updated:
2/1/2019 7:00:14 PM

Introduction

The tibial nerve is one of the two terminal branches of the sciatic nerve, the largest nerve in the human body. The tibial nerve originates from the L4-S3 spinal nerve roots and provides motor and sensory innervation to most of the posterior leg and foot. In addition to its motor branches, the branches of the tibial nerve include the medial sural cutaneous nerve, medial calcaneal nerve, and the medial and lateral plantar nerves.

Structure and Function

Through the motor branches to its 21 muscles and its many sensory fibers, the tibial nerve plays a role in the following functions:

Motor:

  • Hip extension
  • Knee flexion, internal rotation
  • Ankle plantar flexion, inversion
  • Hallux IP, MTP flexion
  • Hallux abduction, adduction
  • Second  to fifth toe DIP, PIP, MTP flexion
  • Second  to fifth toe DIP, PIP extension (lumbricals, interossei)
  • Second  to fifth toe adduction, abduction

Sensory:

  • Sensation to the posterolateral leg: medial sural cutaneous nerve and sural nerve
  • Sensation to the lateral aspect of the heel: sural nerve 
  • Sensation to the lateral surface of the foot: sural nerve
  • Sensation to the medial aspect of the heel: medial calcaneal nerve
  • Sensation to the lateral aspect of the plantar surface of the foot: lateral plantar nerve
  • Sensation to the medial aspect of the plantar surface of the foot: medial plantar nerve

Gross Anatomy and Course

To better understand the tibial nerve and its functions, one would benefit from having an understanding of the nerve's course through the lower extremity, and from having a strong grasp of the surrounding anatomy. As stated earlier, the tibial nerve is a component of the sciatic nerve, the largest nerve in the human body. The sciatic nerve derives from the ventral rami of spinal nerves L4-S3, then exits the pelvis at a point inferior to the piriformis muscle through the greater sciatic foramen to enter the posterior compartment of the thigh. While in the posterior thigh, it travels superficial to the adductor magnus and deep to the biceps femoris, carrying fibers from the common peroneal and tibial nerves.

It is worth noting that there can be a significant degree of anatomical variation seen with the sciatic nerve, and these variations lead to many relevant clinical and surgical considerations. Tomaszewski et al. performed a meta-analysis of the nerve’s variations, examining a total of 7210 lower limbs. The most common course of the sciatic nerve was as described above: to exit the pelvis undivided directly below the piriformis muscle, and this pattern occurred in 85.2% of cases.[1] But in many cases, the sciatic nerve bifurcates into the tibial and common peroneal nerves within the pelvis. In these cases, the tibial and common peroneal divisions of the sciatic nerve can pierce, exit above, or exit below the piriformis. A detailed discussion of the variations of the sciatic nerve bifurcations is beyond the scope of this review.[1] It is worth noting that piriformis syndrome occurs when the sciatic nerve becomes entrapped in its course down the posterior leg. A bipartite piriformis and proximal division of the sciatic nerve are risk factors for this condition.[2]

In the cases where the sciatic nerve travels undivided through the posterior thigh, the nerve bifurcates a few centimeters superior to the popliteal fossa. The popliteal fossa is the space on the posterior side of the knee joint created by the border of four muscle bellies. Superomedially is the semimembranosus muscle, superolaterally is the biceps femoris muscle, and inferomedially and inferolaterally are the medial and lateral heads of the gastrocnemius, respectively. From superficial to deep when viewing posteriorly, the popliteal fossa includes the tibial nerve, popliteal vein, popliteal artery, small saphenous vein, common peroneal nerve, and the popliteal lymph nodes. The common peroneal nerve travels laterally after bifurcation, and it is typically visible in the superior border of popliteal fossa near the biceps femoris muscle. It continues laterally around the neck of the fibula to supply motor and sensory innervation to the leg.

The tibial nerve continues coursing inferiorly after its bifurcation and passes directly down the midline of the popliteal fossa to enter the leg. Before crossing the margin of any posterior leg muscles, the tibial nerves gives off its first sensory branch: the medial sural cutaneous nerve. This nerve courses superficially between the two heads of the gastrocnemius muscle. It continues its course inferiorly near the midline of the posterior leg to eventually unite the with the sural communicating branch of the common fibular nerve. Together, these nerves form the sural nerve, which continues coursing inferiorly to supply sensory innervation to the lateral side of the posterior leg.

The main trunk of the tibial nerve continues deep to the plantaris muscle and two heads of the gastrocnemius to enter the tendinous arch of the soleus muscle.[3] Now in the deep posterior compartment of the leg, the nerve continues its course on the posterior surface of the tibialis posterior muscle. It then passes just posterior to the medial malleolus between the flexor digitorum longus and flexor hallucis longus within  the tarsal tunnel. The calcaneus and talus bones form this tunnel on the deep/lateral side, and the flexor retinaculum covering superficially. The abductor hallucis forms the floor of this tunnel. From anterior to posterior, this tunnel contains the tibialis posterior tendon, flexor digitorum tendon, posterior tibial artery/vein, tibial nerve, and flexor hallucis longus tendon.

Just proximal to the tarsal tunnel, the tibial nerve gives off its second sensory branch, the medial calcaneal nerve. Just distal to the tarsal tunnel, the tibial nerve gives off its terminal branches, the medial and lateral plantar nerves, which continue to supply motor and sensory innervation to the plantar foot. These nerves travel in the 2nd layer of the foot; the medial plantar nerve travels just deep to the abductor hallucis to branch into common plantar and eventually proper plantar digital nerves to the first through fourth digits. The lateral plantar nerve travels obliquely to the lateral side of the foot deep to the flexor digitorum brevis and superficial to the quadratus plantae muscle. This nerve then gives off a deep branch, which supplies deep muscles of the foot, as well as a superficial branch which continues coursing laterally. This superficial branch of the lateral plantar nerve terminates as common and proper plantar digital nerves supplying the fourth and fifth digits.

Blood Supply and Lymphatics

The blood supply to tibial nerve structures is provided primarily by the popliteal artery, with two exceptions provided at the end of this section. The popliteal artery is a continuation of the femoral artery, a large artery that enters the lower extremity through the femoral sheath after passing under the inferior margin of the inguinal ligament. This major artery of the lower extremity gives off a deep femoral branch proximally in the anterior thigh, then continues its course inferiorly. The femoral artery then dives posteriorly through the adductor hiatus in the adductor magnus muscle to gain access to the posterior thigh. After crossing into the posterior thigh, its name changes to the popliteal artery. 

Popliteal Artery and branches

Subsequent to passing through the adductor hiatus, the popliteal artery can be visualized in the popliteal fossa directly paralleling the tibial nerve. It continues its course inferiorly to pass deep to the plantaris and gastrocnemius heads to reach the superficial surface of the popliteus muscle- at this point, the artery bifurcates into the anterior and posterior tibial arteries. The anterior tibial artery dives anteriorly to pass between the two heads of the tibialis posterior muscle. It then continues anteriorly through the superior portion of the interosseous membrane to supply the anterior compartment of the leg.

The posterior tibial artery continues inferiorly past the popliteus alongside the tibial nerve to then pass through the tendinous arch of the soleus. Now in the deep posterior compartment of the leg, it gives off the peroneal artery at a point below the plane of the tibial plateau.[4] The peroneal artery courses inferolaterally between the tibialis posterior and flexor hallucis longus muscles, supplying these muscles along the way. It then terminates near the lateral aspect of the ankle, giving off branches that supply the ankle. 

The posterior tibial artery follows the tibial nerve throughout the length of the deep posterior compartment, giving off muscular branches to supply this compartment. The artery then enters the tarsal tunnel in a path just anterior to the tibial nerve. Quite similar to the tibial nerve, just proximal to the tarsal tunnel the posterior tibial artery gives off a medial calcaneal branch, and distal to the tarsal tunnel the artery bifurcates into medial and lateral plantar arteries. These arteries follow a similar course as their corresponding nerves, supplying all of the muscles of the plantar foot to then terminate as common and proper plantar digital branches.

The two exceptions of tibial nerve territory blood supply are as follows. First, the femoral artery, while still in the anterior thigh, gives off the deep femoral artery. This artery then sends four perforating branches which also pass through the adductor magnus muscle (superior to the adductor hiatus) to supply posterior thigh muscles. Second, the femoral artery gives off the descending geniculate artery before entering the adductor hiatus; this is one of six geniculate arteries that anastomose around the knee joint, while the remaining five are branches of the popliteal artery. These arteries provide collateral circulation to the supply the knee joint and associated ligaments during knee flexion, but they also may supply tendons near the knee joint.

Muscles

Posterior thigh compartment[5]:

Semitendinosus

  • Origin: Ischial tuberosity
  • Insertion: Superior aspect of the medial surface of the tibia (pes anserinus)
  • Actions: Flexes knee, extends hip

Semimembranosus

  • Origin: Ischial tuberosity
  • Insertion: Posterior aspect of the medial condyle of the tibia
  • Actions: Flexes knee, extends hip

Biceps femoris long head

  • Origin: Ischial tuberosity
  • Insertion: Lateral aspect of the head of the fibula
  • Actions: Flexes knee, laterally rotates knee, extends hip

Adductor magnus hamstring portion (vertical fibers)

  • Origin: Ischial tuberosity
  • Insertion: Adductor tubercle of femur
  • Actions: Extends hip (vertical fibers)
    • Note: The adductor magnus horizontal fibers receive innervation from the obturator nerve, and contribute to adduction and flexion of the hip

Superficial posterior leg compartment[6]:

Gastrocnemius

  • Origin of lateral head: Lateral aspect of lateral condyle of the femur
  • Origin of medial head: Popliteal surface superior to the medial condyle of the femur
  • Insertion: Posterior aspect of the calcaneus (Achilles/calcaneal tendon)
  • Actions: Plantar flexes ankle, flexes knee

Soleus

  • Origin: Posterior aspect of the head of the fibula, proximal aspect of the posterior fibula, soleal line of the tibia
  • Insertion: Posterior aspect of the calcaneus (Achilles/calcaneal tendon)
  • Actions: Plantar flexes ankle

Plantaris

  • Origin: Lateral supracondylar line of the femur, oblique popliteal ligament
  • Insertion: Posterior aspect of the calcaneus (Achilles/calcaneal tendon)
  • Actions: Plantar flexes ankle (weak), flexes knee (weak)

Deep posterior leg compartment[6][7]:

Popliteus

  • Origin: Lateral aspect of the lateral femoral condyle, lateral meniscus
  • Insertion: Posterior tibia superior to soleal line
  • Actions: Internally rotates knee (unlocks knee), flexes knee (weak)

Tibialis posterior

  • Origin: Posterior tibia inferior to the soleal line, interosseous membrane, the proximal aspect of the posterior fibula
  • Insertion: Tuberosity of navicular bone, medial, intermediate, lateral four cuneiforms, cuboid, the base of the second through the fourth metatarsal
  • Actions: Plantar flexes ankle, inverts ankle

Flexor digitorum longus

  • Origin: Medial aspect of posterior tibia inferior to the soleal line
  • Insertion: Base of the second through fifth distal phalanges
  • Actions: Flexes second through fifth DIP, PIP, MTP, plantar flexes ankle

Flexor hallucis longus

  • Origin: Distal aspect of the posterior fibula, interosseous membrane
  • Insertion: Base of hallux distal phalanx
  • Actions: Flexes hallux IP, MTP, plantar flexes ankle (weak)

Medial plantar branch[8]:

Abductor hallucis

  • Origin: Tuberosity of calcaneus, plantar aponeurosis
  • Insertion: Medial aspect of base of hallux proximal phalanx
  • Actions: Abducts hallux, flexes hallux MTP

Flexor digitorum brevis

  • Origin: Tuberosity of calcaneus, plantar aponeurosis
  • Insertion: Second through fifth middle phalanges 
  • Actions: Flexes second through fifth PIP, MTP

Flexor hallucis brevis

  • Origin: Plantar aspect of the cuboid, plantar aspect of lateral cuneiform
  • Insertion: Base of hallux proximal phalanx
  • Actions: Flexes hallux MTP

1st lumbrical (not named in relation to digits)

  • Origin: Tendon of flexor digitorum longus
  • Insertion: Medial aspect of second phalanx extensor expansion
  • Actions: Flexes second MTP, extends second DIP, PIP

Lateral plantar branch[8]:

Quadratus plantae

  • Origin: Medial and lateral aspects of the plantar surface of the calcaneus
  • Insertion: Flexor digitorum longus tendon (posterolateral aspect)
  • Actions: Assists in flexor digitorum longus flexion by correcting for its obliquely directed contraction

Abductor digiti minimi

  • Origin: Tuberosity of calcaneus, plantar aponeurosis
  • Insertion: Lateral aspect of base of the fifth proximal phalanx
  • Actions: Abducts fifth phalanx, flexes fifth MTP

Flexor digiti minimi brevis

  • Origin: Base of the fifth metatarsal
  • Insertion: Lateral aspect of base of the fifth proximal phalanx
  • Actions: Flexes fifth MTP

First through third plantar interossei (not named in relation to digits)

  • Origination: Medial surface and base of third through fifth metatarsals
  • Insertion: Medial aspect of third through fifth proximal phalanges
  • Actions: Adducts third through fifth phalanges, flexes third through fifth MTP

First through fourth dorsal interossei (not named in relation to digits)

  • Origin: Adjacent aspects of first through fifth metatarsals
  • Insertion of first dorsal interossei: Medial aspect of the second proximal phalanx
  • Insertion of second through fourth dorsal interossei: Lateral aspect of second through fourth proximal phalanx, tendons of extensor digitorum longus
  • Action: Abducts third and fourth phalanges, flexes second through fourth MTP, extends second through fourth DIP, PIP
    • Opposing action of first and second dorsal interossei on the second phalanx leads to no abduction of the second phalanx

Second through fourth lumbricals (not named in relation to digits)

  • Origin: Tendons of flexor digitorum longus
  • Insertion: Medial aspect of third through fifth phalanx extensor expansion
  • Actions: Flexes third through fifth MTP, extends third through fifth DIP, PIP

Adductor hallucis

  • Origin of oblique head: Base of second through fourth metatarsals
  • Origin of transverse head: Third through fifth MTP ligaments
  • Insertion: Lateral aspect of hallux proximal phalanx
  • Actions: Adducts hallux

Surgical Considerations

Given the significant motor and sensory functions of the tibial nerve, its correct identification and protection in any surgical procedure are of paramount importance. Proximally, the tibial nerve is the most superficial structure within the popliteal fossa. This relatively posterior position protects the nerve in most surgical approaches involving the knee. For instance, the anterior midline incision most commonly used for total knee replacement involves an anterior dissection and arthrotomy thus leaving the tibial nerve safely out of the surgical field.

In certain clinical cases (i.e., tibial plateau fractures and posterior cruciate ligament injuries), a posterior approach to the knee may be indicated. The posteromedial approach to the knee is performed by making an incision along the medial gastrocnemius and then curved laterally along the flexion crease of the knee. The dissection is carried until the fascia overlying the medial gastrocnemius is encountered and then divided. The medial head of the gastrocnemius along with the tibial nerve and other neurovascular structures are then safely retracted laterally.[9]

In the posterior approach to the knee, a similar curvilinear incision is made centered on the back of the knee. The medial sural cutaneous nerve can then be identified and traced back to the tibial nerve. This helps to ensure proper identification and protection of the neurovascular structures. Depending on the clinical situation, the medial gastrocnemius may be detached and reflected laterally to protect the neurovascular structures, or the structures may be dissected individually to access the posterior aspect of the knee capsule.

Distally, the tibial nerve lies posterior to the medial malleolus and can be safely retracted and protected posteriorly in most cases. In cases of ankle arthroscopy, use of the posteromedial and posterolateral ankle portals may theoretically pose a risk to the tibial nerve however cadaver studies have demonstrated that accurate placement of the portals leaves the tibial nerve a safe distance from the surgical instruments.[10]

Clinical Significance

As with any nerve, damage can occur through direct trauma or iatrogenic injury. Specific to the tibial nerve, however, are two conditions of interest.

Tarsal Tunnel Syndrome

Tarsal tunnel syndrome results from tibial nerve compression within the tarsal tunnel, quite analogous to the more well-known carpal tunnel syndrome of the wrist. After coursing inferomedially within the leg, the tibial nerve enters the foot through the tarsal tunnel. This compartment is fairly narrow at baseline, thus any etiology of increased pressure in this region can cause compression of the tibial nerve. Etiologies are often broken down into intrinsic and extrinsic sources. Intrinsic causes include abnormal growths (ganglion cysts, osteophytes, osteochondromas, schwannomas), peri-neural fibrosis, and hypertrophic tendinopathies. Extrinsic causes include trauma (ankle sprains, post-surgical scarring), edema, obesity, and tight shoes.[11]

Patients often present with burning, numbness, or tingling in the plantar surface of the foot and toes. Symptoms may also be experienced in the heel through radiation to the medial calcaneal nerve, which branches proximal to the tarsal tunnel. The pain is often most pronounced with prolonged standing and manual pressure over medial side of the ankle. Tinel sign, which is tingling upon percussion of the nerve, is positive in more than half of patients. In severe cases, patients may experience muscle weakness and muscle wasting.[12]

Management includes lifestyle modifications for extrinsic causes (weight loss, change of shoes), and initial conservative treatment for other cases. This includes resting of the foot and ankle, and potential use of corticosteroid injections. It is recommended that conservative treatment is attempted for six months before progressing to surgery unless the case is due to direct trauma or prior surgery.[12] Surgical management involves decompression of the tibial nerve, which often involves manipulation of the flexor retinaculum and fascia of the abductor hallucis brevis.[13]

Compartment Syndrome

Many muscle groups within the human extremities are enveloped in fascial membranes. In the leg, there are four fascial envelopes or compartments: anterior, lateral, superficial posterior, and deep posterior. Compartment syndrome is described as an acute or chronic increase in pressure within a fascial compartment that leads to a compromise of the blood supply to structures within the compartment. Anterior compartment syndrome is the most common of these four, but each of the four compartments can be involved. Compartment syndromes occur most commonly following trauma due to progressive limb swelling which increases pressure within the compartment resulting in venous hypertension and eventual tissue ischemia.[14]

Untreated compartment syndrome of the deep posterior compartment can result in motor and sensory deficits in the foot and ankle due to tibial nerve ischemia.[15] Deficits include paresthesias of the plantar foot and weakness in toe and plantar flexion. Fasciotomy, which involves an incision in the surrounding fascia leading to decreased pressure within the compartment, is the primary method of treatment in symptomatic patients. In acute cases, immediate decompression is necessary to avoid irreversible tissue necrosis.[14][15]


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Anatomy, Bony Pelvis and Lower Limb, Tibial Nerve - Questions

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Muscles on the plantar aspect of the medial side of the foot are supplied by a branch of which of the following nerves?



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Branches of which nerve provides most of the sensory innervation to the plantar surface of the foot?



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A 34-year-old man presents to the emergency department after sustaining a leg injury during a car accident. Upon examination, it is determined that he severed the nerve that is the most superficial midline structure within the popliteal fossa. Which of the following muscles has lost innervation?



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What is the major nerve supply to the foot?



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A patient is rushed to the emergency department after being in a serious car collision. Upon physical examination, it is revealed that the patient has limited plantarflexion of his ankle. She is able to evert her ankle. A lesion to which of the following nerves can result in his symptom?



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A 28-year-old male is involved in an altercation and sustains a transverse laceration to the posterior aspect of the knee. Which of the following statements correctly lists the neurovascular structures in the correct order from superficial (posterior) to deep (anterior)?



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A patient sustains a posterior cruciate ligament avulsion. You are preparing to perform a posterior approach to the knee. Which structure can be identified and traced back to the tibial nerve from which it branches?



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A 65-year-old female is seen in your office for chronic heel pain. Her pain is described as sharp and burning with numbness along the plantar aspect of the foot running into the first, second, and third toes. She has a remote history of an unspecified ankle injury over 1 year ago for which she did not seek treatment. Physical exam reveals a positive Tinel’s sign over the medial aspect of the ankle. What is the most likely diagnosis?

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Which of the following can be found in the tarsal tunnel?



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Which of the following anatomic structures does not border the tarsal tunnel?



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An isolated laceration of the tibial nerve at the level of the popliteal fossa would be expected to produce what deficit?

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Anatomy, Bony Pelvis and Lower Limb, Tibial Nerve - References

References

Oh SJ,Meyer RD, Entrapment neuropathies of the tibial (posterior tibial) nerve. Neurologic clinics. 1999 Aug     [PubMed]
Antoniadis G,Scheglmann K, Posterior tarsal tunnel syndrome: diagnosis and treatment. Deutsches Arzteblatt international. 2008 Nov     [PubMed]
Tomaszewski KA,Graves MJ,Henry BM,Popieluszko P,Roy J,Pękala PA,Hsieh WC,Vikse J,Walocha JA, Surgical anatomy of the sciatic nerve: A meta-analysis. Journal of orthopaedic research : official publication of the Orthopaedic Research Society. 2016 Oct     [PubMed]
Iida T,Kobayashi M, Tibial nerve entrapment at the tendinous arch of the soleus: a case report. Clinical orthopaedics and related research. 1997 Jan     [PubMed]
Day CP,Orme R, Popliteal artery branching patterns -- an angiographic study. Clinical radiology. 2006 Aug     [PubMed]
Faucett SC,Gannon J,Chahla J,Ferrari MB,LaPrade RF, Posterior Surgical Approach to the Knee. Arthroscopy techniques. 2017 Apr;     [PubMed]
Acevedo JI,Busch MT,Ganey TM,Hutton WC,Ogden JA, Coaxial portals for posterior ankle arthroscopy: An anatomic study with clinical correlation on 29 patients. Arthroscopy : the journal of arthroscopic     [PubMed]
Schmidt AH, Acute compartment syndrome. Injury. 2017 Jun;     [PubMed]
Hicks BL,Varacallo M, Piriformis Syndrome 2018 Jan;     [PubMed]
Ducic I,Felder JM 3rd, Tibial nerve decompression: reliable exposure using shorter incisions. Microsurgery. 2012 Oct;     [PubMed]
Matsen FA 3rd,Clawson DK, The deep posterior compartmental syndrome of the leg. The Journal of bone and joint surgery. American volume. 1975 Jan;     [PubMed]
Bourne M,Murphy PB, Anatomy, Bony Pelvis and Lower Limb, Tibia 2018 Jan;     [PubMed]
Ransom AL,Nallamothu SV, Anatomy, Bony Pelvis and Lower Limb, Femoral Muscles 2018 Jan;     [PubMed]
Kalin PJ,Hirsch BE, The origins and function of the interosseous muscles of the foot. Journal of anatomy. 1987 Jun;     [PubMed]
Binstead JT,Varacallo M, Anatomy, Bony Pelvis and Lower Limb, Calf 2018 Jan;     [PubMed]

Disclaimer

The intent of StatPearls is to provide practice questions and explanations to assist you in identifying and resolving knowledge deficits. These questions and explanations are not intended to be a source of the knowledge base of all of medicine, nor is it intended to be a board or certification review of EMS-Paramedic. The authors or editors do not warrant the information is complete or accurate. The reader is encouraged to verify each answer and explanation in several references. All drug indications and dosages should be verified before administration.

StatPearls offers the most comprehensive database of free multiple-choice questions with explanations and short review chapters ever developed. This system helps physicians, medical students, dentists, nurses, pharmacists, and allied health professionals identify education deficits and learn new concepts. StatPearls is not a board or certification review system for EMS-Paramedic, it is a learning system that you can use to help improve your knowledge base of medicine for life-long learning. StatPearls will help you identify your weaknesses so that when you are ready to study for a board or certification exam in EMS-Paramedic, you will already be prepared.

Our content is updated continuously through a multi-step peer review process that will help you be prepared and review for a thorough knowledge of EMS-Paramedic. When it is time for the EMS-Paramedic board and certification exam, you will already be ready. Besides online study quizzes, we also publish our peer-reviewed content in eBooks and mobile Apps. We also offer inexpensive CME/CE, so our content can be used to attain education credits while you study EMS-Paramedic.