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The Superficial Peroneal Nerve - Taking A Look At Its Anatomy And Surgical Relevance

The superficial peroneal nerve (SPN) is a branch of the common peroneal nerve that provides motor supply to the lateral lower leg compartment as well as innervation of the foot and ankle. Evidence suggests that the anatomy of this nerve changes dramatically over time, putting it at risk for iatrogenic injury.

Author:Suleman Shah
Reviewer:Han Ju
Jul 16, 20237.3K Shares116K Views
The superficial peroneal nerve(SPN) is a branch of the common peroneal nerve that provides motor supply to the lateral lower leg compartment as well as innervation of the foot and ankle.
Evidence suggests that the anatomy of this nerve changes dramatically over time, putting it at risk for iatrogenic injury.
The purpose of this paper was to go over the anatomy of the SPN and how it relates to common orthopedic lower-limb procedures.

Anatomy Of The SPN At The Knee

The common peroneal nerve is a superficial nerve that originates from the sciatic nerve and winds around the fibula neck from posterior to anterior. The deep and superficial peroneal nerves divide the nerve after that, with the latter usually traveling through the lateral compartment of the lower leg.
Even at its origin, however, the SPN can have variations. The common peroneal nerve splits into deep and superficial branches proximal to the knee joint in ten percent of legs, according to a cadaveric study. A separate cutaneous branch emerged from the common peroneal trunk in 30% of specimens, a branch that had never been recognized in the literature before.
The same authors went on to show that when arthroscopically assisted inside-out lateral meniscus repair in fresh frozen cadavers was performed without a posterior retractor, the risk of injuring the peroneal nerve or one of its branches was as high as 20%. Because of this anatomical variation, portal insertion should be done posterolaterally with a scalpel only to make the skin incision, then blunt dissection to enter the knee joint.

Two Minutes of Anatomy: Superficial Peroneal Nerve

Anatomy Of The SPN In The Lower Limb And Ankle

The SPN provides sensory and motor innervation to the lateral compartment of the leg, including the peroneus longus and peroneus brevis, below the knee joint. The SPN's anatomy is frequently discussed in termsof the lower leg fasciae. All of the muscles in the lower leg are encircled by the crural fascia. The intermuscular septum, which separates the anterior and lateral muscle compartments, is attached to the crural fascia laterally.
By piercing the crural fascia over the lateral compartment and running superficially over the extensor retinaculum of the ankle, the SPN tends to become subcutaneous about halfway down the lower leg, supplying the foot.
The SPN has a lot of anatomical diversity, which could lead to iatrogenic injury. The anatomy of the SPN at the level of the tibial diaphysis was discovered in four different ways in a cadaveric study of 111 legs. The nerve was most commonly found in the lateral compartment of the leg (69.4% of specimens); in 16.2% of cases, the SPN was divided into branches that traveled to both the lateral and anterior compartments; in 8.1% of cases, the SPN traveled solely within the anterior compartment; and in the fourth group (6.3%), the SPN was discovered within the intermuscular septum. The SPN exited into the anterior compartment rather than the lateral compartment in 14% of specimens in a similar cadaveric study of 85 specimens. The nerve is divided into branches to both the lateral and anterior compartments in another 12% of the population.

Termination Of The SPN

The SPN becomes superficial when it crosses the distal fibula from posterior to anterior, approximately 11cm proximal to the fibula's tip and usually within 6–12 cm of the lateral malleolus tip. To innervate the dorsum of the foot, the SPN or one of its terminal branches crosses the ankle joint. According to Blair and Botte's cadaveric study of 25 legs, the SPN termination in the lower leg can be classified into three distinct patterns.
The most common was Type A (72%), in which the nerve penetrated the crural fascia to become subcutaneous at an average distance of 12 cm proximal to the ankle joint, then split into two terminal branches: a large medial dorsal cutaneous nerve (MDCN) and a smaller intermediate dorsal cutaneous nerve (IDCN) at an average distance of 4 cm proximal to the ankle joint. The MDCN and IDCN in the mid-calf of the type B pattern (16%) arose independently from the SPN.
The IDCN pierced the crural fascia posterior to the fibula, crossing about 5 cm above the ankle joint anteriorly. Type B patterns are considered to have a particularly high risk of injury during lateral malleolus fracture fixation. The IDCN penetrating the crural fascia anterior to the fibula an average of 5 cm above the ankle joint and continuing distally in close proximity to the anterior fibular border was found in Type C patterns (12%). The MDCN pierced the crural fascia 7 cm above the ankle joint in the latter case.
The IDCN is absent in some cases (8.6%), causing the sural nerve to supply the dorsolateral part of the foot rather than the SPN. The medial part of the foot is supplied by the saphenous nerve or the deep peroneal nerve in less than one percent of cases where the medial cutaneous branch is absent.

Superficial Peroneal Nerve Anatomy - Everything You Need To Know - Dr. Nabil Ebraheim

Relevance To Surgical Incisions Over The Lateral Malleolus

Ankle fracture fixation, open ankle arthrodesis, and Brostrom-Gould repair for lateral ligament reconstruction all commonly involve longitudinal incisions over the distal fibula lateral malleolus. Some surgeons use a single incision down to the bone over the lateral malleolus, but this can damage the SPN if it pierces the deep fascia at a distal location.
The SPN can only cross 3 cm proximal to the distal tip of the lateral malleolus, according to a study involving 85 cadaveric legs. For the IDCN branch, which can cross the fibula within 7 cm of the distal tip of the lateral malleolus, the Blair and Botte type B patterns have a higher risk of nerve injury.
Following the skin incision over the lateral malleolus, it is routinely recommended to look for the SPN or IDCN, so that if the nerve is found, it can be transposed anteriorly and protected before deep dissection. The SPN or a terminal branch can lie along the anterior border of the fibula, so centering the surgical incision over the posterior aspect of the malleolus reduces the risk of injury.
Fixing Weber C type fibula fractures or performing a lateral fasciotomy for compartment syndrome may necessitate a more proximal incision over the lateral lower leg. We recommend using a tourniquet for the latter so that the SPN can be visualized and protected, preventing further co-morbidity.

Ankle Arthroscopy

The most common side effect of ankle arthroscopy is neurological injury. The superficial peroneal nerve was injured in 15 (2.5%) of 612 ankle arthroscopies, according to a study. All of the nerve injuries were caused by direct contact with the portal or a pin distractor.
The MDCN was half-way between the lateral and medial malleoli, according to Blair and Botte, while the IDCN was one-third of the distance. The anterolateral portal should be placed 2 mm lateral to the peroneus tertius tendon during ankle arthroscopy to avoid injury to the SPN branches.
Peroneus tertius, on the other hand, is difficult to diagnose clinically. As a result, we recommend performing the fourth toe flexion sign with the foot plantarflexed and inverted before surgery to mark the course of the SPN at the ankle. This maneuver emphasizes the SPN's branches' subcutaneous course and has been found to be positive in 87% of people.

Relevance To Forefoot Surgery

According to cadaveric studies, the SPN's anatomy over the dorsum of the foot varies. The IDCN or the sural nerve can be injured during a surgical approach to the subtalar joint that involves an incision from the tip of the fibula to the base of the fourth metatarsal. The deep and superficial peroneal nerves can be injured by dorsal approaches to the midfoot for arthrodesis or fracture fixation.
Canovas et al. found that the MDCN splits into three branches at a distance of 5 to 20 cm from the first interdigital space. The MDCN innervates the skin over the hallux with a significant and consistent dorsomedial branch to the great toe. The extensor hallucis longus tendon can be as close as 6 mm from this branch. Arthrodesis and cheilectomy have traditionally been performed via a dorsomedial approach to the first metatarsophalangeal (MTP) joint. Such an approach may cause numbness or a painful neuroma by injuring the medial cutaneous branch. All surgery to the first MTPJ should therefore be performed via a medial or true dorsal approach.

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People Also Ask

What Happens If The Superficial Peroneal Nerve Is Damaged?

Reduced sensation, numbness, or tingling in the top of the foot or the outer part of the upper or lower leg can occur when the nerve is injured and results in dysfunction. Dropped foot (incapacity to lift the foot). The "slapping" gait (a walking pattern in which each step makes a slapping sound) is a type of walking pattern in which each step makes a slapping noise.

How Do You Treat Superficial Peroneal Nerve Damage?

Orthotics, braces, and foot splints that fit inside a person's shoe are examples of nonsurgical treatments that can help. Physical therapyand gait retraining can aid in the individual's mobility. Peripheral nerve surgery may be required for certain injuries.

What Does The Superficial Peroneal Nerve Do?

The superficial peroneal nerve (superficial fibular nerve) is a mixed nerve that runs from the anterolateral side of the leg to the greater part of the dorsum of the foot (except for the first webspace).

Is Superficial Nerve Damage Permanent?

The superficial fibular nerve (SFN) is the new name for the superficial peroneal nerve. Foot and ankle surgeons must identify and treat entrapment of the SFN because failure to do so can result in permanent nerve damage.


The SPN has highly variable anatomy from its origin near the knee to its terminal branches near the dorsum of the foot, according to cadaveric studies. As a result, both foot and ankle surgeons and trauma surgeons need to be aware of these differences. The following are the key anatomical locations where the nerve is in danger: 1) in the lower leg (between 3 and 12 cm above the ankle joint); 2) over the distal fibula, where the SPN or IDCN crosses from posterior to anterior; 3) over the anterolateral ankle joint, where the SPN or its terminal branches extend to the foot; 4) over the first MTP joint, which is consistently supplied by a medial dorsal cutaneous branch.
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Suleman Shah

Suleman Shah

Suleman Shah is a researcher and freelance writer. As a researcher, he has worked with MNS University of Agriculture, Multan (Pakistan) and Texas A & M University (USA). He regularly writes science articles and blogs for science news website and open access publishers OA Publishing London and Scientific Times. He loves to keep himself updated on scientific developments and convert these developments into everyday language to update the readers about the developments in the scientific era. His primary research focus is Plant sciences, and he contributed to this field by publishing his research in scientific journals and presenting his work at many Conferences. Shah graduated from the University of Agriculture Faisalabad (Pakistan) and started his professional carrier with Jaffer Agro Services and later with the Agriculture Department of the Government of Pakistan. His research interest compelled and attracted him to proceed with his carrier in Plant sciences research. So, he started his Ph.D. in Soil Science at MNS University of Agriculture Multan (Pakistan). Later, he started working as a visiting scholar with Texas A&M University (USA). Shah’s experience with big Open Excess publishers like Springers, Frontiers, MDPI, etc., testified to his belief in Open Access as a barrier-removing mechanism between researchers and the readers of their research. Shah believes that Open Access is revolutionizing the publication process and benefitting research in all fields.
Han Ju

Han Ju

Hello! I'm Han Ju, the heart behind World Wide Journals. My life is a unique tapestry woven from the threads of news, spirituality, and science, enriched by melodies from my guitar. Raised amidst tales of the ancient and the arcane, I developed a keen eye for the stories that truly matter. Through my work, I seek to bridge the seen with the unseen, marrying the rigor of science with the depth of spirituality. Each article at World Wide Journals is a piece of this ongoing quest, blending analysis with personal reflection. Whether exploring quantum frontiers or strumming chords under the stars, my aim is to inspire and provoke thought, inviting you into a world where every discovery is a note in the grand symphony of existence. Welcome aboard this journey of insight and exploration, where curiosity leads and music guides.
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