Annals of Rehabilitation Medicine

Branching Patterns and Anatomical Course of the Common Fibular Nerve: Goo Young Kim, Chae Hyeon Ryou, Ki Hoon Kim, Dasom Kim, Im Joo Rhyu, Dong Hwee Kim; Ann Rehabil Med 2019;43(6):700-706. Published online December 31, 2019; DOI: https://doi.org/10.5535/arm.2019.43.6.700

Abstract
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Objective
To present the branching patterns and anatomical course of the common fibular nerve (CFN) and its relationship with fibular head (FH).
Methods
A total of 21 limbs from 12 fresh cadavers were dissected. The FH width (FH_width), distance between the FH and CFN (FH_CFN), and thickness of the nerve were measured. The ratio of the FH_CFN to FH_width was calculated as follows: <1, cross type and ≥1, posterior type. Angle between the CFN and vertical line of the lower limb 5 cm proximal to the tip of the FH was measured. Branching patterns of the lateral cutaneous nerve of the calf (LCNC) were classified into four types according to its origin and direction as follows: type 1a, lateral margin of the CFN; type 1b, medial margin of the CFN; type 2, lateral sural cutaneous nerve (LSCN); and type 3, CFN and LSCN.
Results
In the cross type (15 cases, 71.4%), the ratio of FH_CFN/FH_width was 0.83 and the angle was 13.0°. In the posterior type (6 cases, 28.6%), the ratio was 1.04 and the angle was 11.0°. In the branching patterns of LCNC, type 2 was the most common (10 cases), followed by types 1a and 1b (both, 5 cases).
Conclusion
Location of the CFN around the FH might be related to the development of its neuropathy, especially in the cross type of CFN. The LCNC showed various branching patterns and direction, which could be associated with difficulties of electrophysiologic testing.

Citations

Citations to this article as recorded by

Axonal profiling of the common fibular nerve and its branches: Their functional composition and clinical implications
Taeyeon Kim, Tae‐Hyeon Cho, Shin Hyung Kim, Hun‐Mu Yang
Clinical Anatomy.2024;[Epub] CrossRef
Intraneural Topography and Branching Patterns of the Common Peroneal Nerve: Studying the Feasibility of Distal Nerve Transfers
Elliot L.H. Le, Taylor H. Allenby, Marlie Fisher, Ryan S. Constantine, Colin T. McNamara, Caleb Barnhill, Anne Engemann, Orlando Merced-O’Neill, Matthew L. Iorio
Plastic and Reconstructive Surgery - Global Open.2024; 12(10): e6258. CrossRef
Fluoroscopically-guided therapeutic injection of the proximal tibiofibular joint in a patient with lateral knee pain
Cooper Dean, Ivan Davis, David Alvarez
Radiology Case Reports.2020; 15(12): 2510. CrossRef

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Diagnostic Cutoff Value for Ultrasonography of the Common Fibular Neuropathy at the Fibular Head: Ji Yeon Kim, Seojin Song, Hye Jung Park, Won Ihl Rhee, Sun Jae Won; Ann Rehabil Med 2016;40(6):1057-1063. Published online December 30, 2016; DOI: https://doi.org/10.5535/arm.2016.40.6.1057

Abstract
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Objective

To establish the diagnostic cutoff value of ultrasonographic measurement for common fibular neuropathy (CFN) at the fibular head (FH).

Methods

Twenty patients with electrodiagnostically diagnosed CFN at the FH and 30 healthy controls were included in the study. The cross-sectional area (CSA) of sciatic nerve at mid-thigh level, common fibular nerve at popliteal fossa (PF), and common fibular (CF) nerve at FH were measured. Additionally, the difference of CF nerve CSA at the FH between symptomatic side and asymptomatic side (ΔSx–Asx), the ratio of CF nerve CSA at FH to at PF (FH/PF), and the ratio of CF nerve CSA at the FH symptomatic side to asymptomatic side (Ratio Sx–Asx) were calculated.

Results

CSA at the FH, FH/PF, ΔSx–Asx, and Ratio Sx–Asx showed significant differences between the patient and control groups. The cutoff value for diagnosing CFN at the FH was 11.7 mm² for the CSA at the FH (sensitivity 85.0%, specificity 90.0%), 1.70 mm² for the ΔSx–Asx (sensitivity 83.3%, specificity 97.0%), 1.11 for the FH/PF (sensitivity 47.1%, specificity 93.3%), and 1.24 for the Ratio Sx–Asx (sensitivity 72.2%, specificity 96.7%).

Conclusion

The ultrasonographic measurement and cutoff value could be a valuable reference in diagnosing CFN at the FH and improving diagnostic reliability and efficacy.

Citations

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Peripheral nerve ultrasound: a survival guide for the practicing radiologist with updates
Mohamed Ragab Nouh, Hoda Mohamed Abdel-Naby, Tarek El Sakka, Mohamed El-Shafei
The Ultrasound Journal.2025;[Epub] CrossRef
Electrodiagnostic studies and new diagnostic modalities for evaluation of peripheral nerve disorders
Andrew Hannaford, Elijah Paling, Matthew Silsby, Sanne Vincenten, Nens van Alfen, Neil G. Simon
Muscle & Nerve.2024; 69(6): 653. CrossRef
Ultrahigh‐frequency ultrasound of fascicles in the common fibular, superficial fibular, and sural nerves
James B. Meiling, Nirmal Andrapalliyal, Marisa Barclay McGhee, Vanessa Baute Penry, Michael S. Cartwright, Rachana K. Gandhi Mehta
Muscle & Nerve.2024; 69(5): 631. CrossRef
Diagnostic accuracy of ultrasound and MR imaging in peroneal neuropathy: A prospective, single‐center study
Christophe Oosterbos, Olaf De Weerdt, Matthias Lembrechts, Ahmed Radwan, Peter Brys, Marius Brusselmans, Kris Bogaerts, Ronald Peeters, Anaïs Van Hoylandt, Sophie Hoornaert, Robin Lemmens, Tom Theys
Muscle & Nerve.2024; 70(3): 360. CrossRef
Deep peroneal neuropathy induced by prolonged squatting: a case report
Hyun-Seok Jo, Ki-Hong Kim, Min-Keun Song, Hyeng-Kyu Park, In Sung Choi, Jae-Young Han
Frontiers in Neuroanatomy.2024;[Epub] CrossRef
Sonographic peripheral nerve cross‐sectional area in adults, excluding median and ulnar nerves: A systematic review and meta‐analysis
Sarah F. Eby, Masaru Teramoto, Joshua Lider, Madison Lash, Marc Caragea, Daniel M. Cushman
Muscle & Nerve.2023; 68(1): 20. CrossRef
Post operation neuropathy of common peroneal nerve resulting in foot drop
Ming Tan
Sonography.2023; 10(3): 127. CrossRef
Fibular tunnel syndrome (modern principles of diagnosis and treatment)
A. V. Yarikov, M. V. Shpagin, О. А. Perlmutter, A. P. Fraerman, E. F. Komkova, I. N. Nizhegolenko
Vestnik nevrologii, psihiatrii i nejrohirurgii (Bulletin of Neurology, Psychiatry and Neurosurgery).2023; (5): 349. CrossRef
Fibular canal syndrome: modern principles of diagnosis and treatment
A. Yarikov, O. Makeeva, А. Baitinger, О. Perlmutter, A. Fraerman, V. Baitinger, K. Selyaninov, S. Tsybusov, S. Pardaev, E. Pavlova
Vrach.2023; 34(9): 5. CrossRef
Evidence in peroneal nerve entrapment: A scoping review
Christophe Oosterbos, Thomas Decramer, Sofie Rummens, Frank Weyns, Annie Dubuisson, Jeroen Ceuppens, Sophie Schuind, Justus Groen, Johannes van Loon, Lukas Rasulic, Robin Lemmens, Tom Theys
European Journal of Neurology.2022; 29(2): 665. CrossRef
Shear wave elastography of the common fibular nerve at the fibular head
Mohamed A. Bedewi, Bader Abdullah Alhariqi, Nasser M. Aldossary, Ayman H. Gaballah, Kholoud J. Sandougah, Mamdouh A. Kotb
Medicine.2022;[Epub] CrossRef
Cross-sectional area reference values for high-resolution ultrasonography of the lower extremity nerves in healthy Korean adults
Dae Woong Bae, Jae Young An
Medicine.2022; 101(26): e29842. CrossRef
Impact of anatomical variations on ultrasonographic reference values of lower extremity peripheral nerves
Junichiro Kuga, Akemi Hironaka, Kazuhide Ochi, Takamichi Sugimoto, Masahiro Nakamori, Tomohisa Nezu, Hirofumi Maruyama
Muscle & Nerve.2021; 63(6): 890. CrossRef
Review Article “Spotlight on Ultrasonography in the Diagnosis of Peripheral Nerve Disease: The Evidence to Date”
Andrew Hannaford, Steve Vucic, Matthew C Kiernan, Neil G Simon
International Journal of General Medicine.2021; Volume 14: 4579. CrossRef
Peripheral nerve adaptations to 10 days of horizontal bed rest in healthy young adult males
Paolo Manganotti, Alex Buoite Stella, Milos Ajcevic, Filippo Giorgio di Girolamo, Gianni Biolo, Martino V. Franchi, Elena Monti, Giuseppe Sirago, Uros Marusic, Bostjan Simunic, Marco V. Narici, Rado Pisot
American Journal of Physiology-Regulatory, Integrative and Comparative Physiology.2021; 321(3): R495. CrossRef
Assessment of lower limb peripheral nerves with ultrasound in patients with traumatic amputation
İlkay Karabay, Yasin Demir, Özlem Köroğlu, Sefa Gümrük Aslan, Koray Aydemir, Eda Gürçay
Turkish Journal of Physical Medicine and Rehabilitation.2021; 67(3): 357. CrossRef
Current and future applications of ultrasound imaging in peripheral nerve disorders
Antonia S Carroll, Neil G Simon
World Journal of Radiology.2020; 12(6): 101. CrossRef
Ultrasound-Guided Nerve Hydrodissection for Pain Management: Rationale, Methods, Current Literature, and Theoretical Mechanisms

King Hei Stanley Lam, Chen-Yu Hung, Yi-Pin Chiang, Kentaro Onishi, Daniel Chiung Jui Su, Thomas B Clark, K Dean Reeves
Journal of Pain Research.2020; Volume 13: 1957. CrossRef
Ultrasound in the diagnosis and management of fibular mononeuropathy
Julie N. Bucklan, John A. Morren, Steven J. Shook
Muscle & Nerve.2019; 60(5): 544. CrossRef
Estimation of ultrasound reference values for the lower limb peripheral nerves in adults
Mohamed Abdelmohsen Bedewi, Ahmed Abodonya, Mamdouh Kotb, Sanaa Kamal, Gehan Mahmoud, Khaled Aldossari, Abdullah Alqabbani, Sherine Swify
Medicine.2018; 97(12): e0179. CrossRef

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Optimal Stimulation Site for Deep Peroneal Motor Nerve Conduction Study Around the Ankle: Cadaveric Study: Ki Hoon Kim, Dong Hwee Kim, Hyeong Suk Yun, Byung Kyu Park, Ji Eun Jang; Ann Rehabil Med 2012;36(2):182-186. Published online April 30, 2012; DOI: https://doi.org/10.5535/arm.2012.36.2.182

Abstract
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Objective

To identify the optimal distal stimulation point for conventional deep peroneal motor nerve (DPN) conduction studies by a cadaveric dissection study.

Method

DPN was examined in 30 ankles from 20 cadavers. The distance from the DPN to the tibialis anterior (TA) tendon was estimated at a point 8 cm proximal to the extensor digitorum brevis (EDB) muscle. Relationships between the DPN and tendons including TA, extensor hallucis longus (EHL), and extensor digitorum longus (EDL) tendons were established.

Results

The median distance from the DPN to the TA tendon in all 30 cadaver ankles was 10 mm (range, 1-21 mm) at a point 8 cm proximal to the EDB muscle. The DPN was situated between EHL and EDL tendons in 18 cases (60%), between TA and EHL tendons in nine cases (30%), and lateral to the EDL tendon in three cases (10%).

Conclusion

The optimal distal stimulation point for the DPN conduction study was approximately 1 cm lateral to the TA tendon at the level of 8 cm proximal to the active electrode. The distal stimulation site for the DPN should be reconsidered in cases with a weaker distal response but without an accessory peroneal nerve.

Citations

Citations to this article as recorded by

Optimal Needle Placement for Extensor Hallucis Longus Muscle: A Cadaveric Study
In Yae Cheong, Do Kyun Kim, Ye Jeong Oh, Byung Kyu Park, Ki Hoon Kim, Dong Hwee Kim
Annals of Rehabilitation Medicine.2016; 40(3): 457. CrossRef

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Reference Value for the Cross Sectional Area of Fibular Nerve Ultrasonography through the Anatomic Investigation in Korean.: Park, Ki Cheol , Kwon, Dong Rak , Kim, Min Young , Lee, Hak Il , Ha, Doo Hoe , Hwang, Tae Sun; J Korean Acad Rehabil Med 2011;35(2):224-228.

Abstract
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Objective
To investigate the reference value for cross sectional area (CSA) of the fibular nerve in Koreans. Method One musculoskeletal radiologist and one physiatrist performed fibular nerve ultrasonography (US) on 60 lower extremities of 30 asymptomatic Korean volunteers (16 males, 14 females). The mean age was 46.6 years (range: 21-75 years). We measured CSA of the fibular nerve at three sites: proximal portion (PP) at the bifurcation, mid-portion (MP), and an area just above the fibular head (FH). In addition, the fibular nerves of 7 lower extremities from 4 cadavers were cut from the fibular head to the proximal portion and divided into three sections (PP, MP, FH). They were subsequently fixed with 10% neutral buffered formalin and perpendicularly excised to 2 mm thickness. They were photographed by an operating microscope and CSA was measured. Using the Kruskal-Wallis test, measurements obtained from US images were compared between asymptomatic volunteers with a significance level of 0.05. Results In asymptomatic volunteers, the CSA of the three portions were PP: 13.8±1.2 mm², MP: 11.1±1.0 mm², FH: 10.9±0.6 mm². The fibular nerves were well visualized with clear borders by US. In cadavers, the CSA of three portions were PP: 20.3±10.3 mm², MP: 16.7±8.6 mm², FH: 14.4±8.9 mm². There was no significant difference between the three portions in asymptomatic volunteers and cadavers (p＞0.05). Conclusion In normal Korean adults, the area of fibular nerve at the fibular head is 10.9±0.6 mm². Ultrasonographic evaluation of the fibular nerve can be helpful in diagnosing fibular nerve lesions.

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Dorsal Root Ganglion Location and Superficial Peroneal Sensory Nerve Action Potential Response in L5 Radiculopathy.: Lee, Jung Soo , Min, Ji Hye; J Korean Acad Rehabil Med 2009;33(3):309-315.

Abstract
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Objective
To find the correlation between dorsal root ganglion location and abnormal superficial peroneal sensory nerve action potential (SNAP) response in L5 radiculopathy. Method: This retrospective study included thirty-three patients with unilateral L5 radiculopathy, who had no peripheral polyneuropathy, focal neuropathy or other metabolic disease and were under 60 years. 33 patients were classified to two groups: group I with an abnormal superficial peroneal SNAP response and group II with a normal superficial peroneal SNAP response. Using axial view of MRI, the location of dorsal root ganglion (DRG) of the study group was classified into intraspinal, intraforaminal and extraforaminal space. Results: In group I, 71% of L4 dorsal root ganglion was located in intraforaminal space, and 14% in extraforaminal space and 64% of L5 DRG was in intraforaminal space and 14% in intraspinal. In Group II, 42% of L4 DRG was located in intraforaminal space, and 58% in extraforaminal and 26% of L5 DRG in intraforaminal space and 63% in extraforaminal space. Group I subjects were more located in the intraforaminal space than Group II subjects (p＜0.05). Conclusion: In spite of belief that "radiculopathy involves the nerve root proximal to DRG", the significant proportion of dorsal root ganglion was located inside intraforaminal space. Thus the intraspinal lesion such as disc protrusion or spondylotic encroachment may compress DRG and cause abnormal findings of SNAP in EMG study. (J Korean Acad Rehab Med 2009; 33: 309-315)

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New Method and Usefulness of Study on Sensory Nerve Conduction of Lateral Sural Cutaneous Nerve.: Ryu, Gi Hyeong , Nam, Ki Yeun , Jun, Jae Yong , Sim, Young Joo , Choi, Jong Ho , Kwon, Bum Sun , Park, Jin Woo , Lim, Hyun Sul; J Korean Acad Rehabil Med 2008;32(3):300-304.

Abstract
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Objective
To find a new method and usefulness of study on sensory nerve conduction of lateral sural cutaneous nerve (LSCN). Method: The 60 extremities of 30 adults without peripheral neuropathy were placed in a prone position. Next, each subject was administered with an antidromic stimulation at a point 3 cm lateral from the center of the popliteal fossa. With the aid of active electrodes, the sensory nerve action potentials (SNAPs) were recorded at points 10 cm inferior and 1 cm lateral to the stimulation site. The method of sensory nerve conduction study suggested by Campagnolo et al. was performed simultaneously, to compare of the frequency of SNAPs and the amplitudes. Results: For the sensory nerve conduction study of the LSCN suggested in this report, SNAPs were obtained in 49 extremities, with a revelation rate of 81.7%. The mean amplitude was 11.91±3.68ՌV. In the results of the tests suggested by Campagnolo et al., the SNAPs were obtained in 29 extremities, with a revelation rate of 48.3%. The mean amplitude was 8.37±5.21ՌV. Significance testing of the electrodiagnostic method recommended in this study revealed that many SNAPs were observed for the LSCN, with statistically significant action potential amplitudes. Conclusion: This study presents the new method and reference values of sensory nerve conduction for LSCN, which is thought to be useful in electrodiagnostic studies to diagnose entrapment neuropathy. (J Korean Acad Rehab Med 2008; 32: 300-304)

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Common Peroneal Nerve Palsy Caused by an Intraneural Ganglion : A case report.: Park, Gi young , Bae, Jung ho , Lee, So young , Lee, Sung mun , Song, Kwang sun; J Korean Acad Rehabil Med 2006;30(3):289-293.

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To date, very few cases with intraneural ganglion cyst of the peroneal nerve has been reported. The common symptoms include localized pain and various degrees of motor and sensory deficits. Though electrodiagnostic study has been useful in lesion localization, recent imaging studies, such as ultrasonography and magnetic resonance imaging, should be used in establishing differential diagnosis and extent of a lesion preoperatively. Treatment can be achieved by microsurgical removal of the cyst. We had a 74 year old female with right foot drop for 3 months and we diagnosed that she had intraneural ganglion of the peroneal nerve using physical examination, electrodiagnostic study, ultrasonography, and magnetic resonance imaging. Although there was no specific symptom on the left side, there was a similar lesion like that of right intraneural ganglion, that was detected by ultrasonography. However, the patient's neurologic symptoms have not improved after operation. (J Korean Acad Rehab Med 2006; 30: 289-293)

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Clinical Implication of Long-Standing Delayed Plantar Reflex after Spinal Cord Injury: Case report .: Ko, Hyun Yoon , Park, Ho Joon , Lee, Jong Eon; J Korean Acad Rehabil Med 2000;24(1):154-156.

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When recovery of specific reflexes after acute spinal cord injury are delayed or absent, we should consider an acute local complication or other factors that influence reflex function. We observed three spinal cord injury cases with a long-standing delayed plantar reflex and no evolution of Babinski sign despite enough recovery time had passed for the flexor spasm and all deep tendon reflexes of the lower extremities. In these cases we confirmed common peroneal nerve neuropathy at the fibular head by the nerve conduction study and electromyography. Long-standing delayed plantar reflex without evolution of Babinski sign, beyond expected recovery period, would be considered as a sign of local complication such as common peroneal nerve injury.

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Peroneal Nerve Entrapment Caused by an Atypical Popliteal Cyst in a Child: A case report.: Park, Jae Heung , Cha, Young Hoon , Park, Byung Kyu , Yoo, Chong Ill; J Korean Acad Rehabil Med 1997;21(5):1030-1034.

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Baker's cyst is commonly associated with intraarticular pathology such as degenerative arthritis. Few cases of neural compression by a Baker's cyst in the popliteal fossa have been reported with intraarticular pathology. We report a case of peroneal nerve compression by an atypical Baker's cyst in a child without intraarticular pathology. A 10-year-old boy had 6-month history of the left foot drop without a known trauma. There was no swelling or pain in the knee. The electrodiagnostic study demonstrated a profound lesion of the deep peroneal nerve and a mild denervation of the superfical peroneal nerve. Magnetic resonance images displayed an atypical Baker's cyst originating from the popliteal fossa and extending to the posterolateral side of the fibular head. Clinical and electrophysiological findings improved after aspiration of the cyst.

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Superficial Peroneal Nerve Conduction Study.: Lee, Zee Ihn , Lee, Yang Soo , Kim, Poong Taek; J Korean Acad Rehabil Med 1997;21(2):330-334.

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Sixteen legs in eight cadavera were dissected to observe the anatomic course of the superficial peroneal nerve around the ankle and the superficial peroneal sensory conduction study was performed in twenty-eight normal subjects. The anatomic course of the superficial peroneal nerve around the ankle was in two types, type I and type II. Type I was 13 cases(81%) and type II was 3 cases(19%). In type I, the nerve penetrated the crural fascia and became subcutaneous at 8.8⁑1.1 cm proximal to the ankle joint and divided into two major branches at 2.6⁑1.1 cm proximal to the ankle. Medial and intermediate dorsal cutaneous nerves were located at 47%(⁑3.4%) and 35%(⁑4.9%) of the intermalleolar distance from lateral malleolus, respectively. In type II, the medial and intermediate dorsal cutaneous nerve arose seperately from the superficial peroneal nerve at 8.0⁑0.9 cm proximal to the ankle joint. Medial and intermediate dorsal cutaneous nerves were located at 49%(⁑5.6%) and 33%(⁑4.0%) of the intermalleolar distance from the lateral malleolus, respectively. Superficial peroneal sensory conduction study was performed based on the findings of type I. The mean distal latencies and amplitudes were 3.21⁑0.35 msec, 12.1⁑3.37 ㄍV and 3.17⁑0.37msec, 14.54⁑4.60 ㄍV in medial and intermediate dorsal cutaneous nerves, respectively.