Annals of Rehabilitation Medicine

"Tarsal tunnel syndrome"

Original Articles

Branching Patterns of Medial and Inferior Calcaneal Nerves Around the Tarsal Tunnel: Beom Suk Kim, Phil Woo Choung, Soon Wook Kwon, Im Joo Rhyu, Dong Hwee Kim; Ann Rehabil Med 2015;39(1):52-55. Published online February 28, 2015; DOI: https://doi.org/10.5535/arm.2015.39.1.52

Abstract
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Objective

To demonstrate the bifurcation pattern of the tibial nerve and its branches.

Methods

Eleven legs of seven fresh cadavers were dissected. The reference line for the bifurcation point of tibial nerve branches was an imaginary horizontal line passing the tip of the medial malleolus. The distances between the reference line and the bifurcation points were measured. The bifurcation branching patterns were categorized as type I, the pattern in which the medial calcaneal nerve (MCN) branched most proximally; type II, the pattern in which the three branches occurred at the same point; and type III, in which MCN branched most distally.

Results

There were seven cases (64%) of type I, three cases (27%) of type III, and one case (9%) of type II. The median MCN branching point was 0.2 cm (range, -1 to 3 cm). The median bifurcation points of the lateral plantar nerves and inferior calcaneal nerves was -0.6 cm (range, -1.5 to 1 cm) and -2.5 cm (range, -3.5 to -1 cm), respectively.

Conclusion

MCN originated from the tibial nerve in most cases, and plantar nerves were bifurcated below the medial malleolus. In all cases, inferior calcaneal nerves originated from the lateral plantar nerve. These anatomical findings could be useful for performing procedures, such as nerve block or electrophysiologic studies.

Citations

Citations to this article as recorded by

Unravelling the spatial relationships and inconsistencies of the tarsal tunnel: a comprehensive review and analysis
G. K. Bruechert, C. G. Thorpe Lowis, W. H. B. Edwards, Q. A. Fogg
Discover Medicine.2025;[Epub] CrossRef
Anatomical variations of the medial calcaneal nerve: a cadaveric study
D. G. Agafonov, G. A. Ayrapetov, M. S. Serdobintsev, N. I. Karpovich, R. A. Khanmuradov, D. G. Naumov, M. A. Djeriev
Genij Ortopedii.2025; 31(5): 551. CrossRef
Ultrasound Assessment of the Tibial Nerve at the Retromalleolar Level: Influence of Anthropometric Characteristics and Clinical Implications
María Benimeli-Fenollar, Cecili Macián-Romero, Lucía Carbonell-José, María José Chiva-Miralles, José Maria Montiel-Company, José Manuel Almerich-Silla, Rosa Cibrian, Vicent Tomás-Martínez
Clinics and Practice.2025; 15(12): 227. CrossRef
Morphometric assessment of tibial nerve and its branches around the ankle
Jeha Kwon, Hong Bum Park, Soonwook Kwon, Im Joo Rhyu, Dong Hwee Kim
Medicine.2024; 103(15): e37745. CrossRef
Clinical Results Following Conservative Management of Tarsal Tunnel Syndrome Compared With Surgical Treatment: A Systematic Review
Neeraj Vij, Heather N. Kaley, Christopher L. Robinson, Peter P. Issa, Alan D. Kaye, Omar Viswanath, Ivan Urits
Orthopedic Reviews.2022;[Epub] CrossRef
An MRI study of the tibial nerve in the ankle canal and its branches: a method of multiplanar reformation with 3D-FIESTA-C sequences
Yan Zhang, Xucheng He, Juan Li, Ju Ye, Wenjuan Han, Shanshan Zhou, Jianzhong Zhu, Guisheng Wang, Xiaoxia Chen
BMC Medical Imaging.2021;[Epub] CrossRef
The Study of Anatomy of Tarsal Tunnel in Human Fetuses by Dissection Method
B. R. Chaithra Rao, Sucharitha Annam, Sreepadma Sunkeswari, Sandeep Patil
National Journal of Clinical Anatomy.2021; 10(2): 66. CrossRef
Tibial Nerve Block: Supramalleolar or Retromalleolar Approach? A Randomized Trial in 110 Participants
María Benimeli-Fenollar, José M. Montiel-Company, José M. Almerich-Silla, Rosa Cibrián, Cecili Macián-Romero
International Journal of Environmental Research and Public Health.2020; 17(11): 3860. CrossRef
Anatomical study and branching point of neurovascular structures at the medial side of the ankle
Chanatporn Inthasan, Tanawat Vaseenon, Pasuk Mahakkanukrauh
Anatomy & Cell Biology.2020; 53(4): 422. CrossRef
Cryoanalgesia. Review
Dmitrii A. Svirskii, E. E. Antipin, N. A. Bochkareva, A. T. Ibragimov, M. P. Yakovenko, E. V. Nedashkovskii
Annals of Critical Care.2020; (4): 58. CrossRef
Fine dissection of the tarsal tunnel in 60 cases
Y. Yang, M. L. Du, Y. S. Fu, W. Liu, Q. Xu, X. Chen, Y. J. Hao, Z. Liu, M. J. Gao
Scientific Reports.2017;[Epub] CrossRef
MR Imaging Findings in Heel Pain
Ching-Di Chang, Jim S. Wu
Magnetic Resonance Imaging Clinics of North America.2017; 25(1): 79. CrossRef
Nervenengpasssyndrome des Ramus calcanearis lateralis (Baxter-Nerv) und Nervus plantaris medialis (Jogger-Nerv)
Andreas Elsner, Timm Filler, Alexej Barg, Jonas Andermahr
Fuß & Sprunggelenk.2015; 13(4): 237. CrossRef

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Tarsal Tunnel Syndrome Combined with Diabetic Neuropathy.: Sim, Eun Geol , Han, Soo Jeong , Yoon, Tae Sik , Lee, Mee Jin , Hong, Young Sun; J Korean Acad Rehabil Med 2008;32(6):693-697.

Abstract
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Objective: To investigate the frequency of tarsal tunnel syndrome (TTS) in the diabetic neuropathy patients. Method: Electrodiagnostic study was performed to diagnose diabetic neuropathy and tarsal tunnel syndrome (TTS) in 56 patients (male 25, female 31) with diabetes mellitus. The frequency of combined TTS in diabetic neuropathy patients was calculated. Results: Out of 56 diabetic patients, 52 patients were diagnosed as diabetic peripheral neuropathy. The frequency of concomitant TTS was 22 cases in 52 diabetic patients with diabetic neuropathy. Conclusion: In diabetic neuropathy group, the frequency of TTS was higher than general population. (J Korean Acad Rehab Med 2008; 32: 693-697)

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Transtarsal Conduction Velocities of Medial and Lateral Plantar Nerve Recorded by Orthodromic Near-Nerve Recordings.: Kwon, Hee Kyu; J Korean Acad Rehabil Med 2000;24(2):225-229.

Abstract
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Objective: Tarsal tunnel syndrome (TTS) is relatively rare and can be difficult to diagnose with conventional electrodiagnostic techniques. To increase the diagnostic sensitivity, we measured transtarsal conduction velocities of medial and lateral plantar nerves recorded by orthodromic near-nerve recording.

Method: Twenty normal subjects (aged 24∼59) were studied. For below flexor retinaculum (BFR) recordings, near-nerve needle recording electrodes were positioned posteriorly to the flexor digitorum longus tendon in medial plantar nerve and anteriorly to the calcaneus in lateral plantar nerve at the level of lower border of medial malleolus. For above flexor retinaculum (AFR) recordings, near-nerve needle recording electrodes were positioned anteriorly to the Achilles tendon 4 cm proximal to the BFR recording electrodes in medial and lateral plantar nerves. Stimulating ring electrodes were placed to the digit I and V.

Results: Transtarsal latencies and conduction velocities for medial plantar nerve were 0.7⁑0.1 msec, 56⁑6 m/sec, respectively. Transtarsal latencies and conduction velocities for lateral plantar nerve were 0.8⁑0.1 msec, 54⁑6 m/sec, respectively.

Conclusion: This approach may improve the diagnostic sensitivity in TTS.