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- Author or Editor: A. Lee Dellon x
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The authors conducted a retrospective review of 16 patients who presented with the complaint of pain at the incision site after tarsal tunnel decompression. Specifically, the pain was located at the proximal aspect of the tarsal tunnel decompression scar. The mean duration of pain was 21 months (range, 6 to 34 months). The pain was eliminated by a block of the distal saphenous nerve, demonstrating that the pain was due to a neuroma of this nerve. The pain was treated by resection of the distal saphenous nerve in the distal leg and implantation of the proximal end of this nerve into the soleus muscle. At a mean of 18.5 months after surgery (range, 6 to 33 months), excellent relief of pain was achieved in 76% of cases and good relief of pain in 24% of cases. (J Am Podiatr Med Assoc 91(3): 109-113, 2001)
Multiple Schwannomas of the Foot
Case Report and Strategy for Treatment
Determining the appropriate treatment of a benign tumor of a peripheral nerve in the foot and ankle region presents a clinical dilemma, as resection of the tumor will cause loss of nerve function and create the possibility of a painful neuroma. Several surgical solutions to this problem were used in the care of a patient who presented with painful bilateral Morton’s neuromas and was found to have bilateral schwannomas on pathologic examination of the resected nerves. Subsequent evaluation for recurrent bilateral foot pain demonstrated multiple tumors along the tibial nerve in one foot. The patient also became aware of a painful mass on the dorsolateral aspect of one foot. Review of the treatment options for this patient with multiple schwannomas provides a framework for decision making in the care of the patient with benign neural tumors of the foot. (J Am Podiatr Med Assoc 93(1): 51-57, 2003)
Sinus Tarsi Denervation
Clinical Results
Traumatic neuroma of the branches of the deep peroneal nerve that innervate the sinus tarsi can be the source of recalcitrant lateral ankle pain. That these nerves can be the source of the pain can be demonstrated by nerve blocks, and this pain can be surgically treated by resection of the appropriate branch of the deep peroneal nerve. This article documents the clinical results of this approach in 13 patients with sinus tarsi syndrome. At a minimum of 6 months postoperatively, 10 patients (77%) were completely pain-free, wore normal shoes, and had returned to work. Two patients (15%) had a small degree of residual pain but resumed usual activities and wore normal footwear. One patient had some pain relief but could not resume usual activities. We conclude that denervation of the sinus tarsi can relieve recalcitrant pain emanating from the sinus tarsi. This approach may reduce the need for subtalar fusion or evacuation procedures, including arthroereisis, thus avoiding their potential complications. Moreover, sinus tarsi denervation may allow the continued use of an arthroereisis implant in the presence of satisfactory objective findings, despite the subjective presence of postoperative pain. (J Am Podiatr Med Assoc 95(2): 108–113, 2005)
Previous anatomic studies of the medial heel region were done on embalmed human cadavers. Here, the innervation of the medial heel region was studied by dissecting living tissue with the use of 3.5-power loupe magnification during decompression of the medial ankle for tarsal tunnel syndrome in 85 feet. The medial heel was found to be innervated by just one medial calcaneal nerve in 37% of the feet, by two medial calcaneal nerves in 41%, by three medial calcaneal nerves in 19%, and by four medial calcaneal nerves in 3%. An origin for a medial calcaneal nerve from the medial plantar nerve was found in 46% of the feet. This nerve most often innervates the skin of the posteromedial arch, where it is at risk for injury during calcaneal spur removal or plantar fasciotomy. Knowledge of the variations in location of the medial calcaneal nerves may prevent neuroma formation during surgery and provide insight into the variability of heel symptoms associated with tarsal tunnel syndrome. (J Am Podiatr Med Assoc 92(2): 97-101, 2002)
Tarsal Tunnel Surgery for Treatment of Tarsal Ganglion
A Rewarding Operation with Devastating Potential Complications
Three patients who originally presented with a mass in the tarsal tunnel are described to develop an algorithm for management of the tarsal ganglion. All three patients had complications from ganglion excision, including complete division of the posterior tibial nerve, injury to the posterior tibial artery, and ganglion recurrence. The guiding principles relating to the presence of an extraneural versus an intraneural ganglion are developed. An example of a posterior tibial intraneural ganglion is presented. (J Am Podiatr Med Assoc 95(5): 459–463, 2005)
Evaluation of Pressure Threshold Prior to Foot Ulceration
One- versus Two-Point Static Touch
A prospective study of 29 patients with diabetic neuropathy and 47 nondiabetic patients with tarsal tunnel syndrome were evaluated with computer-assisted neurosensory testing at three sites on the foot. The sensitivity and specificity of one-point static touch thresholds for identifying the presence of large fiber axonal loss was done using the calculated thresholds for monofilaments derived from their markings. The sensitivity for one-point static touch in identifying axonal loss was 33% for the 5.07, 38% for the 4.93, 50% for the 4.17, and 60% for the 4.08 monofilament-equivalent, with a specificity of 100% at each level. Therefore, one-point static touch testing, even using monofilaments thinner than 5.07, has a high percentage of false-negative results in identifying patients with axonal loss. (J Am Podiatr Med Assoc 91(10): 508-514, 2001)
Testing for Loss of Protective Sensation in Patients with Foot Ulceration
A Cross-sectional Study
Current recommendations for the prevention of foot ulceration and amputation include screening at-risk individuals by testing for loss of protective sensation at eight sites using 10-g (5.07) nylon monofilaments. Yet measurement of the cutaneous pressure threshold to differentiate one-point from two-point static touch stimuli may allow identification of these at-risk individuals earlier in the clinical course of diabetic neuropathy. The present study tested this hypothesis using a prospective, cross-sectional, multicenter design that included sensibility testing of 496 patients with diabetic neuropathy, 17 of whom had a history of ulceration or amputation. Considering the cutaneous pressure threshold of the 5.07 Semmes-Weinstein nylon monofilament to be equivalent to the 95 g/mm2 one-point static touch measured using the Pressure-Specified Sensory Device (Sensory Management Services LLC, Baltimore, Maryland), only 3 of these 17 patients with a history of foot ulceration or amputation would have been identified using the Semmes-Weinstein nylon monofilament screening technique. In contrast, using the Pressure-Specified Sensory Device, all 17 patients were identified as having abnormal sensibility, defined as greater than the 99% confidence limit for age, for two-point static touch on the hallux pulp. We conclude that patients at risk for foot ulceration can best be identified by actual measurement of the cutaneous sensibility of the hallux pulp. (J Am Podiatr Med Assoc 95(5): 469–474, 2005)
Medial forefoot pain, or midarch pain, is usually attributed to plantar fasciitis. The authors present their findings of a previously unreported nerve entrapment of the medial proper plantar digital nerve (MPPDN). Ten fresh-frozen cadaveric specimens were analyzed for anatomical variance in the nerve distribution of the MPPDN. In addition, clinical results from a retrospective review of nine patients who underwent surgical nerve decompression of the MPPDN are presented. Significant anatomical variance was found for the MPPDN in the cadaveric dissection of 10 fresh-frozen specimens. Nine patients with a clinical diagnosis of entrapment of the MPPDN all obtained excellent pain relief with surgical external neurolysis. Only one complication occurred: a hypertrophic scar formation that was successfully treated with intralesional steroid injections. The authors believe that this MPPDN entrapment is often overlooked or misdiagnosed as plantar fasciitis. Surgical peripheral nerve decompression of this nerve can provide positive outcomes for patients suffering from midarch foot pain caused by this pain generator.
Measurement of large-fiber peripheral nerve function is critical to the assessment of patients with nerve injury, chronic nerve compression, and neuropathy. We evaluated the Semmes-Weinstein nylon monofilament (SWM), vibrometry, and the Pressure-Specified Sensory Device (PSSD) (Sensory Management Services LLC, Baltimore, Maryland) prospectively on the plantar surface of the hallux, bilaterally, in 35 patients with peripheral nerve problems related to nerve compression and neuropathy. Five patients had carpal tunnel syndrome and, therefore, had normal hallux measurements. Normative data for the SWM were obtained for 59 age-stratified people. A moderately strong Pearson product moment correlation was found for large-fiber nerve function between the PSSD and the SWM and between the PSSD and vibrometry. However, when these functions were compared with normative values for each neurosensory testing technique, sensitivity for detecting the presence of a peripheral nerve problem was 100% for the PSSD, 63% for the SWM, and 30% for vibrometry. False-positive test results were obtained for the hallux in 0% of normal feet when the PSSD was used, in 20% when vibrometry was used, and in 30% when the SWM was used as the test instrument. The PSSD was the most sensitive in identifying the presence of a large-fiber peripheral nerve problem in patients with pain or paresthesia in the foot related to the posterior tibial nerve. (J Am Podiatr Med Assoc 95(5): 438–445, 2005)