Novel, user‐friendly landmarks for localizing Baxter's nerve: A cadaveric study

• Published in: Clinical anatomy (New York, N.Y.) Vol. 34; no. 7; pp. 1022 - 1027
• Main Authors: Kim, Inah, Nam, Kyung Eun, Kang, Minsuk, Ahn, Min Young, Lee, Jong In, Nam, Yong Seok
• Format: Journal Article
• Language: English
• Published: Hoboken, USA John Wiley & Sons, Inc 01.10.2021; Wiley Subscription Services, Inc
• Subjects: Baxter nerve; cadaver; Cadavers; Calcaneus; Cartesian coordinates; Entrapment; Feet; impingement; lateral plantar nerve; Muscles; ultrasonography; lateral plantar nerve; Baxter nerve; impingement; ultrasonography; cadaver
• ISSN: 0897-3806; 1098-2353
• DOI: 10.1002/ca.23707

Introduction Identification of Baxter's nerve (BN) has proven challenging for less experienced practitioners using ultrasonography due to a lack of adequate landmarks. This study aimed to establish novel, user‐friendly anatomical landmarks and to describe useful structures to localize BN. Materials and Methods We examined 10 fresh cadaveric feet and identified the interobserver agreement of measuring three surface landmarks: the most medially protruded point on the medial malleolus (P), the navicular tuberosity (Q), and the center of the calcaneus (B). Next, 24 fresh cadaveric feet were used to identify the point of BN entry into the quadratus plantae (QP) muscle, which corresponds to the proximal BN impingement site. The rectangular coordinate system consisted of the origin (point P), X‐axis, extension line P–Q, and Y‐axis (the perpendicular line to the X‐axis). To consider various foot sizes, the X and Y values were divided by the P–Q length and were designated as the ratios X and Y. Results Points P and Q showed smaller interobserver differences than that of point B. Ratios X and Y were 61.25 and 99.80%, respectively, for the QP. BN arose from the lateral plantar nerve in 20 of 24 specimens. The adjacent vessel was <3 mm from the entrapment site of BN in 20 of 24 specimens. Conclusion New landmarks will improve the precision of localizing the entrapment site of BN and will provide advanced guidelines for podiatric patients.