ABSTRACT
ObjectiveTo compare the effect of three kinds of intrinsic foot muscle exercise on flatfoot. MethodsFrom September to November, 2022, 45 subjects with flatfoot from Capital University of Physical Education and Sports were randomly divided into short foot exercise (SFE) group (n = 15), toe-spread-out exercise (TSOE) group (n = 15) and short foot & toe-spread-out exercise (SF+TSOE) group (n = 15), who received SFE, TSOE and SF+TSOE, respectively, for eight weeks. The cross-sectional area of abductor hallucis muscle, navicular drop test (NDT) and Chippaux-Smirak index (CSI) were measured before treatment, four weeks after treatment and eight weeks after treatment. ResultsThree subjects dropped out in each group. The main effect of time was significant for left and right cross-sectional area of abductor hallucis muscle, NDT and CSI (F > 13.906, P < 0.001). The main effect of group was not significant for left and right cross-sectional area of abductor hallucis muscle, NDT and CSI (F < 1.934, P > 0.05). The interaction effect of group and time was significant for left and right NDT (F > 3.044,P < 0.05), and it was better in SF+TSOE group than in SFE group and TSOE group (P < 0.05). ConclusionSF and TSOE can improve the cross-sectional area of abductor hallucis muscle and foot morphology in subjects with flatfoot, and the combination of them may be more effective.
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The medial and lateral plantar nerves are branched from the tibial nerve and move to the tip of the toes. A variation of medial plantar nerve was found on the left side of a 78-year-old Korean male cadaver. The tibial nerve was divided into the lateral and medial plantar nerves beneath the plantar flexor. The medial plantar nerve passed deep to plantar aponeurosis and superficial to the flexor digitorum brevis. It gave off a common plantar digital nerve and then divided into three proper plantar digital nerves near the metatarsal bases. In this article, we report a superficial course of the medial plantar nerve and describe its unique morphology and discuss the clinical significance of this variation.
Subject(s)
Aged , Humans , Male , Cadaver , Metatarsal Bones , Tibial Nerve , ToesABSTRACT
The aim of this study was to group arteries of arterial arch at the superior margin of the abductor hallucis muscle according to their constitutes and provide anatomical basis for reverse bifolicated flap based on it. The constitute, track-way and distribution of the artery, which supply the medial pedis flap, the medial plantar and the medial tarsal flap, especial the arterial arch at the superior margin of the abductor hallucis muscle were observed and analyzed on 81 lower limbs cast specimens and 2 fresh feet specimens. According to their constitute, arterial arch at the superior margin of the abductor hallucis muscle can be classified into 3 types: i) type I, It was constituted mainly by the branch of anterior medial malleolus artery and (or) the medial tarsal artery. ii) type II, It was constituted mainly by the superficial branch of the medial plantar artery; iii) type II, It was constituted mainly by the branch of anterior medial malleolus artery and the branch of medial tarsal artery anastomose with the superficial branch of the medial plantar artery, which was divided into two subtypes according to the different anastomosis of the artery: Type III 1, the type of anastomosed directly was about 48.2 percent, type III 2, The type of anastomosed indirectly was about 24.1 percent. According to the constitute of arterial arch at the superior margin of the abductor hallucis muscle can be classified into three types: The type of anterior medial malleolus artery and medial tarsal artery, the type of superficial branch of the medial plantar artery and the type of mixed. For the type mixed, two subtypes can be classified according to the different anastomosis of the artery.
El objetivo fue clasificar las arterias de arco arterial del margen superior del músculo abductor del hálux según su constitución, y proporcionar una base anatómica para el colgajo bilobulado reverso basado en él. La constitución, recorrido y distribución de las arterias que suministran los colgajos pedicular medial, plantar medial y medial del tarso, en especial el arco arterial del margen superior del músculo abductor del hálux fueron observados y analizados en 81 modelos de miembros inferiores y 2 pies frescos. De acuerdo con su constitución, el arco arterial del margen superior del músculo abductor del hálux se pueden clasificar en 3 tipos: i) tipo I, constituido principalmentepor la rama de la arteria anterior del maléolo medial y/o la arteria medial del tarso. ii) tipo II, constituido principalmente por la rama superficial de la arteria plantar medial, iii) tipo III constituido principalmente por la rama de la arteria maleolar medial anterior y la rama de la anastomosis de la arteria tarsiana medial de la rama superficial de la arteria plantar medial, que se divide en 2 subtipos diferentes de acuerdo con el tipo de anastomosis: tipo III 1, una anastomosis directa que se observó en el 48,2 por ciento, y tipo III 2, una anastomosis indirecta observada en aproximadamente el 24,1 por ciento de los casos. Según la constitución, el arco arterial del margen superior del músculo abductor del hálux se puede clasificar en 3 tipos: el tipo de arteria anterior del maléolo medial y la arteria tarsiana medial, el tipo de rama superficial de la arteria plantar medial y el tipo mixto. En el tipo mixto, pueden ser clasificados 2 subtipos de acuerdo a la diferente anastomosis de la arteria.
Subject(s)
Humans , Arteries/anatomy & histology , Surgical Flaps/blood supply , Hallux/blood supply , Foot/blood supplyABSTRACT
Objective To compare the influence of different end-tidal concentrations of sevoflurane on transcranial electrical four-limb muscle motor evoked potential (MEP) monitoring. Methods Twenty ASA Ⅰ-Ⅱpatients aged 23-62 years undergoing craniotomy were enrolled. Triangular muscle, biceps brachii muscle, triceps brachii muscle, brachioradialis muscle, extensor digitorum communis muscle, abductor pollicis brevis abductor digiti minimi muscle, rectus femoris muscle, tibialis anterior muscle, gastrocnemius muscle and abductor hallucis were selected for MEPs recording. Sevoflurane was introduced at 0.5, 0.75, 1.0 and then 1.3 MAC (15 min each), and the effects on MEPs were studied. Results ①Maximum MEP amplitude was observed at abductor pollicis brevis muscle in upper limb and abductor hallucis muscle in lower limb at baseline and 0.5 MAC. Up to 1.0 MAC, there was no significant difference in MEP amplitude among extensor digitorum communis muscle, abductor pollicis brevis and abductor digiti minimi muscle. ②The success rate of MEP recording from abductor pollicis brevis muscle and abductor hallucis muscle was 100% during the administration of 0.5-1.0 MAC sevoflurane. ③The MEP amplitude was decreased and the latency was increased in a sevoflurane dose-dependent manner. Conclusions Abductor pollicis brevis muscle and abductor hallucis muscle were suitable for MEP monitoring during the administration of 0.5-1.0 MAC sevoflurane.
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Objective: To evaluate the long-term effectiveness of free transfer of Abductor hallucis muscle plus anastomosis of blood vessels and nerves for dynamic reanimation of the established facial paralysis. Methods: Twenty-eight patients who received the above-mentioned treatment during March 1999 to November 2006 were followed up. The follow-up period was 1 to 16 years, with a median period of 4 years. The facial pictures of frontal view were analyzed before and after operation. T-FGS and facial nerve function index (FNFI) were used to evaluate the facial nerve function before and after operation. Meanwhile, the survival of the graft, the width of the face, the scar, and the function of the foot were analyzed and compared. Results: All patients obtained satisfactory symmetric faces in static state and voluntary contraction of the transferred muscles. Twenty-two patients obtained ideal smiling faces. The T-FGS score increased by (27±7.2) points and the score of FNFI increased by (57± 10.7)% after transplantation (P<0.05). Furthermore, the scars on the face were well concealed and there was no functional impairment in the donor loots. Conclusion: Free transfer of abductor hallucis muscle plus anastomosis of blood vessels and nerves has satisfactory long term outcome in dynamic reanimation of established facial paralysis, without functional impairment to the donor foot and is worth of popularizing.
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Objective:To evaluate the long-term effectiveness of free transfer of Abductor hallucis muscle plus anastomosis of blood vessels and nerves for dynamic reanimation of the established facial paralysis.Methods: Twenty-eight patients who received the above-mentioned treatment during March 1999 to November 2006 were followed up.The follow-up period was 1 to 16 years,with a median period of 4 years.The facial pictures of frontal view were analyzed before and after operation.T-FGS and facial nerve function index(FNFI) were used to evaluate the facial nerve function before and after operation.Meanwhile,the survival of the graft,the width of the face,the scar,and the function of the foot were analyzed and compared.Results: All patients obtained satisfactory symmetric faces in static state and voluntary contraction of the transferred muscles.Twenty-two patients obtained ideal smiling faces.The T-FGS score increased by(27?7.2) points and the score of FNFI increased by(57?10.7)% after transplantation(P