Kun Wang PhD , Pengfei Han , Tianliang Ning , Chaowei Yan , Fangqi Li , Lingbiao Wang PT
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The weight-bearing capacity of the affected foot increased by 11.4 %. After the three-point force was adjusted for the AFO, the distribution of the plantar weight-bearing region became more uniform, and the supporting force of the affected foot increased signifcantly, the weight-bearing capacity of the affected foot increased to 15.19 %, which approached the theoretical value. When the three-point force of was over-adjusted to exceed the pain threshold, the weight-bearing capacity of the affected foot decreased by 2.79 % compared with the theoretical value. It was confirmed that the foot varus angle was attenuated significantly 8 weeks after the orthopedic with three-point force system. Further, the strephenopodia with 10° was corrected with the finite element method based on the three-point force principle, and orthopedic angle and the plantar weight-bearing region before and after the correction were also obtained. The visualization of orthopedic effects and the orthotic principle is clear contributes to clinicians provide important scientific reference for the formulation of scientific and accurate orthopedic regimens.</p></div>","PeriodicalId":73047,"journal":{"name":"Foot & ankle surgery (New York, N.Y.)","volume":"4 2","pages":"Article 100364"},"PeriodicalIF":0.0000,"publicationDate":"2024-06-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S2667396724000041/pdfft?md5=81b6da1ce30782f1416dcfd85d8f3cbc&pid=1-s2.0-S2667396724000041-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Corrigendum to ‘an exploration into the orthopedic effect and patterns of the correction based on the three-point force system in patients with strephenopodia’ [foot & ankle surgery: Techniques, reports & cases 4 (2024) 100355]\",\"authors\":\"Kun Wang PhD , Pengfei Han , Tianliang Ning , Chaowei Yan , Fangqi Li , Lingbiao Wang PT\",\"doi\":\"10.1016/j.fastrc.2024.100364\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>According to the orthopedic principle based on the three-point force system, this study aimed to reveal the orthopedic effect and patterns of the orthopedic based on this system in 3 patients with strephenopodia through the weight-bearing stance phase experiment and numerical simulation analysis of ankle-foot orthoses (AFOs). After the correction with AFOs, Under the pressure tolerance of human skin, different three correction forces were applied to the medial heel, above the medial ankle, below the lateral ankle and the first metatarsal bone,the weight-bearing region of the affected foot gradually shifted to the normal region of the first metatarsal bone, the fifth metatarsal bone, and the heel. The weight-bearing capacity of the affected foot increased by 11.4 %. After the three-point force was adjusted for the AFO, the distribution of the plantar weight-bearing region became more uniform, and the supporting force of the affected foot increased signifcantly, the weight-bearing capacity of the affected foot increased to 15.19 %, which approached the theoretical value. When the three-point force of was over-adjusted to exceed the pain threshold, the weight-bearing capacity of the affected foot decreased by 2.79 % compared with the theoretical value. 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引用次数: 0
摘要
根据基于三点力系统的矫形原理,本研究旨在通过踝足矫形器(AFOs)的负重站立阶段实验和数值模拟分析,揭示基于该系统的矫形在3例链球菌感染患者中的矫形效果和模式。使用踝足矫形器矫形后,在人体皮肤耐压条件下,分别在足跟内侧、踝关节内侧上方、踝关节外侧下方和第一跖骨处施加三个不同的矫形力,患足的负重区域逐渐转移到第一跖骨、第五跖骨和足跟的正常区域。患足的承重能力增加了 11.4%。调整 AFO 的三点力后,足底负重区域的分布更加均匀,患足的支撑力显著增加,患足的负重能力增加到 15.19%,接近理论值。当三点力过度调整至超过疼痛阈值时,患足的承重能力比理论值降低了 2.79%。经证实,使用三点受力系统矫形 8 周后,患足的屈曲角度明显减小。此外,根据三点受力原理,用有限元方法矫正了10°的股内翻,并获得了矫正前后的矫形角度和足底负重区域。矫形效果直观,矫形原理清晰,为临床医生制定科学准确的矫形方案提供了重要的科学参考。
Corrigendum to ‘an exploration into the orthopedic effect and patterns of the correction based on the three-point force system in patients with strephenopodia’ [foot & ankle surgery: Techniques, reports & cases 4 (2024) 100355]
According to the orthopedic principle based on the three-point force system, this study aimed to reveal the orthopedic effect and patterns of the orthopedic based on this system in 3 patients with strephenopodia through the weight-bearing stance phase experiment and numerical simulation analysis of ankle-foot orthoses (AFOs). After the correction with AFOs, Under the pressure tolerance of human skin, different three correction forces were applied to the medial heel, above the medial ankle, below the lateral ankle and the first metatarsal bone,the weight-bearing region of the affected foot gradually shifted to the normal region of the first metatarsal bone, the fifth metatarsal bone, and the heel. The weight-bearing capacity of the affected foot increased by 11.4 %. After the three-point force was adjusted for the AFO, the distribution of the plantar weight-bearing region became more uniform, and the supporting force of the affected foot increased signifcantly, the weight-bearing capacity of the affected foot increased to 15.19 %, which approached the theoretical value. When the three-point force of was over-adjusted to exceed the pain threshold, the weight-bearing capacity of the affected foot decreased by 2.79 % compared with the theoretical value. It was confirmed that the foot varus angle was attenuated significantly 8 weeks after the orthopedic with three-point force system. Further, the strephenopodia with 10° was corrected with the finite element method based on the three-point force principle, and orthopedic angle and the plantar weight-bearing region before and after the correction were also obtained. The visualization of orthopedic effects and the orthotic principle is clear contributes to clinicians provide important scientific reference for the formulation of scientific and accurate orthopedic regimens.
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