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本文引用的文献

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Effects of the subtalar sling ankle taping technique on combined talocrural-subtalar joint motions.距下关节吊带踝关节贴扎技术对踝-距下联合关节运动的影响。
Foot Ankle Int. 2005 Mar;26(3):239-46. doi: 10.1177/107110070502600310.
2
Quantitative assessment of mechanical laxity in the functionally unstable ankle.功能不稳定踝关节机械松弛度的定量评估。
Med Sci Sports Exerc. 2004 May;36(5):760-6. doi: 10.1249/01.mss.0000126604.85429.29.
3
SPRAINED ANKLES. I. ANATOMIC LESIONS IN RECENT SPRAINS.脚踝扭伤。一、近期扭伤的解剖学损伤
Acta Chir Scand. 1964 Nov;128:483-95.
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Assessment of Ankle-Subtalar-Joint-Complex Laxity Using an Instrumented Ankle Arthrometer: An Experimental Cadaveric Investigation.使用仪器化踝关节测角仪评估踝-距下关节复合体松弛度:一项尸体实验研究。
J Athl Train. 2002 Dec;37(4):467-474.
5
Anterior drawer test for acute anterior talofibular ligament injuries of the ankle. How much load should be applied during the test?踝关节急性距腓前韧带损伤的前抽屉试验。试验过程中应施加多大负荷?
Am J Sports Med. 2003 Mar-Apr;31(2):226-32. doi: 10.1177/03635465030310021201.
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Isolated gastrocnemius tightness.孤立性腓肠肌紧张
J Bone Joint Surg Am. 2002 Jun;84(6):962-70. doi: 10.2106/00004623-200206000-00010.
7
Anterior lateral ankle ligament damage and anterior talocrural-joint laxity: an overview of the in vitro reports in literature.踝关节前外侧韧带损伤与距骨前关节松弛:文献中体外研究报告综述
Clin Biomech (Bristol). 2001 Oct;16(8):635-43. doi: 10.1016/s0268-0033(01)00054-7.
8
Quantitative measurement of ankle passive flexibility using an arthrometer on sprained ankles.使用关节测量仪对扭伤脚踝进行踝关节被动灵活性的定量测量。
Clin Biomech (Bristol). 2001 Mar;16(3):237-44. doi: 10.1016/s0268-0033(00)00088-7.
9
The manual stress test may not be sufficient to differentiate ankle ligament injuries.手动应力测试可能不足以区分踝关节韧带损伤。
Clin Biomech (Bristol). 2000 Oct;15(8):619-23. doi: 10.1016/s0268-0033(00)00020-6.
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Investigation into the relationship between the passive flexibility and active stiffness of the ankle plantar-flexor muscles.
Clin Biomech (Bristol). 2000 Oct;15(8):600-6. doi: 10.1016/s0268-0033(00)00017-6.

膝关节和踝关节位置、前抽屉试验松弛度以及踝关节复合体的僵硬程度。

Knee and ankle position, anterior drawer laxity, and stiffness of the ankle complex.

作者信息

Kovaleski John E, Norrell Phillip M, Heitman Robert J, Hollis J Marcus, Pearsall Albert W

机构信息

University of South Alabama, Department of Health & Physical Education, Mobile, AL 36688-0002, USA.

出版信息

J Athl Train. 2008 May-Jun;43(3):242-8. doi: 10.4085/1062-6050-43.3.242.

DOI:10.4085/1062-6050-43.3.242
PMID:18523573
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2386430/
Abstract

CONTEXT

Anterior drawer testing of the ankle is commonly used to diagnose lateral ligamentous instability. Our hypothesis was that changing knee and ankle positions would change the stability of the ankle complex during anterior drawer testing.

OBJECTIVES

To assess the effects of knee and ankle position on anterior drawer laxity and stiffness of the ankle complex.

DESIGN

A repeated-measures design with knee and ankle position as independent variables.

SETTING

University research laboratory.

PATIENTS OR OTHER PARTICIPANTS

Bilateral ankles of 10 female (age = 19.8 +/- 1.1 years) and 10 male (age = 20.8 +/- 1.2 years) collegiate athletes were tested.

INTERVENTION(S): Each ankle complex underwent loading using an ankle arthrometer under 4 test conditions consisting of 2 knee positions (90 degrees and 0 degrees of flexion) and 2 ankle positions (0 degrees and 10 degrees of plantar flexion [PF]).

MAIN OUTCOME MEASURE(S): Recorded anterior laxity (mm) and stiffness (N/mm).

RESULTS

Anterior laxity of the ankle complex was maximal with the knee positioned at 90 degrees of flexion and the ankle at 10 degrees of PF when compared with the knee positioned at 0 degrees of flexion and the ankle at 10 degrees or 0 degrees of PF (P < .001), whereas ankle complex stiffness was greatest with the knee positioned at 0 degrees of flexion and the ankle at 0 degrees of PF (P < .009).

CONCLUSIONS

Anterior drawer testing of the ankle complex with the knee positioned at 90 degrees of flexion and the ankle at 10 degrees of PF produced the most laxity and the least stiffness. These findings indicate that anterior drawer testing with the knee at 90 degrees of flexion and the ankle at 10 degrees of PF may permit better isolation of the ankle capsuloligamentous structures.

摘要

背景

踝关节前抽屉试验常用于诊断外侧韧带不稳定。我们的假设是,在前抽屉试验过程中改变膝关节和踝关节的位置会改变踝关节复合体的稳定性。

目的

评估膝关节和踝关节位置对踝关节复合体前抽屉松弛度和刚度的影响。

设计

以膝关节和踝关节位置为自变量的重复测量设计。

地点

大学研究实验室。

患者或其他参与者

对10名女性(年龄=19.8±1.1岁)和10名男性(年龄=20.8±1.2岁)大学生运动员的双侧踝关节进行测试。

干预措施

每个踝关节复合体在4种测试条件下使用踝关节测角仪加载,这4种测试条件包括2种膝关节位置(屈曲90度和0度)和2种踝关节位置(跖屈0度和10度[PF])。

主要观察指标

记录前松弛度(毫米)和刚度(牛顿/毫米)。

结果

与膝关节屈曲0度且踝关节为10度或0度PF相比,当膝关节屈曲90度且踝关节为10度PF时,踝关节复合体的前松弛度最大(P<.001),而当膝关节屈曲0度且踝关节为0度PF时,踝关节复合体的刚度最大(P<.009)。

结论

膝关节屈曲90度且踝关节为10度PF时进行踝关节复合体的前抽屉试验产生的松弛度最大且刚度最小。这些发现表明,膝关节屈曲90度且踝关节为10度PF时进行前抽屉试验可能能更好地分离踝关节囊韧带结构。