Altered Cervical Spine Position Results in Decreased Eccentric Shoulder Rotation Strength.

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
ACS Applied Bio Materials Pub Date : 2024-06-01 Epub Date: 2024-03-04 DOI:10.1055/a-2281-1396
Kevin Giordano, Kyle Wasserberger, Gretchen D Oliver
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引用次数: 0

Abstract

Overhead athletes require strenuous shoulder activity in nonneutral cervical spine positions to eccentrically decelerate the throwing/striking arm following ball release/contact. We therefore aimed to compare eccentric shoulder rotation strength through a 90° arc between neutral and rotated positions. Fifty-two participants (19 M, 34 F 170±10 cm; 73±18 kg, 21.9±2.9 years) without shoulder or cervical spine pathology participated. Isokinetic eccentric shoulder rotation strength was measured through a 90° arc with the shoulder elevated 90° in frontal plane (frontal plane), and 45° anterior to the frontal plane (scapular plane) in neutral and rotated cervical spine positions. Cervical spine position was obtained by instructing participants to maximally rotate their respective side. Frontal plane eccentric external rotated strength differed between neutral and contralaterally positions in the first 10° of the motion, near forearm vertical (p+=+0.029). Internal rotation strength differed between neutral and contralaterally rotated positions from 55-60° external rotation (p+=+0.004). Scapular plane eccentric external rotation differed between cervical positions between 21-67° shoulder external rotation (p<0.001). Scapular plane internal rotation strength differed between cervical positions between 22-60° shoulder external rotation (p<0.001). In populations requiring strenuous use of their shoulders in altered cervical spine positions, sports medicine clinicians should consider including strength testing that reflects the functional positions of their patients during an orthopedic examination.

颈椎位置改变导致肩关节偏心旋转力量下降
高空运动需要在颈椎非中立位置进行剧烈的肩部活动,以便在球释放/接触后使投掷/击球手臂偏心减速。因此,我们旨在比较肩部在中立和旋转位置之间 90° 弧线的偏心旋转力量。52 名参与者(19 名男性,34 名女性,170±10 厘米;73±18 千克,21.9±2.9 岁)均无肩部或颈椎疾病。在颈椎中立位和旋转位时,测量肩部偏心外旋力量,测量时肩部抬高90°,弧度为90°(额平面),并在额平面前45°(肩胛平面)。在运动的前10°,即前臂垂直附近,中性位置和对侧位置的额平面偏心外旋力量存在差异(P=0.029)。颈椎位置是通过指示参与者最大限度地旋转各自的一侧来获得的。外旋 55-60° 时,中立位和对侧旋转位的内旋强度不同(p=0.004)。在肩关节外旋 21-67° 之间,不同颈椎位置的肩胛平面偏心外旋强度不同(p=0.004)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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