Kilic Koray Kaya, Kose Ozkan, Egerci Omer Faruk, Dogruoz Firat, Aykanat Faruk
Radiology Department, Antalya Training and Research Hospital, Antalya, Turkey.
Orthoapedics and Traumatology Department, Antalya Training and Research Hospital, Antalya, Turkey.
Handchir Mikrochir Plast Chir. 2024 Sep;56(5):368-375. doi: 10.1055/a-2239-6341. Epub 2024 Feb 15.
This study aimed to test whether palmaris longus tendon (PLT) length and thickness can be predicted from simple anthropometric measurements.
120 healthy volunteers with bilateral PL muscles were enrolled in this prospective study. PLT length and thickness were measured by ultrasonographic examination. Anthropometric measurements included body height, weight, forearm length, and wrist circumference. Correlation, linear regression, and Bland-Altman plot were used for analysis.
The mean PLT length and thickness were 10.8±1.4 cm and 4.0±0.9 mm, respectively. Body height and PLT length had a moderate positive correlation (r:0.407, p:0.001), and forearm length and PLT thickness had a weak positive correlation (r:0.229, p:0.001). The regression analysis showed that body height was the best predictor for PLT length, and forearm length was the best predictor for PLT thickness. The regression equations were as follows: PLT length=0.276+(0.062×height) (r2=0.165, p<0.001) and PLT thickness=1.373+(0.108×forearm length) (r2=0.052, p<0.001). The predicted PLT lengths and thicknesses were calculated using these regression formulas and compared with the actual thicknesses and lengths using the Bland-Altman plot. The upper and lower limits of agreement (95% CI) ranged from -2.54 cm to 2.51 cm for actual PLT length and predicted PLT length and from -1.76 mm to 1.74 mm for actual PLT thickness and predicted PLT thickness in the Bland-Altman plot with a weak agreement and proportional bias.
These findings indicate that height and forearm length have limited accuracy in predicting PLT length and thickness. The preoperative ultrasonographic examination can provide valuable assistance, particularly in cases that require grafts with precise length and thickness requirements.
本研究旨在测试能否通过简单的人体测量学指标预测掌长肌腱(PLT)的长度和厚度。
120名双侧掌长肌健康志愿者参与了这项前瞻性研究。通过超声检查测量PLT的长度和厚度。人体测量学指标包括身高、体重、前臂长度和腕围。采用相关性分析、线性回归分析和Bland-Altman图进行分析。
PLT的平均长度和厚度分别为10.8±1.4厘米和4.0±0.9毫米。身高与PLT长度呈中度正相关(r:0.407,p:0.001),前臂长度与PLT厚度呈弱正相关(r:0.229,p:0.001)。回归分析表明,身高是预测PLT长度的最佳指标,前臂长度是预测PLT厚度的最佳指标。回归方程如下:PLT长度 = 0.276 +(0.062×身高)(r² = 0.165,p < 0.001),PLT厚度 = 1.373 +(0.108×前臂长度)(r² = 0.052,p < 0.001)。使用这些回归公式计算预测的PLT长度和厚度,并通过Bland-Altman图与实际厚度和长度进行比较。在Bland-Altman图中,实际PLT长度与预测PLT长度的一致性界限(95% CI)为-2.54厘米至2.51厘米,实际PLT厚度与预测PLT厚度的一致性界限为-1.76毫米至1.74毫米,一致性较弱且存在比例偏差。
这些研究结果表明,身高和前臂长度在预测PLT长度和厚度方面准确性有限。术前超声检查可提供有价值的帮助,特别是在需要精确长度和厚度移植物的病例中。
