基于加速度计的功能结果评估在下肢肉瘤治疗后是否可行和有效?

S. Furtado, A. Godfrey, S. Del Din, L. Rochester, C. Gerrand
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引用次数: 10

摘要

背景:下肢肌肉骨骼肿瘤手术后,身体功能的各个方面,包括平衡和步态都会受到影响。这些不是常规测量,但可能与骨或软组织肉瘤切除或截肢后患者的功能有关。小型、廉价的便携式加速度计可能在临床上用于评估这些患者的平衡和步态,但尚未得到很好的研究。问题/目的在接受下肢肌肉骨骼肿瘤治疗的患者中,我们的问题是:(1)基于加速度计的身体穿戴式监测评估平衡、步态和定时上下移动测试(TUG)是否可行和可接受?(2)这些基于加速计的穿戴式监测评估是否产生临床有用的数据(面部效度),区分患者和对照组(区别效度),反映使用现有临床测量(收敛效度)和临床标准手工技术(并发效度)获得的结果?方法前瞻性横断面研究。在97例患者中,34例因股骨/大腿(19例)、骨盆/髋关节(3例)、胫骨/腿(9例)或脚踝/足(3例)肿瘤接受治疗的成年患者被纳入本研究。27人接受了保肢手术,7人接受了截肢。患者在下背部佩戴体表监测器时进行标准活动,包括站立、行走和TUG测试。得出了平衡(面积[省略]、幅度[均方根{RMS}]、抖动[抽搐]、体位摆动频率(在此频率下观察到95%的加速度功率谱[体位摆动的f95])、步态[时间结果、步长和速度]和TUG时间的综合指标。通过调查数据丢失和患者报告的可接受性和舒适度来评估穿戴式监测仪评估的可行性。此外,采用与本研究相同的方法,将患者的结果与平行研究中收集的健康参与者的数据集进行比较,以评估区分效度。还研究了穿戴式监测评估与常规临床量表(肌肉骨骼肿瘤学会评分系统[MSTS]、多伦多肢体挽救评分[TESS]和生活质量-癌症幸存者[QoL-CS])的关系,以评估趋同效度,并与标准手工技术(视频和秒表)的一致性来评估并发效度。结果虽然这是一个小的患者群体,但初步迹象表明,穿戴式监护仪的评估耐受性良好,可行,对有反应的患者可接受(95%[19 / 20]的患者认为穿戴式监护仪可接受且舒适,85%[17 / 20]的患者认为其用户友好),并产生了与证据相当的临床有用数据。平衡和步态测量区分了患者和对照组(判别效度),例如,患者(0.0475 m/s[95%置信区间0.0251至0.0810])的平衡结果(省略)与对照组(0.0007 m/s [95% CI 0.0003至0.0502])相比受到影响;P = 0.001)。同样,与对照组(0.541秒[95% CI 0.496至0.573])相比,患者的步态结果(步数)也受到影响(0.483秒[95% CI 0.451至0.512]);P < 0.001)。此外,穿戴式监测仪评估与现有临床量表(收敛效度)存在相关性,例如与MSTS的省略(r = -0.393;P = 0.024)。同样,手工技术与体表监测的评估结果(并发效度)一致,例如秒表时间22.28 +/- 6.93秒与iTUG时间21.18 +/- 6.23秒(类内相关系数一致= 0.933;P < 0.001)。P < 0.05为差异有统计学意义。结论:虽然我们有一个小的、异质的患者群体,但这项初步研究表明,在临床上,穿戴式监测器可能对量化下肢肿瘤患者的身体功能有用。平衡和步态与残疾和生活质量有关。这些测量可以为临床医生提供关于平衡和步态的有用的新信息,从而可以指导康复策略。证据等级:诊断性研究III级。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Are Accelerometer-based Functional Outcome Assessments Feasible and Valid After Treatment for Lower Extremity Sarcomas?
BACKGROUND Aspects of physical functioning, including balance and gait, are affected after surgery for lower limb musculoskeletal tumors. These are not routinely measured but likely are related to how well patients function after resection or amputation for a bone or soft tissue sarcoma. Small, inexpensive portable accelerometers are available that might be clinically useful to assess balance and gait in these patients, but they have not been well studied. QUESTIONS/PURPOSES In patients treated for lower extremity musculoskeletal tumors, we asked: (1) Are accelerometer-based body-worn monitor assessments of balance, gait, and timed up-and-go tests (TUG) feasible and acceptable? (2) Do these accelerometer-based body-worn monitor assessments produce clinically useful data (face validity), distinguish between patients and controls (discriminant validity), reflect findings obtained using existing clinical measures (convergent validity) and standard manual techniques in clinic (concurrent validity)? METHODS This was a prospective cross-sectional study. Out of 97 patients approached, 34 adult patients treated for tumors in the femur/thigh (19), pelvis/hip (3), tibia/leg (9), or ankle/foot (3) were included in this study. Twenty-seven had limb-sparing surgery and seven underwent amputation. Patients performed standard activities while wearing a body-worn monitor on the lower back, including standing, walking, and TUG tests. Summary measures of balance (area [ellipsis], magnitude [root mean square {RMS}], jerkiness [jerk], frequency of postural sway below which 95% of power of acceleration power spectrum is observed [f95 of postural sway]), gait [temporal outcomes, step length and velocity], and TUG time were derived. Body-worn monitor assessments were evaluated for feasibility by investigating data loss and patient-reported acceptability and comfort. In addition, outcomes in patients were compared with datasets of healthy participants collected in parallel studies using identical methods as in this study to assess discriminant validity. Body-worn monitor assessments were also investigated for their relationships with routine clinical scales (the Musculoskeletal Tumour Society Scoring system [MSTS], the Toronto Extremity Salvage Score [TESS], and the Quality of life-Cancer survivors [QoL-CS)] to assess convergent validity and their agreement with standard manual techniques (video and stopwatch) to assess concurrent validity. RESULTS Although this was a small patient group, there were initial indications that body-worn monitor assessments were well-tolerated, feasible to perform, acceptable to patients who responded (95% [19 of 20] of patients found the body-worn monitor acceptable and comfortable and 85% [17 of 20] found it user-friendly), and produced clinically useful data comparable with the evidence. Balance and gait measures distinguished patients and controls (discriminant validity), for instance balance outcome (ellipsis) in patients (0.0475 m/s [95% confidence interval 0.0251 to 0.0810]) was affected compared with controls (0.0007 m/s [95% CI 0.0003 to 0.0502]; p = 0.001). Similarly gait outcome (step time) was affected in patients (0.483 seconds [95% CI 0.451 to 0.512]) compared with controls (0.541 seconds [95% CI 0.496 to 0.573]; p < 0.001). Moreover, body-worn monitor assessments showed relationships with existing clinical scales (convergent validity), for instance ellipsis with MSTS (r = -0.393; p = 0.024). Similarly, manual techniques showed excellent agreement with body-worn monitor assessments (concurrent validity), for instance stopwatch time 22.28 +/- 6.93 seconds with iTUG time 21.18 +/- 6.23 seconds (intraclass correlation coefficient agreement = 0.933; p < 0.001). P < 0.05 was considered statistically significant. CONCLUSIONS Although we had a small, heterogeneous patient population, this pilot study suggests that body-worn monitors might be useful clinically to quantify physical functioning in patients treated for lower extremity tumors. Balance and gait relate to disability and quality of life. These measurements could provide clinicians with useful novel information on balance and gait, which in turn could guide rehabilitation strategies. LEVEL OF EVIDENCE Level III, diagnostic study.
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