Institute of Sports and Sport Science, Heidelberg University, Im Neuenheimer Feld 700, 69120, Heidelberg, Germany.
German Cancer Research Center, Im Neuenheimer Feld 280, 69120, Heidelberg, Germany.
Sci Rep. 2021 Jan 27;11(1):2398. doi: 10.1038/s41598-021-81902-4.
Impaired postural control is often observed in response to neurotoxic chemotherapy. However, potential explanatory factors other than chemotherapy-induced peripheral neuropathy (CIPN) have not been adequately considered to date due to primarily cross-sectional study designs. Our objective was to comprehensively analyze postural control during and after neurotoxic chemotherapy, and to identify potential CIPN-independent predictors for its impairment. Postural control and CIPN symptoms (EORTC QLQ-CIPN20) were longitudinally assessed before, during and three weeks after neurotoxic chemotherapy, and in three and six months follow-up examinations (N = 54). The influence of peripheral nerve function as determined by nerve conduction studies (NCS: compound motor action potentials (CMAP) and sensory action potentials (SNAP)), physical activity, and muscle strength on the change in postural control during and after chemotherapy was analyzed by multiple linear regression adjusted for age and body mass index. Postural control, CIPN signs/symptoms, and CMAP/SNAP amplitudes significantly deteriorated during chemotherapy (p < .01). During follow-up, patients recovered from postural instabilities (p < .01), whereas CIPN signs/symptoms and pathologic NCS findings persisted compared to baseline (p < .001). The regression model showed that low CMAP and high SNAP amplitudes at baseline predicted impairment of postural control during but not after chemotherapy. Hence, pre-therapeutically disturbed somatosensory inputs may induce adaptive processes that have compensatory effects and allow recovery of postural control while CIPN signs/symptoms and pathologic peripheral nerve function persist. Baseline NCS findings in cancer patients who receive neurotoxic chemotherapy thus might assist in delineating individual CIPN risk profiles more precisely to which specific exercise intervention programs could be tailor-made.
姿势控制障碍常因神经毒性化疗而出现。然而,由于主要采用横断面研究设计,迄今为止,尚未充分考虑除化疗引起的周围神经病变(CIPN)以外的潜在解释因素。我们的目的是全面分析神经毒性化疗期间和之后的姿势控制,并确定其损伤的潜在 CIPN 无关预测因素。在神经毒性化疗之前、期间和之后的三个星期以及三个月和六个月的随访检查中(N = 54),对姿势控制和 CIPN 症状(EORTC QLQ-CIPN20)进行了纵向评估。通过多线性回归分析,根据年龄和体重指数调整了神经传导研究(NCS:复合运动动作电位(CMAP)和感觉动作电位(SNAP))、体力活动和肌肉力量对化疗期间和之后姿势控制变化的影响。姿势控制、CIPN 体征/症状和 CMAP/SNAP 幅度在化疗期间明显恶化(p<.01)。在随访期间,患者从姿势不稳定中恢复(p<.01),而与基线相比,CIPN 体征/症状和病理 NCS 发现持续存在(p<.001)。回归模型显示,基线时 CMAP 低和 SNAP 高幅度预测了化疗期间而非之后的姿势控制障碍。因此,治疗前感觉输入障碍可能会引起适应性过程,这些过程具有代偿作用,允许在 CIPN 体征/症状和病理周围神经功能持续存在的情况下恢复姿势控制。因此,接受神经毒性化疗的癌症患者的基线 NCS 结果可能有助于更精确地描绘个体 CIPN 风险特征,从而可以针对特定的运动干预计划进行定制。
