Hösl Matthias, Kruse Annika, Tilp Markus, Svehlik Martin, Böhm Harald, Zehentbauer Antonia, Arampatzis Adamantios
Gait and Motion Analysis Laboratory, Schön Klinik Vogtareuth, Vogtareuth, Germany.
Department of Biomechanics, Movement and Training Sciences, Institute of Human Movement Science, Sport and Health, University of Graz, Graz, Austria.
Front Physiol. 2020 Oct 7;11:518134. doi: 10.3389/fphys.2020.518134. eCollection 2020.
Spastic cerebral palsy (SCP) affects neural control, deteriorates muscle morphometrics, and may progressively impair functional walking ability. Upon passive testing, gastrocnemius medialis (GM) muscle bellies or fascicles are typically shorter, thinner, and less extensible. Relationships between muscle and gait parameters might help to understand gait pathology and pathogenesis of spastic muscles. The current aim was to link resting and dynamic GM morphometrics and contractile fascicle behavior (both excursion and velocity) during walking to determinants of gait. We explored the associations between gait variables and ultrasonography of the GM muscle belly captured during rest and during gait in children with SCP [ = 15, gross motor function classification system (GMFCS) levels I and II, age: 7-16 years] and age-matched healthy peers ( = 17). The SCP children's plantar flexors were 27% weaker. They walked 12% slower with more knee flexion produced 42% less peak ankle push-off power (all < 0.05) and 7/15 landed on their forefoot. During the stance phase, fascicles in SCP on average operated on 9% shorter length (normalized to rest length) and displayed less and slower fascicle shortening (37 and 30.6%, respectively) during push-off (all ≤ 0.024). Correlation analyses in SCP patients revealed that (1) longer-resting fascicles and thicker muscle bellies are positively correlated with walking speed and negatively to knee flexion ( = 0.60-0.69, < 0.0127) but not to better ankle kinematics; (2) reduced muscle strength was associated with the extent of eccentric fascicle excursion ( = -0.57, = 0.015); and (3) a shorter operating length of the fascicles was correlated with push-off power ( = -0.58, = 0.013). Only in controls, a correlation ( = 0.61, = 0.0054) between slower fascicle shortening velocity and push-off power was found. Our results indicate that a thicker gastrocnemius muscle belly and longer gastrocnemius muscle fascicles may be reasonable morphometric properties that should be targeted in interventions for individuals with SCP, since GM muscle atrophy may be related to decreases in walking speed and undesired knee flexion during gait. Furthermore, children with SCP and weaker gastrocnemius muscle may be more susceptible to chronic eccentric muscle overloading. The relationship between shorter operating length of the fascicles and push-off power may further support the idea of a compensation mechanism for the longer sarcomeres found in children with SCP. Nevertheless, more studies are needed to support our explorative findings.
痉挛性脑瘫(SCP)会影响神经控制,使肌肉形态测量指标恶化,并可能逐渐损害功能性步行能力。在被动测试中,内侧腓肠肌(GM)的肌腹或肌束通常更短、更细且伸展性更差。肌肉与步态参数之间的关系可能有助于理解步态病理学和痉挛性肌肉的发病机制。当前的目标是将静息和动态GM形态测量指标以及步行过程中收缩肌束行为(偏移和速度)与步态决定因素联系起来。我们探讨了SCP患儿(n = 15,粗大运动功能分类系统(GMFCS)I级和II级,年龄:7 - 16岁)和年龄匹配的健康同龄人(n = 17)在休息和步态期间GM肌腹超声检查结果与步态变量之间的关联。SCP患儿的跖屈肌力量弱27%。他们行走速度慢12%,膝关节屈曲更多,踝关节蹬离峰值功率降低42%(均P < 0.05),15例中有7例前脚掌着地。在站立期,SCP患儿的肌束平均在比静息长度短9%的长度上运作,并且在蹬离过程中肌束缩短程度更小、速度更慢(分别为37%和30.6%)(均P≤0.024)。对SCP患者的相关性分析表明:(1)静息时较长的肌束和较厚的肌腹与步行速度呈正相关,与膝关节屈曲呈负相关(r = 0.60 - 0.69,P < 0.0127),但与更好的踝关节运动学无关;(2)肌肉力量降低与肌束离心偏移程度相关(r = -0.57,P = 0.015);(3)肌束较短的运作长度与蹬离功率相关(r = -0.58,P = 0.013)。仅在对照组中,发现肌束缩短速度较慢与蹬离功率之间存在相关性(r = 0.61,P = 0.0054)。我们的结果表明,较厚的腓肠肌肌腹和较长的腓肠肌肌束可能是合理的形态测量特征,在针对SCP个体的干预中应将其作为目标,因为GM肌肉萎缩可能与步行速度降低和步态中不期望的膝关节屈曲有关。此外,SCP患儿且腓肠肌无力可能更容易受到慢性离心性肌肉过载的影响。肌束较短的运作长度与蹬离功率之间的关系可能进一步支持了SCP患儿中发现的较长肌节存在补偿机制的观点。然而,需要更多研究来支持我们的探索性发现。
