适应海上环境:在海上环境中延长停留时间会增加姿势摆动幅度。
Gathering your 'sea legs': Extended durations in an offshore environment increases postural sway excursions.
机构信息
Department of Movement Sciences and Health, University of West Florida, Pensacola, FL, USA; Department of Mechanical Engineering, University of West Florida, Pensacola, FL, USA.
Department of Movement Sciences and Health, University of West Florida, Pensacola, FL, USA.
出版信息
Gait Posture. 2021 May;86:45-50. doi: 10.1016/j.gaitpost.2021.02.014. Epub 2021 Feb 17.
BACKGROUND
Mal de debarquement (MdD), or often called 'sea legs', is the perception of self-motion after exposure to passive movement such as being on a boat at sea. Previous studies highlight sensory re-organization difficulties and postural control impairments after disembarking from sea travel in experienced crew members. However, the impact of MdD in individuals with minimal offshore experience, defined as participating in less than 2 offshore excursions per year, has not been investigated.
RESEARCH QUESTION
Does exposure to boat motion while at sea alter static postural control after disembarking in individuals with minimal offshore experience?
METHODS
Healthy adults (n = 24) with minimal offshore experience had their static balance assessed on a force platform before (PRE) and after (POST) a 7-h deep sea fishing excursion. Static balance was tested in eyes open (EO), eyes closed (EC), eyes open on a foam surface (EOF), and eyes closed on a foam surface (ECF) conditions. Sway excursions, sway velocity and sway variability in the medial-lateral (ML) and anterior-posterior (AP) directions were computed and then compared PRE/POST using a paired t-test (p < 0.05).
RESULTS
Significant increases in ML sway excursion (p = 0.004), ML sway range (p < 0.001), ML sway variability (p < 0.001), AP sway excursion (p = 0.045), AP sway range (p = 0.020), and AP sway variability (p = 0.030) were observed at POST during EOF. Significant increases in ML sway excursion (p = 0.027), AP sway excursion (p = 0.020), and AP sway variability (p = 0.014) at POST were also observed during ECF. No differences were found in the EO condition (p > 0.05).
SIGNIFICANCE
Increases in postural sway excursion and variability were observed in individuals with minimal offshore experience after disembarking. Our findings suggest sensory re-organization difficulties in order to maintain an upright posture in challenging sensory conditions are dependent on vestibular and somatosensory inputs following exposure to boat motion at sea.
背景
晕船(MdD),也常被称为“海脚”,是指在经历被动运动(如在海上乘船)后,对自身运动的感知。以前的研究强调了经验丰富的船员在结束海上旅行后重新组织感觉和控制姿势的困难。然而,晕船对那些出海经验较少的个体(定义为每年出海少于 2 次)的影响尚未被调查。
研究问题
在出海时暴露于船的运动是否会改变出海经验较少的个体下船后的静态姿势控制?
方法
出海经验较少的健康成年人(n=24)在 7 小时深海钓鱼之旅前后(PRE 和 POST)在力平台上进行静态平衡测试。静态平衡在睁眼(EO)、闭眼(EC)、睁眼在泡沫表面(EOF)和闭眼在泡沫表面(ECF)条件下进行测试。计算了中侧(ML)和前-后(AP)方向的摇摆幅度、摇摆速度和摇摆变异性,然后使用配对 t 检验(p<0.05)比较 PRE/POST。
结果
在 EOF 期间,POST 时 ML 摇摆幅度(p=0.004)、ML 摇摆范围(p<0.001)、ML 摇摆变异性(p<0.001)、AP 摇摆幅度(p=0.045)、AP 摇摆范围(p=0.020)和 AP 摇摆变异性(p=0.030)显著增加。在 ECF 期间,POST 时 ML 摇摆幅度(p=0.027)、AP 摇摆幅度(p=0.020)和 AP 摇摆变异性(p=0.014)也显著增加。EO 条件无差异(p>0.05)。
意义
出海经验较少的个体下船后,姿势摇摆幅度和变异性增加。我们的研究结果表明,为了在挑战性的感觉条件下保持直立姿势,重新组织感觉的困难与暴露于海上船只运动后的前庭和躯体感觉输入有关。
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