Karahan Nazan, Arslan Hediye, Çam Çetin
a Midwifery Department, Faculty of Health Sciences , Karabuk University , Karabuk , Turkey.
b Nursing Department, Faculty of Health Sciences , Yeditepe University , İstanbul , Turkey.
J Obstet Gynaecol. 2018 Jul;38(5):629-634. doi: 10.1080/01443615.2017.1399111. Epub 2018 Feb 12.
Term pregnant women were divided into oxytocin infusion and control groups. The electrical activities of pelvic floor muscles (PFM) were recorded at rest and during contractions electromyographically. The beginning and the end of each contraction were marked on the recorded electromyographic trace. A trace was regarded as 'negative' if no increase in electrical activity was observed and 'positive' if increased electrical activity was observed during the contractions. To evaluate the relative frequency of the areas of electrical activity during uterine contractions (UC) a 'positive electrical activity percentage' was used and calculated as: (total count of positive electrical activity areas)/(total count of UC) × 100. Positive and negative electrical activity percentages were compared. The percentages were significantly different between the groups (p <.01). Positive traces increased in 56.1 and 18.8% in study and control groups, respectively, (p < .01). Multiparous women showed more positive traces than nulliparous women, both in oxytocin-treated and spontaneous labour groups (p < .01). The rate of performed episiotomies was higher in the oxytocin-infused labours (p = .01). During physiological labour contractions the predominant behaviour of PFM seemed to be a relative silent status compared to a more contractile status caused by oxytocin administration. Contracted muscles may produce a counterpressure against expulsive UC leading to obstetrical injuries of these muscles and clinically higher rates in episiotomy decisions. This is the first report of behaviour of PFM during labour contractions and further prospective studies are needed to assess the role of oxytocin administration on PFM and associated clinical consequences. Impact statement What is already known on this subject? The physiological functions of pelvic floor muscles depend on the coordinated actions of these muscles and rely also on unique interactions between the somatic and autonomic nervous systems. Oxytocin is commonly used for the induction and augmentation of uterine contractions and such an induced labour may be more painful for the woman. What do the results of this study add? Pelvic floor muscles tend to contract more frequently during uterine contractions as labour progresses. This difference was more pronounced in labours which were treated with oxytocin infusion. What are the implications of these findings for clinical practice and/or further research? This is the first report of electrophysiological behaviour of pelvic floor muscles during labour contractions in spontaneous and oxytocin-induced labour. Oxytocin administration seems to interfere with the coordination of uterine and pelvic floor muscle contractions. This study may be of interest for researchers to investigate the effect of the worldwide liberal use of oxytocin for induction of labour on pelvic floor muscle damage during parturition.
足月孕妇被分为催产素输注组和对照组。通过肌电图记录静息状态及宫缩期间盆底肌肉(PFM)的电活动。每次宫缩的起始和结束在记录的肌电图上进行标记。若未观察到电活动增加,则该记录被视为“阴性”;若在宫缩期间观察到电活动增加,则视为“阳性”。为评估子宫收缩(UC)期间电活动区域的相对频率,采用“阳性电活动百分比”并计算如下:(阳性电活动区域总数)/(UC总数)×100。比较阳性和阴性电活动百分比。两组之间的百分比有显著差异(p <.01)。研究组和对照组中阳性记录分别增加了56.1%和18.8%(p <.01)。经催产素治疗的分娩组和自然分娩组中,经产妇的阳性记录均多于初产妇(p <.01)。催产素输注分娩时会阴切开术的实施率更高(p =.01)。在生理性分娩宫缩期间,与催产素给药引起的更收缩状态相比,PFM的主要表现似乎是相对静止状态。收缩的肌肉可能会对排出性UC产生反压力,导致这些肌肉的产科损伤以及临床上会阴切开术决策的更高发生率。这是关于分娩宫缩期间PFM行为的首次报告,需要进一步的前瞻性研究来评估催产素给药对PFM的作用及相关临床后果。影响声明关于该主题已知的信息有哪些?盆底肌肉的生理功能取决于这些肌肉的协调作用,也依赖于躯体和自主神经系统之间独特的相互作用。催产素常用于引产和增强子宫收缩,而这种诱导分娩对女性来说可能更痛苦。这项研究的结果增加了什么?随着分娩进展,子宫收缩期间盆底肌肉倾向于更频繁地收缩。这种差异在催产素输注治疗分娩中更为明显。这些发现对临床实践和/或进一步研究有何意义?这是关于自然分娩和催产素诱导分娩宫缩期间盆底肌肉电生理行为的首次报告。催产素给药似乎会干扰子宫和盆底肌肉收缩的协调性。这项研究可能会引起研究人员的兴趣,以调查全球广泛使用催产素引产对分娩期间盆底肌肉损伤的影响。
