机械通气期间按解剖部位划分的靠背抬高与组织界面压力
Backrest Elevation and Tissue Interface Pressure by Anatomical Location During Mechanical Ventilation.
作者信息
Grap Mary Jo, Munro Cindy L, Wetzel Paul A, Schubert Christine M, Pepperl Anathea, Burk Ruth S, Lucas Valentina
机构信息
Mary Jo Grap is an emeritus professor and Ruth S. Burk is affiliate faculty, Adult Health and Nursing Systems Department, School of Nursing, Paul A. Wetzel is an associate professor and Anathea Pepperl is an assistant professor, Biomedical Engineering Department, School of Engineering, and Valentina Lucas is a nurse practitioner, Department of Surgery, Virginia Commonwealth University, Richmond, Virginia. Cindy L. Munro is a professor and associate dean, Research and Innovation, College of Nursing, University of South Florida, Tampa, Florida. Christine M. Schubert is an associate professor, Department of Mathematics and Statistics, Air Force Institute of Technology, Wright-Patterson Air Force Base, Dayton, Ohio.
出版信息
Am J Crit Care. 2016 May;25(3):e56-63. doi: 10.4037/ajcc2016317.
BACKGROUND
Backrest elevations less than 30° are recommended to reduce pressure ulcers, but positions greater than 30° are recommended during mechanical ventilation to reduce risk for ventilator-associated pneumonia. Interface pressure may vary with level of backrest elevation and anatomical location (eg, sacrum, heels).
OBJECTIVE
To describe backrest elevation and anatomical location and intensity of skin pressure across the body in patients receiving mechanical ventilation.
METHODS
In a longitudinal study, patients from 3 adult intensive care units in a single institution receiving mechanical ventilation were enrolled within 24 hours of intubation from February 2010 through May 2012. Backrest elevation (by inclinometer) and pressure (by a pressure-mapping system) were measured continuously for 72 hours. Mean tissue interface pressure was determined for 7 anatomical areas: left and right scapula, left and right trochanter, sacrum, and left and right heel.
RESULTS
Data on 133 patients were analyzed. For each 1° increase in backrest elevation, mean interface pressure decreased 0.09 to 0.42 mm Hg. For each unit increase in body mass index, mean trochanter pressure increased 0.22 to 0.24 mm Hg. Knee angle (lower extremity bent at the knee) and mobility were time-varying covariates in models of the relationship between backrest elevation and tissue interface pressure.
CONCLUSIONS
Individual factors such as patient movement and body mass index may be important elements related to risk for pressure ulcers and ventilator-associated pneumonia, and a more nuanced approach in which positioning decisions are tailored to optimize outcomes for individual patients appears warranted.
背景
建议将靠背抬高角度小于30°以减少压疮,但在机械通气期间建议采用大于30°的体位以降低呼吸机相关性肺炎的风险。界面压力可能会随靠背抬高角度和解剖位置(如骶骨、足跟)而变化。
目的
描述接受机械通气患者的靠背抬高角度、全身皮肤压力的解剖位置及强度。
方法
在一项纵向研究中,2010年2月至2012年5月期间,来自单一机构的3个成人重症监护病房中接受机械通气的患者在插管后24小时内入组。连续72小时测量靠背抬高角度(通过倾角仪)和压力(通过压力映射系统)。测定7个解剖区域的平均组织界面压力:左右肩胛骨、左右转子、骶骨以及左右足跟。
结果
对133例患者的数据进行了分析。靠背抬高角度每增加1°,平均界面压力降低0.09至0.42 mmHg。体重指数每增加一个单位,转子平均压力增加0.22至0.24 mmHg。在靠背抬高角度与组织界面压力关系模型中,膝关节角度(下肢在膝关节处弯曲)和活动度是随时间变化的协变量。
结论
患者活动和体重指数等个体因素可能是与压疮和呼吸机相关性肺炎风险相关的重要因素,似乎有必要采用一种更细致入微的方法,即根据个体患者情况调整体位决策以优化结果。
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