Levy Ayelet, Kopplin Kara, Gefen Amit
Department of Biomedical Engineering, Faculty of Engineering, Tel Aviv University , Tel Aviv, Israel .
Efficacy Research, Standards and Compliance, ROHO, Inc. , Belleville, Illinois.
Adv Wound Care (New Rochelle). 2015 Oct 1;4(10):615-622. doi: 10.1089/wound.2015.0639.
Pressure ulcers (PUs) in newborns and children are remarkably different from those in adults, both in their possible causal factors and in the etiology and biomechanical pathways for tissue damage. Pediatric muscle and fat tissue structures are overall softer than those of adults, making newborns and young children more susceptible to deformation-inflicted injuries at their weight-bearing soft tissues. The unique medical environment of neonatal and pediatric intensive care units, which is overloaded with medical devices, wiring, tubing, electrodes, and so on, is, in fact, an extrinsic risk factor for device-related PUs, since accidently misplaced tubes, wires, or electrodes can become trapped between the skin and the mattress, causing large sustained soft tissue deformations around them. Mattresses that are being used in neonatal and pediatric intensive care units must be able to respond to frequent movements and changing positions and also be able to effectively adapt and conform around such misplaced tubing or wires, which might contact the body and deform soft tissues. We used computer simulations of a tube caught under a preterm neonate's arm in a supine position to illustrate what adaptability of the support surface means in such cases. Our present simulations indicate that an air-cell-based technology provides considerably better protection against PUs in such cases, as the air-cells are able to locally buckle and conform around objects that are stiffer than the pediatric tissues (, wires, tubes, electrodes), which minimizes exposure to tissue deformations.
新生儿和儿童的压疮与成人的压疮显著不同,无论是在可能的致病因素方面,还是在组织损伤的病因和生物力学途径方面。儿科的肌肉和脂肪组织结构总体上比成人的更柔软,这使得新生儿和幼儿在其负重软组织处更容易受到变形导致的损伤。新生儿重症监护病房和儿科重症监护病房独特的医疗环境中充斥着医疗设备、线路、管道、电极等,实际上这是与设备相关的压疮的一个外在风险因素,因为意外放置不当的管道、电线或电极可能会被困在皮肤和床垫之间,导致其周围的软组织持续发生较大变形。新生儿重症监护病房和儿科重症监护病房使用的床垫必须能够应对频繁的移动和体位变化,还必须能够有效地围绕此类可能接触身体并使软组织变形的放置不当的管道或电线进行适应和贴合。我们通过计算机模拟一个仰卧位早产儿手臂下夹住一根管子的情况,来说明在这种情况下支撑表面的适应性意味着什么。我们目前的模拟表明,在这种情况下,基于气室的技术能提供更好的预防压疮的保护,因为气室能够在比儿科组织(如电线、管道、电极)更硬的物体周围局部弯曲并贴合,从而将组织变形的暴露降至最低。