目的:为肿瘤骨转移患者压疮预防的方法进行总结评价以达到对临床肿瘤压疮进行指导。方法:采用改良后的诺顿评估表(信度0.80,效度0.84)作为压疮易患患者评估工具。评估内容包括患者年龄、身体状况、意识、活动能力、运动受限情况、疼痛、皮肤情况、大小便失禁、饮食、进食能力、口腔情况、牙齿及患者血色素、蛋白等资料。评估时间从患者入院开始,对30例肿瘤全身多处骨转移患者进行评估,有预见性、计划性,针对性及个体化对患者制订护理计划及措施,并督促实施,对效果进行评价分析。结果:≤25分高危险性患者(难以避免)发生率50%,26~29分中度危险性患者(可避免)发生率0,≥30分低危险性患者发生率14.2%。效果评价:压疮预防评估对肿瘤骨转移患者压疮的预防是有效的,压疮评估有助于规范护理行为和护理管理;通过分析找出护理过程中的薄弱环节,以利于指导临床工作。
Assisting immobile individuals with regular repositioning to adjust pressure distribution on key prominences such as the back and buttocks is the most effective measure for preventing pressure ulcers. However, compared to active self-repositioning, passive assisted repositioning results in distinct variations in force distribution on different body parts. This incongruity can affect the comfort of repositioning and potentially lead to a risk of secondary injury, for certain trauma or critically ill patients. Therefore, it is of considerable practical importance to study the passive turning comfort and the optimal turning strategy. Initially, in this study, the load-bearing characteristics of various joints during passive repositioning were examined, and a wedge-shaped airbag configuration was proposed. The airbags coupled layout on the mattress was equivalently represented as a spring-damping system, with essential model parameters determined using experimental techniques. Subsequently, different assisted repositioning strategies were devised by adjusting force application positions and sequences. A human-mattress force-coupled simulation model was developed based on rigid human body structure and equivalent flexible springs. This model provided the force distribution across the primary pressure points on the human body. Finally, assisted repositioning experiments were conducted with 15 participants. The passive repositioning effectiveness and pressure redistribution was validated based on the simulation results, experimental data, and questionnaire responses. Furthermore, the mechanical factors influencing comfort during passive assisted repositioning were elucidated, providing a theoretical foundation for subsequent mattress design and optimization of repositioning strategies.