ObjectiveTo investigate the optimal catheter extubation time by comparing the postoperative complications in elderly patients undergoing total hip arthroplasty with catheter extubation at different times. MethodsBetween May and August 2013, 60 patients needing total hip replacement were randomly divided into experimental group and control group with 30 in each. The patients' average age of the experimental group was 75.6 years (65-87 years) and of the control group was 76.9 years (66-85 years). Extubation was performed within 24 hours after surgery in the experimental group, while it was performed after 24 hours after surgery in the control group. All the patients underwent clean catheterization with a Foley catheter two hours before surgery. The catheter indwelling time, first time of self-urination, urination after extubation, and complications were recorded and compared between the two groups carefully. ResultsThe incidence of complications (urinary retention, urethral pain, cystospasm and urinary irritant symptoms) in the experimental group was significantly less than the control group (P<0.05). The first urination time had no significant difference (P>0.05) between the two groups. ConclusionThe extraction of indwelling catheter in the early postoperative period (within 24 hours) can reduce the incidence of complications and is better for the early postoperative rehabilitation.
目的:探讨公共突发事件中大批量收治伤员时的骨科护理管理流程。方法:对汶川地震期间,四川大学华西医院骨科收治1 410名骨科地震伤员时包括紧急组织管理、护理人力资源管理、护理流程革新以及信息管理等的护理管理进行总结、分析、评价。结果:通过高效的护理应急管理,保证了在汶川地震灾害救援中的医疗、护理质量,提高了伤员的整体救护水平。结论:医院建立有效的应急管理体系,通过各部门配合,再造护理管理流程,在灾害医疗救援中具有重要意义。
目的 探讨临床实施医护一体化伤口治疗模式的效果和前景。 方法 利用调查问卷方式,对2010年12月-2011年12月19个科室临床实施医护一体化伤口治疗模式的效果进行满意度调查。 结果 医生、患者、护士的总体满意度分别达到94.51%、94.56%、91.43%。 结论 医护一体化伤口治疗模式能够明显提高医护患三方满意度,值得在临床推广。
ObjectiveTo review the research progress of three-dimensional (3D) bioprinting technology for wound dressing design and preparation. Methods The literature on 3D bioprinted wound dressings in recent years, both domestically and internationally, was retrieved. The core principles of 3D bioprinting technology, mainstream methods, and their applications in wound dressings design and preparation were summarized. Results By leveraging precise spatial manipulation capabilities and multi-material integration, 3D bioprinting technology constructs the functionalized wound dressings with complex structures and bioactivity. These dressings primarily function across several dimensions: wound hemostasis, infection control, controlled drug release, and monitoring wound healing. Conclusion Although 3D bioprinted wound dressings can promote wound healing through multiple dimensions, large-scale clinical validation is still lacking. Future efforts should further clarify their clinical value and scope of application to provide more efficient, precise, and patient-comfortable treatment options for refractory wounds.