目前,国内尚未制定出较为完整的康复医学专业常见骨关节疾病的康复临床路径,为适应现代康复医学发展的需要,四川大学华西医院康复医学科根据卫生部《临床路径管理指导原则》要求,结合康复医学科住院患者的疾病、康复评定、康复治疗、康复护理、康复教育等,于2011年制定了康复医学科常见疾病的康复临床路径,希望通过临床试用,对路径的临床实用性、可行性进行探讨,并逐渐完善。
目前,国内尚未制定出较为完整的康复医学专业常见骨关节疾病的康复临床路径,为适应现代康复医学发展的需要,四川大学华西医院康复医学科根据卫生部《临床路径管理指导原则》要求,结合康复医学科住院患者的疾病、康复评定、康复治疗、康复护理、康复教育等,于2011年制定了康复医学科常见疾病的康复临床路径,希望通过临床试用,对路径的临床实用性、可行性进行探讨,并逐渐完善。
卫生部下发《临床路径管理指导原则(试行)》(卫医管发〔2009〕99号)的通知, 希望建立一套既能贯彻医院质量管理标准, 又能节约资源的医疗标准化模式。为适应现代医学和康复医学发展的需要, 采用康复临床路径对康复治疗进行规范, 是非常重要的。四川大学华西医院康复医学科根据临床路径要求, 于2011年制定了康复医学科膝骨关节病康复临床路径, 希望通过临床试用, 对路径的临床实用性、可行性进行探讨, 并逐渐完善。
ObjectiveTo investigate the effects of early rehabilitation on function of patients undergoing complex lower limb amputation caused by injuring in "4·20" Lushan earthquake. MethodsFrom April 20th to June 30th, 2013, we carried out comprehensive rehabilitation intervention for two patients who had undergone complex lower limb amputation, including physical treatment, exercise treatment, psychological treatment, wound dressing, rehabilitation program, and multiple rehabilitation nursing care. ResultsThrough early comprehensive rehabilitation intervention, patients' pain was relieved, and their muscle strength, activities of daily living (ADL), and balance function had been improved greatly, achieving the goal of installing artificial limb. ConclusionEarly rehabilitation intervention treatment is effective in relieving pain in patients undergoing lower extremities amputation, and improving their muscle strength, ability of ADL and balance function, which can make the patients return to society much better and faster.
Aiming at motion artifacts and off-resonance artifacts in multi-shot diffusion magnetic resonance imaging (MRI), we proposed a joint correction method in this paper to correct the two kinds of artifacts simultaneously without additional acquisition of navigation data and field map. We utilized the proposed method using multi-shot variable density spiral sequence to acquire MRI data and used auto-focusing technique for image deblurring. We also used direct method or iterative method to correct motion induced phase errors in the process of deblurring. In vivo MRI experiments demonstrated that the proposed method could effectively suppress motion artifacts and off-resonance artifacts and achieve images with fine structures. In addition, the scan time was not increased in applying the proposed method.