Objective To explore the effect of early rehabilitation treatment on complications and prognosis of elderly patients with sever pneumonia undergoing mechanical ventilation. Methods The patients who meeting the inclusion criteria were randomly divided into an early rehabilitation group and a control group, with 35 cases in each group. On basis of same routine treatment, the early rehabilitation group was treated with early rehabilitation. The early rehabilitation methods included exercise therapy, electrical stimulation therapy, swallowing therapy, cough training and wheelchair-bed transfer training, etc. The patients received individual training methods according to their conditions. The difference of two groups were observed in the rates of ICU-acquired weakness (ICU-AW), ventilator-associate pneumonia (VAP), the incidence of delirium, the mechanical ventilation time, ICU-hospital time, total hospital time, 30-day hospital mortality, extubation fail rate and tracheotomy rate. Results Compare with the control group, the incidence of ICU-AW (14.28% vs. 37.14%), VAP (8.57% vs. 28.57%), and delirium (40.00% vs. 65.71%) in the early rehabilitation group were significantly reduced (all P<0.05). The duration of delirium [(3.50±1.31) dvs. (6.40±1.47) d], the ventilation time [(6.32±2.19) d vs. (9.40±4.43) d], ICU hospitalization time [(10.80±3.64) d vs. (15.31±3.85) d] and total hospitalization time [(22.52±7.56) d vs. (30.22±11.54) d] of the early rehabilitation group were significantly lower than the control group (all P<0.001). The tracheotomy rate and 30-day hospital mortality of the early rehabilitation group were significantly lower than the control group (25.71%vs. 51.42% and 28.57% vs. 54.28%, both P<0.05). There was no significant difference in extubation fail rate (5.71%vs. 11.42%, P>0.05). In the early rehabilitation group, there were no complications such as pipe prolapse, limb injury or serious arrhythmia. Conclusion Early rehabilitation can reduce the incidence of ICU-AW, VAP, delirium in elderly patients with severe pneumonia, help to shorten the mechanical ventilation time, ICU hospitalization time and total hospitalization time, reduce extubation failure rate and tracheotomy rate, so it is safe and effective, and worthy of being popularized and applied.
According to system reform of the current medical insurance diagnosis related groups, quality control of rehabilitation medicine and requirements of information management, this paper constructs a rehabilitation information system by using the theoretical framework and core sets of International Classification of Functioning, Disability and Health (ICF). Then, the constructed system is embedded into the work of rehabilitation medicine team. By the four processes of ICF items evaluation, rehabilitation goal setting, team cooperation scheme formulation and reevaluation, the operation process of rehabilitation information management based on ICF is formed, which strengthens comprehensively the rehabilitation diagnosis and treatment standards and improves the efficiency of quality control management. The big data mining and multi-dimensional analysis in this platform can provide support of medical insurance payment, achieve exchanging and sharing rehabilitation medical quality control data among hospitals at different levels in different regions, assist tertiary referral and remote rehabilitation, improve the rehabilitation medical service system, and enhance the level of rehabilitation medical care. This paper will summarize the application experience of constructing ICF rehabilitation information management system.
As the “power center” of the cell and the center of metabolic signaling, mitochondria play an important role before, during, and after cerebral ischemia. After ischemic stroke, molecules such as mitoNEET, optic atrophy 1, and mitochondrial division inhibitor 1 can play a neuroprotective role by regulating the state of the mitochondria. Mitochondria are not only energy-supplying organelles, but their biogenesis and movement also play an important role in neuronal growth, differentiation, synapse formation and neural circuit formation after ischemic stroke. Rehabilitation at all stages can play a therapeutic role by modulating mitochondrial function.
In recent years, a rapid development in non-invasive brain stimulation (NIBS) techniques have been witnessed in the field of rehabilitation. These techniques have gained significant attention from researchers in the field of brain dysfunction rehabilitation, holding great promise as a therapeutic modality to alleviate impairments in brain function. However, the efficacy of most NIBS treatment protocols often falls short of patients’ expectations in clinical practice. To address this gap, further research and practical efforts are necessary to delve into the mechanisms underlying NIBS effectiveness, devise strategies for enhancing efficacy, and address safety concerns associated with its application. This article provides a comprehensive review of recent research advancements of NIBS in the context of brain dysfunction. Moreover, it offers insights into future development trends, intending to serve as a valuable reference for studies investigating the effectiveness and safety of NIBS, while guiding appropriate clinical practices in rehabilitation.