ObjectiveTo clarify the effectiveness of preoperative pulmonary rehabilitation (PPR) and provide evidence for the application of PPR on lung cancer patients by meta-analysis.MethodsAccording to inclusion and exclusion criteria, literatures related to PPR on lung cancer patients were retrieved from major databases between the date of establishment of each database and January 2019, and then data required were extracted from the selected literatures. Meta-analysis was conducted by RevMan 5.0.ResultsTwelve randomized controlled trials were involved in meta-analysis, including 658 patients who were well-diagnosed and prepared for surgery, with 307 patients in the PPR group and 351 patients in the control group. The results of the meta-analysis showed that in the PPR group, the pulmonary function including forced vital capacity [MD=0.31, 95%CI (0.21, 0.42), P<0.01], forced expiratory volume in one second [MD=0.27, 95%CI (0.20, 0.34), P<0.01] and activity tolerance including 6-minute walk distance [MD=50.55, 95%CI (35.98, 65.13), P<0.01] were significantly better than the control group, and the postoperative complication rate was lower [MD=0.28, 95%CI (0.18, 0.43), P<0.01], postoperative hospital stay was shorter [MD=–2.09, 95%CI (–2.41, –1.77), P<0.01].ConclusionsA period of PPR on lung cancer patients can improve postoperative pulmonary function and activity tolerance, and reduce postoperative complications and hospital stay, which is beneficial to postoperative recovery.
The pulmonary rehabilitation treatment of patients with chronic obstructive pulmonary disease (COPD) has become a current research hotspot. Pulmonary rehabilitation can effectively improve the lung function, quality of life, and physical and mental health, reduce the risk of death, but there are still certain limitations in the implementation of pulmonary rehabilitation for COPD. Based on existing research, this article introduces the benefits of pulmonary rehabilitation for COPD, and elaborates on the timing, location selection, and course of pulmonary rehabilitation, aiming to provide a basis for developing personalized pulmonary rehabilitation plans for COPD.
Wearable monitoring, which has the advantages of continuous monitoring for a long time with low physiological and psychological load, represents a future development direction of monitoring technology. Based on wearable physiological monitoring technology, combined with Internet of Things (IoT) and artificial intelligence technology, this paper has developed an intelligent monitoring system, including wearable hardware, ward Internet of Things platform, continuous physiological data analysis algorithm and software. We explored the clinical value of continuous physiological data using this system through a lot of clinical practices. And four value points were given, namely, real-time monitoring, disease assessment, prediction and early warning, and rehabilitation training. Depending on the real clinical environment, we explored the mode of applying wearable technology in general ward monitoring, cardiopulmonary rehabilitation, and integrated monitoring inside and outside the hospital. The research results show that this monitoring system can be effectively used for monitoring of patients in hospital, evaluation and training of patients’ cardiopulmonary function, and management of patients outside hospital.
Objective To investigate the effects of mask BiPAP noninvasive positive ventilation (NIPPV) during treadmill exercise on dyspnea index and exercise endurance in stable patients with severe chronic obstructive pulmonary disease (COPD). Methods Twenty inpatients with stable severe COPD between August 2015 and January 2016 were recruited in the study. The following parameters were measured before and after 8-week rehabilitation by NIPPV during treadmill exercises, including 12-minute walking distance (12MWD), Borg dyspnea score, mean pulmonary arterial pressure (mPAP), PaO 2 and PaCO 2, times of acute exacerbation in 1 year, adverse reactions, and adherence. Results After rehabilitation for 8 weeks, the following parameters were improved than those before treatment including 12MWD [(810±20) mvs. (680±15) m,P<0.01], Borg dyspnea score (2.4±0.1vs. 4.4±0.3,P<0.01), mPAP [(34.4±2.7) mm Hgvs. (43.5±3.8) mm Hg], PaCO 2 [(49.8±4.9) mm Hgvs. (64.3±5.2) mm Hg], PaO 2 [(64.4±4.1) mm Hgvs. (52.3±3.9) mm Hg] and the times of acute exacerbation (2.1±0.7vs. 4.3±2.1,P<0.01). Adverse reactions included oropharyngeal drying (2 cases) and gaseous distention (8 cases) which can be tolerated without special treatment. Conclusion Mask NIPPV during treadmill exercise is safe and effective for stable patients with severe COPD and worthy of clinical application.
Objective To determine if supervised hospital-based exercise can maintain the benefits of functional exercise ability and quality of life gained from a pulmonary rehabilitation program in COPD.Methods A prospective and randomized study was carried out. Following completion of an eight-week pulmonary rehabilitation program in hospital, 43 COPD patients were recruited and randomized into either a supervised group ( supervised, every 10 days, hospital-based exercise, 22 cases ) or a control group ( unsupervised home exercise,21 cases) and followed for 12 months. Measurements were taken at baseline and 12 months later. Exercise measurements include six-minute walk test( 6MWT) and pulmonary function test. Quality of life was measured using the Chronic Respiratory Questionnaire ( CRQ) . Results After 12 months of different exercise program,6MWT in the supervised group was significantly longer than that in the unsupervised group[ ( 532. 0 ±168. 4) m vs ( 485. 0 ±151. 6) m, P lt; 0. 05] . There was no significant difference in pulmonary function between the two groups. The quality of life of the supervised group was higher than that of the unsupervised group( 114. 6 ±20. 8 vs 105. 6 ±21. 7, P lt;0. 05) . Conclusions After the completion of pulmonary rehabilitation program, a supervised, every 10 days, hospital-based following exercise program can maintain better functional exercise capacity and quality of life compared to home exercise in COPD patients.
ObjectiveTo understand the obstacles in the practice of pulmonary rehabilitation between doctors and patients.MethodsMedical staff and patients with chronic obstructive pulmonary disease (COPD) in public hospitals in this region were randomly sampled, and a questionnaire survey was conducted on possible obstacles to the practice of pulmonary rehabilitation.ResultsTotal of 265 medical staff and 120 COPD patients were recruited in this survey. The obstacles of pulmonary rehabilitation practice of medical staff in clinical work are poor cooperation of patients and their families (84.2%), medical staff’s insufficient awareness of pulmonary rehabilitation (82.3%), and lack of practice and guidelines (78.9%), lack of objective conditions such as site, equipment and equipment (75.1%), lack of multidisciplinary teams (74.3%), pulmonary rehabilitation has fallen by the wayside (73.6%) etc. The main obstacles for COPD patients in pulmonary rehabilitation are lack of access to relevant knowledge (52.4%), insufficient knowledge (36.5%), inconvenient transportation, economic problems and other objective conditions (33.3%). After multiple correspondence analysis, there are differences in the degree of correlation between obstacle factors and groups with different characteristics.ConclusionsThere are many factors hindering the development of pulmonary rehabilitation and there are certain differences among different populations, but the lack of understanding of pulmonary rehabilitation between doctors and patients is the primary problem. It is necessary to improve the cognition of both doctors and patients on pulmonary rehabilitation, and then to solve the obstacles in the implementation of pulmonary rehabilitation.
Surgery is an essential method of comprehensive treatment for lung cancer, but it also impairs patients’ cardiopulmonary function. A subset of patients who undergo surgery may suffer from postoperative complications, and even death. Preoperative pulmonary rehabilitation is a part of enhanced recovery after surgery, and can improve patients' cardiopulmonary function, reduce postoperative complication rate and shorten hospital stay. It has been already demonstrated a great value in lung cancer surgery. In this review, we summarized the three important components of preoperative pulmonary rehabilitation, including smoking cessation, chest physical therapy, and preoperative exercise training. Moreover, this review outlined the development of pulmonary rehabilitation for lung malignancies, aiming to promote its application and standardization.
Pulmonary rehabilitation therapy is gaining more attention. The recent systematic review of domestic and foreign relevant literature indicates pre-operative pulmonary rehabilitation exercise training performs an important role in per-operative period. The rehabilitation therapy can efficiently improve exercise tolerance and quality of life of patients with lung cancer, reduce post-operative complications, shorten hospitalization time, and increase opportunity of operation. However, the evidence comes from small samples reported by present clinical study, and a standard treatment guideline of pulmonary rehabilitation has not been established until now. Further researches are expected to provide demonstration and promote pulmonary rehabilitation. It is an important part of comprehensive treatment of lung cancer. The therapy will benefit more patients suffering from lung cancer.