Objective To evaluate the therapeutic effect of silver ion dressings combined with hydro gel in treatment of diabetic foot by using Meta-analysis.Methods The Cochrane Library,EMbase and domestic main databases were searched,the quality of included studies which screened by certain standards was evaluated.The Review Manager 5.0 software was taken for analysis.Results Totally 11 studies were included,containing 765 patients with diabetic foot.The Meta-analysis showed that there were significant differences between two groups in treatment efficiency,granulation tissue growth time and basic healing time.But the epithelial formation time showed no significant difference between two groups.Conclusions Silver ion dressings combined with hydro gel in treatment of diabetic foot was effective.However,the quality and quantity of most studies included in this review are low,studies of higher quality and quantity are needed to confirm the results in the future.

Objective To evaluate the therapeutic effect of intravenously use of ambroxol in treatment of mechanical ventilator patients.Methods Meta-analysis was used.The Cochrane Library,PubMed,Elsevier (ScienceDirect),OVID series medical databases and domestic main databases were searched,the quality of included studies was evaluated by certain standards.The Review Manager 5.0 software was used for analysis.Results 14 studies were included,1 184 mechanical ventilation patients were involved.The Meta-analysis showed that there were significant differences between two groups in blood gas analysis,airway resistance and pressure and lung compliance.However,there were no differences between two groups in expectorant effect and VAP incidence.Conclusions Intravenously use of ambroxol in treatment of mechanical ventilator patients was effective.A large multi-center sample of high-quality clinical studies is needed to confirm the results.

Objective:To evaluate the effect of preventing and treatment of pharmaceuticals on intensive care unit-acquired weakness (ICU-AW) by systematic review.Methods:The randomized controlled trials (RCTs) concerning pharmaceutical prevention and treatment about ICU-AW in SinoMed, CNKI, Wanfang data, PubMed, Cochrane Library, Web of Science, EMbase, and other sources were searched from their foundation to May 30th, 2019. The patients in the intervention group were treated with drugs to prevent or treat ICU-AW; and those in control group were treated with other rehabilitation methods. Data searching, extracting and quality evaluation were assessed by two reviewers independently. Stata 12.0 software was then used for Meta-analysis. Only descriptive analysis was conducted when only one study was enrolled.Results:A total of 11 RCTs were enrolled with 1 865 patients in the intervention group and 1 894 in the control group. The results of quality evaluation showed that 4 studies were A-level and 7 studies were B-level, indicating that the overall quality of the enrolled literature was high. Meta-analysis showed that intensive insulin therapy could prevent ICU-AW [relative risk ( RR) = 0.761, 95% confidence interval (95% CI) was 0.662-0.876, P = 0.000], but reduced phenylalanine loss (nmol·100 mL -1·min -1: -3±3 vs. -11±3, P < 0.05) and glutamine intake (nmol·100 mL -1·min -1: -97±22 vs. -51±13, P < 0.05). There was no significant difference in the prevention and treatment of ICU-AW between other drugs (including growth hormone, glutamine, dexmedetomidine, neostigmine, oxandrolone, and intravenous immunoglobulin) and control group. Conclusions:Intensive insulin therapy can prevent ICU-AW, but the risk of hypoglycemia will increase. Other drugs including growth hormone, glutamine, dexmedetomidine, neostigmine, oxandrolone, and intravenous immunoglobulin have no obvious advantages in the prevention and treatment of ICU-AW, so no drug has been recommended to prevent and treat ICU-AW.

Objective:To investigate the cognitive impairment after intensive care unit (ICU) discharge and provide theoretical basis for prevention and intervention.Methods:Studies about cognitive impairment after ICU discharge were retrieved in PubMed, Embase, Cochrane Library, Web of Science, Wanfang data, CNKI and SinoMed from their foundation to December 2019. The literature screening and data extraction were performed by two researchers independently, and the quality of different types of researches was evaluated using Cochrane Handbook 5.1.0, Newcastle-Ottawa scale (NOS) and agency for healthcare research and quality criteria (AHRQ). The Meta-analysis was performed by Stata 13.0 software. Sensitivity analysis was used to determine the reliability of the combined effect values. Funnel plot and Egger test were used to analyze publication bias. The non-parametric clipping was used to evaluate the impact of publication bias on the results.Results:A total of 35 studies were enrolled, including 27 prospective cohort studies, 4 retrospective cohort studies, 2 randomized controlled trial (RCT) studies, 1 case-control study, and 1 cross-sectional study. Three literatures were published in Chinese and 32 were in English, which covered 13 countries, and a total of 102 504 ICU survivors were followed up successfully. Literature quality evaluation results showed that the NOS scores of 31 cohort studies were between 6 and 9, of which the case-control study scored 9. The quality grade of 2 RCT studies were both B. According to the AHRQ criteria, 1 cross-sectional study's design was scientifically rigorous and of high quality. Thirty-five studies reported that the overall incidence of cognitive impairment after ICU discharge ranged from 2.47% to 66.07%. For the multiple follow-ups studies, the first survey data was selected for Meta-analysis, and the results showed that the pooled incidence was 38.44% [95% confidence interval (95% CI) was 29.32-47.55]. Each study was removed for sensitivity analysis and the pooled results did not change much, which indicated that the results were reliable. The sub-group analysis was performed on different evaluation methods for cognitive impairment after ICU discharge, different types of ICU patients, and different follow-up time. The results showed that the pooled incidence of studies using neuropsychological test to evaluate cognitive impairment after ICU discharge was 31.42% (95% CI was 21.82-41.02), the pooled incidence of studies using questionnaires or scales was 38.75% (95% CI was 29.54-47.96), and the difference between the two groups was statistically significant ( P < 0.01). The pooled incidence of cognitive impairment after ICU discharge in general ICU patients was 43.42% (95% CI was 30.88-55.95), acute respiratory distress syndrome (ARDS) patients' pooled incidence was 34.40% (95% CI was 23.02-45.79), and the pooled incidence of elderly ICU patients was 12.93% (95% CI was 8.48-17.37), the difference among the three groups was statistically significant ( P < 0.01). The incidences of cognitive impairment < 1 year, 1 to 4 years, ≥ 5 years after ICU discharge were 43.30% (95% CI was 29.47-57.13), 34.21% (95% CI was 26.70-41.72), and 20.22% (95% CI was 4.89-35.55), respectively, and the differences among the three groups were statistically significant ( P < 0.01). The funnel plot showed that the distribution of all studies was asymmetric, and the Egger test result also suggested that there might be publication bias ( P < 0.05). The non-parametric clipping was used to estimate the impact of publication bias on the results, and the result showed that the difference in the incidence of cognitive impairment after ICU discharge before and after non-parametric clipping was large, suggesting that publication bias might influence the stability of the research results. Conclusions:The incidence of cognitive impairment after ICU discharge is relatively high and persistent for a long time, but diagnostic criteria of cognitive impairment and follow-up time are quite different. It is necessary to develop consistent evaluation criteria and rigorous designed research in the further.

Objective To determine the safety criteria for early goal-oriented rehabilition exercise in patients undergoing mechanical ventilation in intensive care unit (ICU) by systematic review.Methods Randomized controlled trails (RCTs) and cohort studies about early goal-oriented rehabilition exercise in patients undergoing mechanical ventilation in ICU were retrieved in CBM,CNKI,Wanfang Data,PubMed,Cochrane Library and Web of Science from their foundation to March 2018,and other sources as supplement was also retrieved.The intervention program of RCT study was ICU routine nursing in control group,early activity in observation group,and early activity in cohort study without control group.Early activities included active and passive activities on the bed,sitting upright,bed-chair transfer,standing and walking.Literature screening and data extraction were performed independently by two researchers.Variables or parameters.related to cardiovascular,respiratory,nervous,orthopedic and other systems were collected for safety criteria.Variables or parameters used in at least three literatures were collected for each system.Cochrane 5.1.0 was used to evaluate the quality of RCT study,and Newcastle-Ottawa scale (NOS) was used to evaluate the quality of cohort study.Results A total of 24 articles about early activity of patients undergoing mechanical ventilation in ICU were enrolled,involving 4647 patients,including 11 RCT studies involving 1 031 patients,509 in control group and 522 in observation group;13 cohort studies including 3616 patients.It was shown by systematic review that safety criteria for early activity in patients undergoing mechanical ventilation in ICU involved five systems,20 variables or parameters.The cardiovascular system included 8 variables or parameters,such as 40 bpm ＜ heart rate (HR) ＜ 130 bpm (n =4),hemodynamic stability (n =5),no myocardial infarction (n =3),no arrhythmia (n =4),no vascular active drugs (n =4),90 mmHg ＜ systolic blood pressure (SBP) ＜ 200 mmHg (1 mmHg =0.133 kPa,n =4),65 mmHg ≤ mean arterial pressure (MAP) ≤ 110 mmHg (n =3),no history of cardiopulmonary resuscitation (CPR,n =5).The respiratory system included 4 variables or parameters,involving 5 times/min ＜ respiratory rate (RR) ＜ 40 times/min (n =5),fraction of inspired oxygen (FiO2) ≤ 0.60 and positive end-expiratory pressure (PEEP) ≤ 10 cmH2O (1 cmH2O =0.098 kPa,n =4),FiO2 ＜ 0.60 or PEEP ＜ 10 cmH2O (n =3),pulse blood oxygenation (SpO2) ＞ 0.88 (n =5).The nervous system included 4 variables,including no neuromuscular disease (n =7),no increase in intracranial pressure (n =7),no coma (n =4),understand and do the right thing (n =4).The orthopedic system included 2 variables,including no fracture (n =3),no unstable fracture (n =8).Other factors included 2 variables,including no open abdomen wound (n =4),and no palliative care (n =3).Conclusions This study identified safety criteria for early goal-directed rehabilition exercise in patients undergoing mechanical ventilation in ICU included five systems of cardiovascular,respiratory,neurological,orthopedic,and other systems,in which cardiovascular and respiratory systems were the most frequently cited variables or parameters.The consistency of each system security criteria or variables reported by different literatures was high,but the parameters need to be further verified by high-quality study.

Objective To explore effective and objective diagnostic tools for evaluating intensive care unit acquired weakness (ICUAW). Methods The studies about evaluation and diagnosis of adult ICUAW in PubMed, Embase, Web of Science, the Cochrane Library, CNKI, CBM, VIP and Wanfang databases from the date of their foundation to July 1st in 2018 were retrieved by computer. The literatures in Chinese and English were searched. Two investigators independently screened literature and evaluated the literature quality ratings, and extracted the research design, sample size, research object, evaluation item, reliability, validity, clinical application and other indicators, and then systematically analyzed the reliability and validity of ICUAW diagnostic tools, and evaluated diagnostic tools' advantages, disadvantages and application status. Results There were 19 literatures including 14 assessment scales and ultrasound diagnosis. The 14 assessment scales were medical research council score (MRC-Score), Barthel index (BI), 6-minute walk test (6MWT), clinical outcome variables scale (COVS), the Chelsea critical care physical assessment tool (CPAx), functional independence measure (FIM), functional status score for the intensive care unit (FSS-ICU), the ICU mobility scale (IMS), rivermead mobility index (RMI), the Perme ICU score (PERME), the physical function ICU test (PFIT), the physical function ICU test score (PFIT-s), the surgical ICU optimal mobility score (SOMS), and the Manchester mobility score (MMS). Nine scales (60%) were tested reliability and the rang of inter-rater reliability was 0.600-0.996, and the test reliability was 0.970, and the range of internal consistency reliability was 0.680-0.992. Validity of 6 scales (40%) were evaluated, and the range of structure validity was 0.57-0.94, the range of content validity was 0.830-0.988, the range of concurrent validity was 0.730-0.823. It was shown that the reliability of ICUAW assessment scale was relatively good at present, but the degree of accurate assessment of ICUAW was relatively low. The evaluation content of ICUAW can be divided into three categories: in the first, they measured the muscles strength of body just like MRC-Score; in the second, they evaluated the physical function and mobility, such as COVS, CPAx, FIM, FSS-ICU, IMS, PERME, PFIT, RMI, SOMS and MMS; in the third, they evaluated daily activity and physiology parameter just as 6MWT, BI and ultrasound. Different scales were correlated with the length of ICU stay (ICU-LOS), the hospital discharge, and the mortality. For example: COVS, CPAx, FSS-ICU, PFIT, PFIT-s and SOMS could predict the ICU-LOS and hospital discharge, RMI and SOMS can predict patient mortality. However, there was no evidence to testify the consistency between them. Now, the specialist consensus about the observation nodes of threshold and electrophysiological records were the complex action potential (CMAP) range < 0.43-0.65 mV and the sensory nerve action potential (SNAP) range < 17.6 μV. Conclusions There are many diagnostic tools in ICUAW, and the reliability of each scale is relatively good. In future studies, we should collect the advantages of each scale, explore the specific indicators to evaluate ICUAW and improve the accuracy and validity of diagnostic ICUAW.