Objective:We aimed to develop a novel visualized model based on nomogram to predict postoperative overall survival.Methods:This was a multicenter, retrospective, observational cohort study, including participants with histologically confirmed gastric and colorectal cancer who underwent radical surgery from 11 medical centers in China from August 1, 2015 to June 30, 2018. Baseline characteristics, histopathological data and nutritional status, as assessed using Nutrition Risk Screening 2002 (NRS 2002) score and the scored Patient-Generated Subjective Global Assessment, were collected. The least absolute shrinkage and selection operator regression and Cox regression were used to identify variables to be included in the predictive model. Internal and external validations were performed.Results:There were 681 and 127 patients in the training and validation cohorts, respectively. A total of 188 deaths were observed over a median follow-up period of 59 (range: 58 to 60) months. Two independent predictors of NRS 2002 and Tumor-Node-Metastasis (TNM) stage were identified and incorporated into the prediction nomogram model together with the factor of age. The model's concordance index for 1-, 3- and 5-year overall survival was 0.696, 0.724, and 0.738 in the training cohort and 0.801, 0.812, and 0.793 in the validation cohort, respectively.Conclusions:In this study, a new nomogram prediction model based on NRS 2002 score was developed and validated for predicting the overall postoperative survival of patients with gastric colorectal cancer. This model has good differentiation, calibration and clinical practicability in predicting the long-term survival rate of patients with gastrointestinal cancer after radical surgery.

As an important element of medical and health sector innovation, the translation of scientific and technological achievements plays a key role in promoting their clinical application and meeting the medical needs of the people. The authors sorted out the problems in such translation at these affiliated hospitals in terms of " people", " finance", " material", and " system". Starting from 2017, the Tenth People′s Hospital Affiliated to Tongji University has explored such practices as establishing hospital-led clinical medical science and technology innovation parks and technology service limited companies. These practices aimed to address the issues of insufficient hospital scientific and technological innovation capabilities and the gap between the hospital′s operation mechanism to translate its scientific and technological achievements and the enterprises and the market. The clinical medical science and technology innovation park integrating administration, industry, education, research, medicine and application, has taken multiple measures to attract excellent research talents and projects from within and beyond the hospital, promote the implementation of innovative scientific research projects. The hospital also established a health industry mode with engagement of social capital from large enterprises. The Technology Services Co., Ltd. was based on the incubation and translation of hospital achievements, combining market and clinical needs, promoting multi-party cooperation between hospitals and external enterprises, improving the chain operation mechanism of hospital scientific and technological achievements translation work, and alleviating the problem of insufficient research pilot funds and productibility funds by means of hospital-led fundraising. The number of patent authorizations of hospitals had increased from 23 cases in 2018 to 105 in 2022, and the amount of patent conversion had increased from 2 million yuan in 2020 to 11 million yuan in 2022. It is recommended that affiliated hospitals of universities further improve the organizational structure of achievement translation, strengthen their professional talent teams, improve their operation mechanism of achievement translation, build a platform for medical school-enterprise cooperation, and improve the evaluation mechanism of translation assessment, in order to promote a virtuous cycle of hospital′s scientific and technological achievement translation work.

Objective: To evaluate the efficacy and safety of fecal microbiota transplantation (FMT) in the treatment of autism spectrum disorder (ASD). Methods: A longitudinal study was conducted. Clinical data from ASD patients with gastrointestinal symptoms and who underwent FMT in the Tenth People's Hospital affiliated to Tongji University or Jinling Hospital between May 2012 to May 2021 were retrospectively collected. Scores derived from the autism behavior checklist (ABC), the childhood autism rating scale (CARS), the Bristol stool form scale (BSFS), and the gastrointestinal symptom rating scale (GSRS) were analyzed at baseline and at the 1st, 3rd, 6th, 12th, 24th, 36th, 48th and 60th month after FMT. Records of any adverse reactions were collected. Generalized estimating equations were used for analysis of data on time points before and after FMT. Results: A total of 328 patients met the inclusion criteria for this study. Their mean age was 6.1±3.4 years old. The cohort included 271 boys and 57 girls. The percentage of patients remaining in the study for post-treatment follow-up at the 1st, 3rd, 12th, 24th, 36th, 48th and 60th month were as follows: 303 (92.4%), 284 (86.7%), 213 (64.9%), 190 (57.9%), 143 (43.6%), 79 (24.1%), 46 (14.0%), 31 (9.5%). After FMT, the average ABC score was significantly improved in the first 36 months and remained improved at the 48th month. However, the average score was not significantly different from baseline by the 60th month (1st-36th month, P<0.001; 48th month, P=0.008; 60th month, P=0.108). The average CARS score improved significantly during the first 48 months and remained improved at the 60th month (1st-48th month, P<0.001; 60th month, P=0.010). The average BSFS score was also significantly improved in the first 36 months (with an accompanying stool morphology that resembled type 4). This improvement was maintained at the 48th month. However, the average score was similar to baseline at the 60th month (1st-36th month, P<0.001; 48th month, P=0.008; 60th month, P=0.109). The average GSRS score was significantly improved during the first 24 months, but not afterwards (1st-24th month, P<0.001; 36th month, P=0.209; 48th month, P=0.996; 60th month, P=0.668). The adverse events recorded during treatment included abdominal distension in 21 cases (6.4%), nausea in 14 cases (4.3%), vomiting in 9 cases (2.7%), abdominal pain in 15 cases (4.6%), diarrhea in 18 cases (5.5%), fever in 13 cases (4.0%), and excitement in 24 cases (7.3%). All adverse reactions were mild to moderate and improved immediately after suspension of FMT or on treatment of symptoms. No serious adverse reactions occurred. Conclusion: FMT has satisfactory long-term efficacy and safety for the treatment of ASD with gastrointestinal symptoms.
Autism Spectrum Disorder/therapy* ; Child ; Child, Preschool ; Fecal Microbiota Transplantation/adverse effects* ; Feces ; Female ; Gastrointestinal Diseases ; Humans ; Longitudinal Studies ; Male ; Retrospective Studies

Crohn's disease (CD) is a chronic nonspecific inflammatory bowel disease that can involve the whole digestive tract. At present, the pathogenesis is believed to be mainly related to environment, genetics and intestinal microecology changes. Compared with healthy people, CD patients demonstrate different degrees of flora imbalance in the digestive tract, and the flora composition varies across different regions. In recent years, reconstruction of gastrointestinal microecological balance has become the focus of research. Fecal microbiota transplantation as a new treatment strategy has been gradually applied in clinical practice. Here we reviewed the changes of flora across different regions of digestive tract in patients with CD and the relevant pathogenic mechanism, as well as the progress of fecal microbiota transplantation in the treatment of CD.

Objective:To formulate sustainable development strategies for the newly-found clinical science and technology innovation park to improve the clinical research and disease diagnosis and treatment.Methods:PEST-SWOT model was used to analyze the internal and external environmental factors that impact the development of the park.Results:The advantages and disadvantages of the park were analyzed as well as the opportunities and challenges. Effective strategies for the construction and development of the park were put forward from four aspects, such as SO, ST, WO and WT.Conclusions:The development strategy proposed in this study is conducive to establish a well-known clinical science and technology innovation park which is an institute integrating clinical and scientific research.

Fecal microbiota transplant (FMT) has become an effective method for the treatment of recurrent C. difficile infection. In addition, it has shown certain effects in other diseases inside and outside the intestine. A large number of clinical trials have been carried out. However, there is still lack of uniform standard for strategies of FMT. In this paper, we discussed the current hot and controversial issues of FMT from the aspects of indication, donor screening, fecal suspension quality control, methodology, follow-up and efficacy judgment, treatment of adverse reaction and ethical supervision based on our team's clinical experience.

Objective:To investigate the effect of different fecal bacterial preservation time on the efficacy and complications of FMT.Methods:A retrospective cohort study was carried out. Clinical data of 483 patients with slow transit constipation undergoing voluntary FMT at Intestinal Microecology Diagnosis and Treatment Center from August 2017 to October 2019 were retrospectively collected. According to the storage time of fecal bacterial samples used in FMT treatment, the cases were divided into fresh bacterial solution ( n=29), bacterial solution stored at -80℃ for 1 week ( n=187), 1 month ( n=121), 3 months ( n=89), 6 months ( n=38), and 12 months (n=19). The total number of complete bowel movement, Wexner constipation score, gastrointestinal quality of life index (GIQLI), FMT satisfaction score and related adverse reactions were summarized and compared among groups 1 week and 1 month after FMT treatment. Results:There were no statistically significant differences in the baseline data of patients among different bacterial solution storage time (all P>0.05). After 1 month of treatment, the overall frequency of defecation of all the patients was (3.83 ± 1.22) times/week, Wexner constipation score was (6.74 ± 3.56) points, GIQLI score was (108.76 ± 15.38) points, clinical cure rate was 57.8% (279/483). The improvement rate was 66.3% (320/483), and the treatment satisfaction was (3.85 ± 0.93) points. No severe FMT-associated complication and death were observed during treatment and follow-up period. FMT-related adverse events occurred in 115 cases (23.8%), including nausea in 25 cases (5.2%), vomiting in 13 (2.7%), diarrhea in 21 (4.3%), abdominal pain in 16 (3.3%), abdominal distension in 33 (6.8%), sore throat in 56 (11.6%) and fever in 16(3.3%), all of which relieved after symptomatic treatment. There were no statistically significant differences in the number of defecations, Wexner constipation scores, and GIQLI scores before FMT, 1 week and 1 month after FMT treatment among different bacterial solution storage groups (all P>0.05). Differences of clinical cure rate, clinical improvement rate, and treatment satisfaction of patients 1 week and 1 month after treatment were not statistically significant (all P>0.05). Among the groups, differences in the overall complications and types of complications after FMT treatment were not statistically significant (all P>0.05). Conclusions:FMT is safe and effective in the treatment of slow transit constipation. Fresh fecal bacterial samples or fecal bacterial samples frozen at -80℃ for 1 year can be safely applied to FMT for the treatment of slow transit constipation, with stable short-term efficacy and without serious adverse reactions.

Objective:To evaluate the efficacy and safety of the fecal microbiota transplantation (FMT) in the different route administration for slow transit constipation (STC).Methods:A retrospective cohort study was conducted. The clinical data of 270 STC patients who voluntarily received FMT treatment in the Tenth People's Hospital of Tongji University from May 2018 to May 2019 were collected. Non-relative healthy adult standard donors were applied. The treatment routes of bacterial flora transplantation included nasojejunal tube (nasal enteral tube group, 120 cases), oral enterobacterial capsule treatment (oral capsule group, 120 cases), and colonoscopy infusion (colonoscopy group, 30 cases). The efficacy and safety of treatment among the three groups were compared.Results:Transplanted bacteria of three groups were extracted from 100 g of fresh feces. All the patients successfully completed the transplantation. The waiting time for the nasal enteral tube group, oral capsule group and colonoscopy group was (1.5±0.5) d, (0.4±0.3) d and (3.6±0.8) d respectively; the cost of establishing the transplantation path was (495±20) yuan, (25±10) yuan and (1420±45) yuan respectively, whose differences were statistically significant ( F=9.210, P=0.03; F=10.600, P=0.01). The clinical improvement rates at 1 month after FMT treatment in the nasojejunal tube group, oral capsule group and colonoscopy group were 74.2% (89/120), 60.0% (72/120) and 53.3% (16/30) respectively, whose difference was statistically significant (χ 2=5.990, P<0.05). The clinical improvement rates at 3 months after treatment were 71.1% (69/97), 53.6% (45/84), and 44.0% (11/25) respectively, whose difference was statistically significant (χ 2=7.620, P<0.05). The incidence of adverse reactions in the colonoscopy group was 76.7% (23/30), which was higher than that in the nasal nasojejunal group (39.2%, 47/120) and oral capsule group (21.7%, 26/120). The most common adverse reactions in the nasojejunal tube group, oral capsule group and colonoscopy group were respiratory discomfort (17.5%, 21/120), nausea and vomiting (10.0%, 12/120), and diarrhea (36.7%, 11/30). During the 3-month follow-up after treatment, no FMT-related adverse reactions were reported. Conclusions:The nasojejunal tube route has stable clinical efficacy and operability, while the oral capsule route has shorter waiting time and less cost. However, the adverse reactions caused by different transplantation methods are different, thus personalized transplantation method should be recommended.

Inflammatory bowel disease (IBD) is a group of chronic, recurrent, and inflammatory intestinal diseases. At present, it is believed that the destruction of intestinal homeostasis may be the cause of the onset and progression of IBD. Under normal circumstances, the maintenance of intestinal homeostasis depends on the balance among the intestinal microbes, the intestinal mucosal barrier, and the immune system. Accordingly, the treatment strategy for IBD must take into account micro-ecological reconstruction, immune regulation and intestinal barrier function recovery. Because different patients have different responses to incentives, different treatments, or those at different stages of the disease course show different disease behaviors, multidisciplinary collaboration seems quite necessary. This article aims to introduce a five-in-one integrated treatment strategy, including microecological treatment, immunotherapy, enteral nutrition, interventional therapy, and surgical treatment.

Objective:To investigate the effect of intestinal preparation on the efficacy and complications of fecal microbiota transplantation (FMT).Methods:A retrospective cohort study was performed. Clinical and follow-up data of 1501 patients who received FMT in the department of Colorectal Disease Specialty, Intestinal Microecology Diagnosis and Treatment Center, the Tenth People′s Hospital, Tongji University from February 2018 to June 2019 were collected retrospectively. According to the intestinal preparation before FMT treatment, patients were divided into non-intestinal preparation group ( n=216), antibiotic pretreatment group ( n=383), intestinal cleansing group ( n=267), and antibiotic combined with intestinal cleansing group ( n=635). The adverse reactions after FMT treatment and the effective rates at 4-week and 8-week after treatment among the groups were compared. Patients, who repeated FMT treatment in the 3rd month and the 6th month due to reduced efficacy or ineffectiveness were divided into two subgroups: without intestinal preparation group and with intestinal preparation group. The effective rates of the two subgroups were compared. Results:Of the 1501 cases, 588 were male and 913 were female with mean age of (43.3±13.7) years and body mass index of (20.2±2.1) kg/m 2. Transplantation course was (3.3±1.7) weeks. The underlying diseases mainly included constipation ( n=564), Crohn's disease ( n=157), ulcerative colitis ( n=142), irritable bowel syndrome ( n=158), recurrent C. difficile infection (CDI) ( n=106), autism ( n=84), radiation intestinal injury ( n=133), radiation enteritis ( n=133), and non-CDI chronic diarrhea ( n=60); the remaining cases ( n=155). Baseline data among the 4 groups were not significantly different (all P>0.05). The overall morbidity of complication was 31.1% (467/1501), including 41 cases of vomiting (2.7%), 91 of nausea (6.1%), 49 of diarrhea (3.3%), 41 of abdominal pain (2.7%), 79 of bloating (5.3%), 72 of throat pain (4.8%), 38 of dizziness (2.5%), 51 of fever (3.4%), 3 of pulmonary infection (0.2%) and 2 of intestinal infection (0.1%). The above symptoms disappeared after symptomatic treatment. There was no statistically significant difference in the incidence of adverse reactions among the 4 groups ( P>0.05). After 4-week of FMT treatment, the overall effective rate was 63.5% (902/1420); the effective rate of non-intestinal preparation group, antibiotic pretreatment group, intestinal cleaning group, and antibiotic combined with intestinal cleansing groupwas 57.6% (114/198), 64.2% (231/360), 60.2% (154/265) and 66.5% (403/606), respectively, with no statistically significant difference (χ 2=6.659, P=0.084). After 8-week of FMT treatment, the overall effective rate was 61.3% (729/1293); the effective rate of non-intestinal preparation group, antibiotic pretreatment group, intestinal cleaning group, and antibiotic combined with intestinal cleansing group was 54.0% (88/163), 62.2% (202/325), 57.4% (132/230) and 64.4% (370/575), respectively, with no statistically significant difference (χ 2=13.620, P=0.003). The effective rates of antibiotic combined with intestinal cleansing group and antibiotic pretreatment group were obviously higher than that of non-intestinal preparation group (χ 2=5.789, P=0.016; χ 2=10.117, P=0.001). Subgroup analysis showed that in the third month, the effective rate at 4-week after treatment was 60.1% (184/306) in the without intestinal preparation group and 61.5% (115/187) in the with intestinal preparation group, whose difference was not significant (χ 2=0.091, P=0.763); however, in the sixth month, the effective rate at 4-week after treatment was 51.4% (89/173) in the without intestinal preparation group and 61.2% (161/263) in the with intestinal preparationgroup, whose difference was significant (χ 2=4.229, P=0.040). Conclusions:FMT treatment is safe and effective. The combination of antibiotics and intestinal cleaning can improve overall efficacy of FMT. For patients who need repeated FMT treatment, the combination of antibiotics and intestinal cleaning program within 3 months has no significant effect on the effective rate, but in the sixth month, combinedpreparation is necessary.