This paper is to explore changes of intestinal mucosal barrier, intestinal flora, and bacterial translocation in rats with severe acute pancreatitis (SAP). Twenty four male SD rats were randomly divided into the control group (n=10) and the experimental group (n=14). The model of severe acute pancreatitis of rats was induced by the method of injecting adversely 5% sodium taurocholate into the common biliary-pancreatic duct. All of the rats were killed after 24 hours and the level of the serum amylase and the plasma endotoxin was determined after that. The pathological changes of pancreas and small intestine were observed through hematoxylin-eosin staining (HE staining) and the abdominal viscera bacterial translocation rates were tested. With the method of real-time polymerase chain reaction (RT-PCR) the quantity of the intestinal flora was analyzed. In the control group, the level of Escherichia coli, Lactobacillus and Bifidobacterium were 2.08±1.29, 11.04±7.55 and 12.21±4.95, respectively. On the contrast, the level of Escherichia coli in the cecum contents was much higher (9.72±3.58, P < 0.01), while the Lactobacillus number was decreased significantly (0.67±0.34, P < 0.01), and the Bifidobacterium number was also decreased (4.59±3.42, P < 0.05) in the experimental group, so the ratio of Bifidobacterium/Escherichia coli was reversed. Besides, in the experimental group, the plasma endotoxin positive rates and the bacterial translocation rates were much higher (P < 0.01 or P < 0.05) and the pathology scores of pancreas and small intestines were also significantly higher (P < 0.01) than those in the control group. These results indicated that in severe acute pancreatitis rats, the intestinal mucosal barrier was severely damaged and the dysbacteriosis occurs in the intestinal canal. And these might relate to the occurrence and development of multiple organ infection.
ObjectiveTo investigate the prevalence of preoperative intestinal dysbacteriosis in colorectal cancer patients and its risk factors.MethodsFrom March 2016 to December 2017, patients who received colorectal cancer surgery in the Department of Gastrointestinal Surgery in West China Hospital were prospectively recruited in the study. Fresh fecal samples were collected on the day of admission for gram-stainsmears. The diet, preexisted diseases, medication, and treatment before admission were investigated by a self-designed semi-structured questionnaire.ResultsSum to 257 patients were recruited, 123 patients (47.9%) of them had normal intestinal bacterial, 48 patients (18.7%) were in preoperative dysbacteriosis grade Ⅰ, 61 patients (23.7%) were in gradeⅡ, 25 patients (9.7%) were in grade Ⅲ. Orderly logistic regression showed that patients who received antibiotics for 30 days or more per year had a higher risk of preoperative dysbacteriosis than those who did not receive antibiotics (OR=3.38, P=0.025). Patients with BMI≥24.0 kg/m2 had a lower risk of dysbacteriosis than patients with BMI<18.5 kg/m2 (BMI 24.0~27.9 kg/m2, OR=0.36, P=0.030; BMI≥28.0 kg/m2, OR=0.23, P=0.032).ConclusionMore than half of colorectal cancer patients have intestinal dysbacteriosis prior to surgery, which may be associated with exposure to antibiotics before admission and low BMI.
Proton pump inhibitors (PPIs) are widely used in digestive system diseases, but long-term use of PPI may cause Clostridium difficile infection, small intestinal bacterial overgrowth, spontaneous bacterial peritonitis and gastrointestinal barrier dysfunction. Probiotics can improve the digestive tract microecological disorder caused by the application of PPI by inhibiting the colonization of bacteria in the intestinal tract, regulating the body’s immunity, reducing the pH value of the intestinal tract, and enhancing the barrier function of the intestinal mucosa. This article elaborates on the influence of PPI on the microecology of the digestive tract and the regulation of probiotics on the microecology of the digestive tract, aiming to provide some ideas for the digestive tract microecological disorders caused by the application of PPI in clinical practice and their intervention strategies.
Objective To summarize the research status and progress of intestinal microecology and trauma, in order to provide ideas for high-quality and effective treatment of trauma. Method The literatures on intestinal microecology and trauma at home and abroad in recent years were analyzed and reviewed. Results Intestinal microecology changed after trauma, but the mechanism of trauma on intestinal microecology was not clear. Intestinal microecological agents (such as probiotics), fecal bacteria transplantation, and traditional Chinese medicine treatment could maintain post-traumatic intestinal microecology. Conclusions The relationship between trauma and intestinal microbiota may provide valuable diagnostic, preventive, and therapeutic insights for improving the outcome after trauma, but the impact, mechanism, and intervention measures of trauma on intestinal microecology still need to be further studied.
Non-erosive gastroesophageal reflux disease (NERD) refers to a disease with symptoms such as acid reflux, heartburn and pathological reflux, but no significant esophageal mucosal damage under endoscopy. Its pathogenesis may be related to factors such as lower esophageal sphincter dysfunction, weakened esophageal clearance ability, visceral hypersensitivity, and disordered intestinal microecology, but the specific mechanism is still unclear. Small intestinal bacterial overgrowth (SIBO) is a common intestinal flora disorder syndrome. A number of studies have shown that SIBO has a certain correlation with NERD, and SIBO may be involved in the occurrence and development of NERD through mechanisms such as inflammatory response, gas production, and increased short-chain fatty acids. Therefore, this article reviews the correlation between NERD and SIBO, aiming to provide new ideas for the diagnosis and treatment of NERD.
Objective To explore the relationship between nasopharyngeal microecology and diseases in children with bronchial asthma. Methods A total of 41 children with asthma who were treated in Hainan Provincial Hospital of Traditional Chinese Medicine between November 2020 and March 2023 were retrospectively included in the study, and 26 healthy children undergoing adenoid examination in the same period were selected as the control group. Samples of nasal mucosa were collected from the anterior and medial side of inferior turbinate, and the expression of DEFB2, IL17A, TSLP, IL13, IL5 and T1R3 genes was analyzed by polymerase chain reaction. Nasal swabs were collected from the children, and the bacterial composition was analyzed by 16S ribosomal RNA gene sequencing. Results Compared with the control group, the rate of atopy cases in the asthma group increased significantly (53.7% vs. 19.2%, P<0.05). At the phylum level, compared with the control group, the phylum Chloroflexi, the phylum Patescibacteria, the phylum Tenericutes and the phylum Nitrospirae in the asthma group increased significantly (P<0.05), and the phylum Elusimicrobia decreased significantly (P<0.05). At the genus level, compared with the control group, the members of Bacillus (Fimnicutes), Ruminococcus (Fimnicutes), Rhodococcus (Actinobacteria), Acinetobacter (Proteobacteria), Moraxella (Proteobacteria) and Asaia (Proteobacteria) in the asthma group increased significantly (P<0.05), and the members of Enterococcus (Fimnicutes), Alkanindiges (Proteobacteria), Rickettsia (Proteobacteria), and Rhizobium (Proteobacteria) in the asthma group decreased significantly (P<0.05). Compared with the control group, the Shannon index of the asthma group decreased significantly (2.63±1.45 vs. 3.90±1.44; t=2.708, P=0.010). According to receiver operating characteristic curve analysis, the optimal cut-off point of Shannon index was 3.10. In all study populations, compared with children whose Shannon index was higher than the cut-off point, children whose Shannon index was lower than the cut-off point were characterized by increased expression of IL17A and T1R3 (P<0.05) and decreased expression of TSLP (P<0.05). Conclusion The composition and abundance of nasopharyngeal microbiota are significantly different between children with asthma and healthy control children.