Humans ; Acute Disease ; Pancreatitis/diagnosis* ; Follow-Up Studies ; Patient Discharge ; Disease Progression

Objective:To investigate the correlation between gender, age, blood collection time, season and changes in cTnT concentration.Methods:In this study, 3548 patients (non-cardiovascular diseases) in Zhongshan Hospital of Fudan University were selected from 1 January to 31 December 2019. The basic data of the patients were collected, including gender, age, time of blood collection, medical history, clinical diagnosis, and results of cTnT testing. 1 840 males and 1 708 females were finally enrolled, with an age distribution of 65 (53, 75) years. The distribution of the data was assessed using the Kolmogorov-Smirnov (K-S) test, where non-normally distributed data were expressed as M( Q1, Q3). The Mann-Whitney U-test was used to compare cTnT concentrations between men and women, and to analyse the influence of gender on cTnT results. The Kruskal-Wallis test was used to compare cTnT levels between gender groups, to analyse the correlation between different times of blood collection, seasons, and other factors and cTnT concentrations. Result:cTnT concentrations increased with age in both males and females over the age of 60 years. cTnT levels were highest in individuals over the age of 90 years (0.028 ng/ml in males and 0.018 ng/ml in females). cTnT levels were higher in males (0.012 ng/ml) than in females (0.009 ng/ml) in all age groups ( H=6.340, P<0.01). The concentrations of cTnT varied at different time points of blood collection. In both males and females, cTnT concentrations reached a maximum at 8:00 and 13:00 (0.013 ng/ml and 0.012 ng/ml, respectively). Analysis of the physiological effect of season on cTnT secretion showed that cTnT levels were generally higher in spring and winter(0.012 ng/ml) than in summer and autumn(0.010 ng/ml). Conclusions:cTnT concentration is influenced by gender, age, time of blood collection and season. When analysing cTnT results in clinical practice, the gender and age of the individual should be taken into account, as well as the time point of blood collection and seasonal factors.

Objective:To analyze the influencing factors of incision infection in patients undergoing colorectal cancer surgery under the standards of enhanced recovery after surgery, to establish a prediction model for the risk of postoperative incision infection and to evaluate its efficacy, providing a reference for surgical site caring of colorectal cancer patients under enhanced recovery after surgery precisely.Methods:A cross-sectional survey was used, 285 patients who underwent colorectal tumor surgery in the Department of Gastrointestinal Surgery of the First Affiliated Hospital of Xinjiang Medical University and the First Department of Gastrointestinal Surgery and the Second Department of Gastrointestinal Surgery of Xinjiang Uygur Autonomous Region Cancer Hospital from July 2023 to January 2024 were prospectively selected as the study subjects by the convenience sampling method, 225 cases were used as the modeling group and 60 cases were selected as the external validation group. The preoperative data, intraoperative data and postoperative data of subjects were collected. Postoperative incision infection was taken as the outcome index. Univariate analysis and multivariate Logistic regression analysis were used to screen the independent risk factors of postoperative incision infection of patients with colorectal tumors, and drew a nomogram, Hosmer-Lemeshow test and receiver operating characteristic (ROC) curve were used to verify the model.Results:The modeling group consisted of 131 males and 94 females aged (58.42 ± 16.24) years old. There were 35 males and 25 females in the external validation group, with an age of (57.16 ± 16.28) years. Multivariate analysis showed that malnutrition ( OR=6.614, 95% CI 2.008-21.789), length of hospital stay ( OR=1.058, 95% CI 1.004-1.114), interleukin-6 ( OR=1.041, 95% CI 1.021-1.062), and lymphocyte count ( OR=0.275, 95% CI 0.093-0.813) were independent risk factors for incision infection (all P<0.05). The area under the ROC curve of the modeling group was 0.921, the 95% CI was 0.754-0.902, the optimal cut-off value was 0.461, the sensitivity was 0.782, and the specificity was 0.785, concordance index of calibration curve was 0.971. External validation results showed that area under the ROC curve was 0.828, the 95% CI was 0.754-0.902, the optimal cut-off value was 0.438, the sensitivity was 0.745 and the specificity was 0.783. Conclusions:Under the enhanced recovery after surgery, the risk prediction model established in this study has good effect in predicting postoperative incision infection, which can provide a reference for early identification of high-risk patients with postoperative incision infection after colorectal cancer surgery.

Objective:To analyze the influencing factors of incision infection in patients undergoing colorectal cancer surgery under the standards of enhanced recovery after surgery, to establish a prediction model for the risk of postoperative incision infection and to evaluate its efficacy, providing a reference for surgical site caring of colorectal cancer patients under enhanced recovery after surgery precisely.Methods:A cross-sectional survey was used, 285 patients who underwent colorectal tumor surgery in the Department of Gastrointestinal Surgery of the First Affiliated Hospital of Xinjiang Medical University and the First Department of Gastrointestinal Surgery and the Second Department of Gastrointestinal Surgery of Xinjiang Uygur Autonomous Region Cancer Hospital from July 2023 to January 2024 were prospectively selected as the study subjects by the convenience sampling method, 225 cases were used as the modeling group and 60 cases were selected as the external validation group. The preoperative data, intraoperative data and postoperative data of subjects were collected. Postoperative incision infection was taken as the outcome index. Univariate analysis and multivariate Logistic regression analysis were used to screen the independent risk factors of postoperative incision infection of patients with colorectal tumors, and drew a nomogram, Hosmer-Lemeshow test and receiver operating characteristic (ROC) curve were used to verify the model.Results:The modeling group consisted of 131 males and 94 females aged (58.42 ± 16.24) years old. There were 35 males and 25 females in the external validation group, with an age of (57.16 ± 16.28) years. Multivariate analysis showed that malnutrition ( OR=6.614, 95% CI 2.008-21.789), length of hospital stay ( OR=1.058, 95% CI 1.004-1.114), interleukin-6 ( OR=1.041, 95% CI 1.021-1.062), and lymphocyte count ( OR=0.275, 95% CI 0.093-0.813) were independent risk factors for incision infection (all P<0.05). The area under the ROC curve of the modeling group was 0.921, the 95% CI was 0.754-0.902, the optimal cut-off value was 0.461, the sensitivity was 0.782, and the specificity was 0.785, concordance index of calibration curve was 0.971. External validation results showed that area under the ROC curve was 0.828, the 95% CI was 0.754-0.902, the optimal cut-off value was 0.438, the sensitivity was 0.745 and the specificity was 0.783. Conclusions:Under the enhanced recovery after surgery, the risk prediction model established in this study has good effect in predicting postoperative incision infection, which can provide a reference for early identification of high-risk patients with postoperative incision infection after colorectal cancer surgery.

OBJECTIVE: To investigate the effects of resveratrol (Res) on aging of marrow mesenchymal stem cells (MSCs), and to explore its mechanism. METHODS: MSCs were isolated from young SD rats and cultured in vitro. The optimal D-gal concentration for induction of MSCs senescence was determined. Then MSCs were randomly divided into four groups, namely the control group, 10μmol/L, 50μmol/L and 100μmol/L Res groups. After the cells were treated with different concentration of Res for 48 h, the senescence-associated changes were examined with senescence-associated-β-galactosidase (SA-β-gal) staining; the expression of p53, p16 and γ-H2AX was evaluated by Western blot. The total active oxygen species (ROS) level was determined by flow cytometry with DCFH-DA staining. In order to assess the effect of Res on the mitochondrial function, MitoSox Red staining was used to detect mitochondrial ROS levels in each group, mitochondrial membrane potential was detected by JC-1 assay, mPTP method was used to detect mitochondrial membrane channel opening level, and Western blot was used to detect the expression level of cytoplasmic cytochrome C (Cyt-C). RESULTS D-gal 10 and 50 g/L significantly increased the number of SA-β-gal positive cells and the level of mitochondrial ROS (all P<0.01). Therefore, 10 g/L D-gal was used to induce the senescence of MSCs in subsequent experiment. Compared with the control group, the number of SA-β-gal positive cells in Res groups significantly decreased (all P<0.01), the expression of p53, p16 and γ-H2AX decreased, and the total and mitochondrial ROS level also decreased (all P<0.01). Moreover, mitochondrial membrane potential, open level of mitochondrial membrane channels and the levels of cytoplasm Cyt-C in the Res treatment groups decreased compared with the control group (P<0.05 or P<0.01). CONCLUSIONS Resveratrol can protect the mitochondrial function of MSCs, and effectively delay the MSC senescence.

Objective To investigate how to control and decrease the number of rejected specimens in order to improve pre-analytical quality.Methods The 40 035 rejected blood specimens from 2007 to 2010 and the rejected body fluid specimens including 162 urine specimens and 167 feces specimens in 2010 in the Department of Clinical Laboratory Medicine,Zhongshan Hospital,Fudan University were analyzed retrospectively.Results were shown by the percentage of rejected specimens in which Pearson x2 test was used to assess the percentage of clotted specimens with different anticoagulant tubes.Results The percentage of rejected specimens collected by syringes with glass tubes or plastic tubes with anticoagulant artificially was 11.58％,which was higher than that of rejected specimens collected by vacuum blood collection system ( 1.33％ ).The percentage of rejected specimens from 2007 to 2010 collected by vacuum blood collection system was 13.29‰,1.49‰,0.76‰ and 0.52‰,respectively,which was decreased year by year.The three main reasons of rejected specimens were specimen clotted,insufficient specimen quantity and improper specimen type,respectively.Specimen clotted was more frequently in sodium citrate anticoagulant tube samples than others (x2 =202.3,P =0.000).The rejected specimens of body fluid specimens were mainly feces specimens without samples.The number of rejected feces specimens was significantly decreased from 2‰ above to 1.5‰ below with the implementations of transparent sample containers.Conclusion Appropriate improvement measures of rejected specimens with clinical communication should be taken by the clinical laboratory to reduce the number of rejected specimens and improve pre-analytical quality.

AIM: To study the effects of WT1 peptide-loaded dendritic cells (DC) stimulating the cytotoxic T lymphocytes (CTL) on K562 cells in vitro. METHODS: DC were generated from normal human peripheral blood mononuclear cells (PBMC) in the presence of granulocyte-macrophage colony stimulating factor(GM-CSF), interleukin-4 (IL-4) and tumor necrosis factor alpha (TNF-?) , DC were cultured with WT1 peptides , and then triggered T cells into specific CTL. RESULTS: Most suspended cells exhibited distinctive morphological features of DCs and they stimulated proliferation of allogenic lymphocytes. Under the effector : target ratio of ~20∶1 , CTLs derived from cultures with DC and WT1 peptides were showed 86.1%?26.8% cytotoxicity against K562 cells, cytotoxicity by CTLs derived from cultures with unloaded DC against K562 cells were 47.1%?20.8% and cytotoxicity by lymphocytes were 27.7%?15.3%. Cytotoxicity by CTLs derived from culture with WT1 peptides-loaded DC were the strongest among three groups (P