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Objective:To explore the correlation between Traditional Chinese Medicine (TCM) syndrome types of Sj?gren syndrome (SS) and blood test parameters, immunological function and disease activity.Methods:A retrospective cross-sectional study was conducted. The clinical data of 242 SS inpatients in the Rheumatology and Immunology Department of Jiangsu Province Hospital of TCM from February 2021 to June 2022 were analyzed retrospectively. We compared the general data (gender, age, course of disease, BMI), blood parameters [WBC, hemoglobin (Hb), PLT, neutrophil count (NEUT), lymphocyte count(LYMPH), neutrophil/lymphocyte ratio (NLR)], immunological indicators (globulin, IgG, IgA, IgM, rheumatoid factor (RF), anti-SSA antibody, anti-SSB antibody, anti-Ro-52 antibody) .The distribution difference of disease activity [Disease Activity Index of Sjogren's syndrome (ESSDAI) and Patient Report Index of Sjogren's syndrome (ESSPRI)], the correlation between each syndrome type and blood routine parameters, immunological indicators and inflammatory indicators was analyzed by binary logistic regression.Results:They were divided into 82 cases of qi yin deficiency syndrome, 61 cases of yin deficiency and fluid deficiency syndrome, 59 cases of yin deficiency and blood stasis syndrome, 32 cases of yin deficiency and heat toxin syndrome, and 8 cases of other syndrome types. Because the number of other syndrome types was small, they were not included in this study. Logistic regression analysis showed that the positive rate of anti SSA antibody was negatively correlated with IgM [ OR (95% CI)=0.570 (0.407, 0.798)] ( P<0.01). The positive rates of anti SSB antibody and anti Ro-52 antibody were negatively correlated with LYMPH [ OR (95% CI)=0.445 (0.223, 0.886), 0.457 (0.224, 0.932), respectively] ( P<0.05). The positive rates of anti SSB antibody and anti Ro-52 antibody were positively correlated with IgG [ OR (95% CI)=1.171 (1.034, 1.325), 1.159 (1.014, 1.325), respectively] ( P<0.05). Qi Yin deficiency syndrome was positively correlated with WBC [ OR (95% CI)=2.590 (1.120, 5.987)] ( P<0.05), and negatively correlated with LYMPH [ OR (95% CI)=0.090 (0.017, 0.470)] and IgA [ OR (95% CI)=0.728 (0.553, 0.959)] ( P<0.05). Yin deficiency and fluid deficiency syndrome were negatively correlated with PLT [ OR (95% CI)=0.991 (0.984, 0.998)], ESSPRI [ OR (95% CI)=0.705 (0.506, 0.983)], ESSDAI [ OR (95% CI)=0.716 (0.534, 0.960)] ( P<0.05). Yin deficiency and blood stasis syndrome was positively correlated with IgA [ OR (95% CI)=1.184 (1.028, 1.363)] ( P<0.05), and negatively correlated with anti SSB antibody positive rate [ OR (95% CI)=0.247 (0.093, 0.659)] ( P<0.05). Yin deficiency heat toxin syndrome was positively correlated with IgA [ OR (95% CI)=1.368 (1.037, 1.803)] ( P<0.05), and negatively correlated with anti SSB antibody positive rate [ OR (95% CI)=0.278 (0.085, 0.909)] ( P<0.05). Conclusion:The level of immunoglobulin, inflammatory index and disease activity of yin deficiency and blood stasis syndrome and yin deficiency and heat toxin syndrome are high, and blood system damage and exocrine gland disease are easy to occur, which can provide clinical basis for the combination of disease and syndrome differentiation and treatment of SS.
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Objective To observe the effects of road transport on hematological and biochemical parameters in New Zealand rabbits.Methods A total of 12 healthy New Zealand rabbits were selected for 2 h road transport.Blood samples were collected at 0, 24, 48, 72 and 96 h after transport, respectively.White blood cells (WBC), red blood cells (RBC), hemoglobin (HGB), hematocrit (MCV), mean erythrocyte hemoglobin content (MCH), mean erythrocyte hemoglobin concentration (MCHC) and platelets (PLT) were measured using a blood analyzer.Blood alanine aminotransferase (ALT), aspartate aminotransferase (AST), albumin (ALB), total protein (TP), urea nitrogen (UREA), creatinine, uric acid (UA), triglycerides (TG), total cholesterol (COHL), glucose (GLU), hypersensitive C-reactive protein (CRP), α-amylase (AMYL), and creatine kinase (CK) were detected by an automatic biochemical analyzer.Results Compared the parameters before and after transport, The WBC count was increased first (P< 0.05 or P < 0.01) and then decreased after transport, the levels of RBC, HGB, HCT and PLT were decreased first (P< 0.05 or P < 0.01) and then increased after transport, and MCV was significantly high at 96 h after transport (P< 0.05).Among the clinical biochemical parameters, ALT, AST and BUN were firstly elevated (P< 0.05 or P < 0.01) and then decreased.TP, ALB as well as CREA and TG were firstly decreased (P< 0.05 or P < 0.01) and then increased.GLU was significantly low at 24 h after transport (P< 0.05).All parameters except MCV at 96 h after transport were not significantly different from those before transport.Conclusions Changes of blood routine, liver and kidney function indexes, lipid metabolism indexes, glucose metabolism index and creatine kinase index are observed in the New Zealand rabbits after 2-hour road transportation, and all the indicators except MCV return to pre-transport levels within 96 h.