ObjectiveTo construct a standardized diagnostic scale for Qi-Yin deficiency with blood stasis syndrome in diabetic macrovascular disease. MethodsLiterature related to Qi-Yin deficiency with blood stasis syndrome in diabetic macrovascular disease was retrieved from CNKI， VIP， and Wanfang databases. Diagnostic information from four diagnostic methods was extracted and standardized， with items having a frequency of ≥15 included in the item pool. A three-round Delphi expert consultation was conducted， screening items using support degree， mean score， rank sum， and coefficient of variation. Item weights were determined using analytic hierarchy process （AHP）， gactor analysis （FA）， and combined weighting method （CWM）. The optimal weighting method was selected by comparing the area under the receiver operating characteristic （ROC） curve （AUC）. The Youden index was calculated to establish the diagnostic cutoff value， which was proportionally scaled. ResultsA total of 102 studies were included. Thirty-five items were incorporated into the item pool. The authority coefficients for the three Delphi rounds were 0.82， 0.85， and 0.86， with coordination coefficients of 0.648， 0.538， and 0.506， respectively. Fifteen items were retained after screening. ROC curve analysis showed the AUC ranking as FA > CWM > AHP. The maximum Youden index was 0.814， corresponding to a diagnostic cutoff of 8.361 （scaled to 40 points）. The final scale adopted a structured diagnostic framework： the symptom dimension requires at least 2 items， and the tongue or pulse dimension requires at least 1 category. ConclusionThis study developed a standardized diagnostic scale for Qi-Yin deficiency with blood stasis syndrome in diabetic macrovascular disease. Core items were screened via the Delphi method， with factor analysis identified as the optimal weighting method through AUC comparison. The diagnostic threshold （40 points） and structured diagnostic framework provide a quantitatively clear， clinically practical tool.

BACKGROUND:Studies have shown that tea polyphenols have anti-inflammatory effects on multiple organs,but there are few studies on the effects of tea polyphenols on central nervous system inflammation caused by exercise fatigue.OBJECTIVE:To explore the central anti-inflammatory effect and mechanism of tea polyphenols in exercise fatigue.METHODS:7-week-old male Kunming mice were divided into quiet control group,fatigue model group,and tea polyphenols group.In the fatigue model group,mice were given exhaustive swimming at one time.In the tea polyphenols group,tea polyphenols were injected into abdominal cavity half an hour before exhaustive swimming.The exhaustive swimming time in mice of fatigue model group and tea polyphenols group was recorded.Samples were taken from mice in each group after two hours of exhaustive swimming.The changes of brain tissue morphology and structure in each group were observed by hematoxylin-eosin staining.Western blot assay or real-time fluorescence quantitative polymerase chain reaction were used to detect the expression of inflammation-related factors,the activation of microglia,and the activation of STAT3/nuclear factor-κB p65 inflammatory pathway in the brain tissue of mice.Enzyme-linked immunosorbent assay was used to detect the levels of plasma inflammatory factors.RESULTS AND CONCLUSION:(1)Compared with the fatigue model group,the swimming exhaustion time of mice in the tea polyphenols group was significantly prolonged.(2)No abnormality was found in the hematoxylin-eosin staining results of brain tissues of mice in each group.(3)Compared with the quiet control group,the expression levels of inflammatory factors tumor necrosis factor α protein,interleukin-1β protein,M1 activated microglia marker-inducible nitric oxide synthase protein,nuclear factor-κB p65 protein and mRNA,and p-STAT3 protein and STAT3 mRNA in the fatigue model group were significantly increased,while the expression levels of anti-inflammatory factor interleukin-10 protein and M2 activated microglia marker-arginase 1 protein were significantly decreased.Compared with the fatigue model group,the inflammatory reaction,microglia types and signal molecules showed opposite obvious changes in the tea polyphenols group.(4)The expression levels of tumor necrosis factor α,interleukin 1β,interleukin-10 in peripheral plasma and brain tissue were consistent in mice of each group.(5)To sum up,exercise fatigue can trigger inflammatory reaction of nerve center,and tea polyphenols can alleviate this inflammatory reaction,and then enhance the fatigue resistance time of mice.The effects of exercise-induced fatigue and tea polyphenols on the inflammatory reaction in the brain may be completed through STAT3/nuclearfactor-κB p65 pathway.

Gut microbiota is the microbial community that is specifically planted in the human gut and interacts with the human body.It plays an important role in the human body by regulating the basal metabolism and immunity of the host to maintain the homeostasis of the human body.Once the intestinal flora is dysregulated,it can lead to multi-system diseases.Hashimoto's thyroiditis is an organ-specific autoimmune disease.The pathogenesis of Hashimoto's thyroiditis is complex and its incidence is increasing year by year,which is gradually becoming a serious public health disease affecting the world.In recent years,the relationship between gut microbiota and bridge onychitis has received extensive attention.A large number of studies have shown that the richness and diversity of intestinal flora in Hashimoto's thyroiditis patients are changed compared with healthy people.Studies have shown that traditional Chinese medicine therapy can play a role in treating this disease by regulating intestinal flora.This article systematically summarizes the relationship between the two and the effect of traditional Chinese medicine on the treatment of bridge onychitis by regulating intestinal flora,so as to provide some reference for research in this field.

Gut microbiota is the microbial community that is specifically planted in the human gut and interacts with the human body.It plays an important role in the human body by regulating the basal metabolism and immunity of the host to maintain the homeostasis of the human body.Once the intestinal flora is dysregulated,it can lead to multi-system diseases.Hashimoto's thyroiditis is an organ-specific autoimmune disease.The pathogenesis of Hashimoto's thyroiditis is complex and its incidence is increasing year by year,which is gradually becoming a serious public health disease affecting the world.In recent years,the relationship between gut microbiota and bridge onychitis has received extensive attention.A large number of studies have shown that the richness and diversity of intestinal flora in Hashimoto's thyroiditis patients are changed compared with healthy people.Studies have shown that traditional Chinese medicine therapy can play a role in treating this disease by regulating intestinal flora.This article systematically summarizes the relationship between the two and the effect of traditional Chinese medicine on the treatment of bridge onychitis by regulating intestinal flora,so as to provide some reference for research in this field.

Based on advancements in modern medical research regarding the intricate connection between the endocrine and exocrine functions of the pancreas， as well as the relationship between pancreatic functions and traditional Chinese medicine （TCM） spleen system， this paper discussed the categorization of the pancreas. It is proposed that the pancreas is neither a true zang organ nor a fu organ， but possessed the attributes of an extraordinary fu-organ and can be classified under the spleen. The spleen governs transportation and transformation， ascent of the clear and dispersion of essence， which encompasses the endocrine and exocrine functions， and pancreatic enzymes and glucose-regulating hormones form the material basis for the spleen's function of dispersing essence. Diseases of the pancreas exhibit characteristics of both zang-organ deficiency and fu-organ excess， so treatment should simultaneously supplement zang-organ disease and regulate fu-organ disease when pancreas showing endocrine and exocrine co-morbidities， with focus on restoring the pancreas （spleen）'s dispersing essence function. Therapeutic strategies include supplementing spleen qi， nourishing spleen yin to strengthen spleen earth， unblocking spleen collaterals， raising spleen yang， and removing spleen turbidity to support the spleen's dispersing essence function， so as to replenish the essential qi of zang-fu organs， ensure their distribution throughout the body， and improve the endocrine and exocrine functions of the pancreas.

Background Coal workers' pneumoconiosis is a serious occupational disease in China. Exhaled volatile organic compounds (VOCs) can serve as the "breath fingerprint" of internal pathological processes, which provides a theoretical basis for exhaled VOCs to be used as potential non-invasive biomarkers for early diagnosis of coal workers' pneumoconiosis. Objective To screen out the characteristic VOCs and important characteristic VOCs of exhaled air in patients with coal workers' pneumoconiosis, and to explore the potential of these VOCs as biomarkers for early non-invasive diagnosis of the disease. Methods In this study, 27 VOCs in the exhaled breath of 22 patients with stage I coal workers' pneumoconiosis, 77 workers exposed to dust, and 92 healthy controls were quantitatively detected by thermal desorption gas chromatography-mass spectrometry (TD-GC-MS). Substances with P<0.05 in univariate analysis and variable importance projection (VIP) >1 in supervised orthogonal partial least squares discriminant analysis (OPLS-DA) model were selected as the characteristic VOCs for early diagnosis of coal workers' pneumoconiosis. Age was included in the LASSO regression model as a covariate to screen out important characteristic VOCs, and the diagnostic performance was evaluated by receiver operating characteristic (ROC) curve. Spearman correlation was further used to explore the correlation between important characteristic VOCs and clinical lung function indicators. Results Through univariate analysis and OPLS-DA modeling, 8 VOCs were selected, including 2-methylpentane, 3-methylpentane, n-hexane, methylcyclopentane, n-heptane, methylcyclohexane, 4-methyl-2-pentanone, and 2-hexanone, in exhaled breath of patients with coal workers' pneumoconiosis. The concentrations of 4 VOCs, including 3-methylpentane, n-hexane, 4-methyl-2-pentanone, and 2-hexanone, showed a decreasing trend with the increase of dust exposure years. By LASSO regression, the important characteristic VOCs of the coal workers' pneumoconiosis group and the dust exposure group were n-hexane, methylcyclohexane and 4-methyl-2-pentanone, and the important characteristic VOCs of the coal workers' pneumoconiosis group and the healthy group were 2-methyl-pentane and 4-methyl-2-pentanone. The ROC analysis showed that the area under the curve (AUC) of n-hexane, methylcyclohexane, and 4-methyl-2-pentanone were 0.969, 0.909, and 0.956, respectively, and the AUC of combined diagnosis was 0.988 and its Youden index was 0.961, suggesting that these results can serve as a valuable reference for further research on early diagnosis. The Correlation analysis found that there was a positive correlation between n-hexane and lung function indicators in the important characteristic VOCs, indicating that it could indirectly reflect the obstruction of lung function ventilation, further proving that important characteristic VOCs have the potential to monitor lung function decline. Conclusion Three important characteristic VOCs selected in this study have the potential to be used as non-invasive biomarkers for early diagnosis and disease monitoring of coal workers' pneumoconiosis, and are worthy of further study and verification.

Diabetic lower extremity arterial disease(DLEAD)is characterized by a low rate of diagnosis,low awareness,low treatment rate,high disability rate,and high mortality.Due to a lack of comprehensive prevention and treatment strategies or an integrated technological system,DLEAD has become a bottleneck in the prevention and control of diabetes mellitus at present.Traditional Chinese medicine(TCM)treatment of DLEAD offers the advantages of syndrome differentiation,evidence-based treatment,and holistic regulation.However,it lacks a comprehensive understanding of the through-course pathogenesis and unified standardized syndrome criteria.TCM treatment of DLEAD exerts multi-target and multi-pathway network effects,but the advantageous links are still not fully understood.TCM treatments can delay the onset and development of DLEAD,but the efficacy evaluation system remains incomplete.Furthermore,there is a lack of high-quality evidence-based medical evidence and clinical consensus and guidelines.Therefore,based on the idea of zhi wei bing,or treating the disease before it develops,in Chinese medicine,and focusing on the prevention and control of DLEAD,we have constructed a synergistic technical system that integrates traditional Chinese and Western medicine for the prevention and control of DLEAD.This system integrates prevention,diagnosis,treatment,mechanisms,and applications,so as to enhance the clinical effects of DLEAD prevention and control,and to create a new paradigm for collaborative traditional Chinese medicine and western medicine in the field of chronic disease management.

BACKGROUND:Studies have shown that tea polyphenols have anti-inflammatory effects on multiple organs,but there are few studies on the effects of tea polyphenols on central nervous system inflammation caused by exercise fatigue.OBJECTIVE:To explore the central anti-inflammatory effect and mechanism of tea polyphenols in exercise fatigue.METHODS:7-week-old male Kunming mice were divided into quiet control group,fatigue model group,and tea polyphenols group.In the fatigue model group,mice were given exhaustive swimming at one time.In the tea polyphenols group,tea polyphenols were injected into abdominal cavity half an hour before exhaustive swimming.The exhaustive swimming time in mice of fatigue model group and tea polyphenols group was recorded.Samples were taken from mice in each group after two hours of exhaustive swimming.The changes of brain tissue morphology and structure in each group were observed by hematoxylin-eosin staining.Western blot assay or real-time fluorescence quantitative polymerase chain reaction were used to detect the expression of inflammation-related factors,the activation of microglia,and the activation of STAT3/nuclear factor-κB p65 inflammatory pathway in the brain tissue of mice.Enzyme-linked immunosorbent assay was used to detect the levels of plasma inflammatory factors.RESULTS AND CONCLUSION:(1)Compared with the fatigue model group,the swimming exhaustion time of mice in the tea polyphenols group was significantly prolonged.(2)No abnormality was found in the hematoxylin-eosin staining results of brain tissues of mice in each group.(3)Compared with the quiet control group,the expression levels of inflammatory factors tumor necrosis factor α protein,interleukin-1β protein,M1 activated microglia marker-inducible nitric oxide synthase protein,nuclear factor-κB p65 protein and mRNA,and p-STAT3 protein and STAT3 mRNA in the fatigue model group were significantly increased,while the expression levels of anti-inflammatory factor interleukin-10 protein and M2 activated microglia marker-arginase 1 protein were significantly decreased.Compared with the fatigue model group,the inflammatory reaction,microglia types and signal molecules showed opposite obvious changes in the tea polyphenols group.(4)The expression levels of tumor necrosis factor α,interleukin 1β,interleukin-10 in peripheral plasma and brain tissue were consistent in mice of each group.(5)To sum up,exercise fatigue can trigger inflammatory reaction of nerve center,and tea polyphenols can alleviate this inflammatory reaction,and then enhance the fatigue resistance time of mice.The effects of exercise-induced fatigue and tea polyphenols on the inflammatory reaction in the brain may be completed through STAT3/nuclearfactor-κB p65 pathway.

Background Volatile organic compounds (VOCs) in exhaled breath are closely associated with respiratory diseases and are linked to various metabolic reactions in the human body. A quantitative analytical method can provide technical support for studying VOCs related to various diseases. Objective To establish a thermal desorption-gas chromatography-mass spectrometry (TD-GC-MS) method for the determination of 27 VOCs in exhaled breath. Methods VOCs in exhaled breath were collected using a Bio-VOC sampler and enriched with Tenax TA thermal desorption tubes before TD-GC-MS analysis. Standards were collected using thermal desorption tubes and optimized for thermal desorption conditions as well as chromatographic and mass spectrometric conditions: The separation of the 27 VOCs was achieved by an optimized temperature program, the improvement of sensitivity by optimizing quantitative ions, and the increase of VOCs desorption efficiency by optimizing thermal desorption time and temperature. Limit of detection, limit of quantification, accuracy, precision, and stability of the proposed method were investigated by spiking with a blank gas bag, and exhaled breath samples from 20 healthy individuals were collected for an application study of the proposed method. Results The thermal desorption temperature was 280 ℃, and desorption time was 6 min. A VF-624ms chromatographic column was selected for the separation of target substances. The initial temperature of heating program was 35 ℃, maintained for 1 min, and then increased to 100 ℃ at a heating rate of 3 ℃·min⁻¹ for 1 min, followed by increasing to 210 ℃ at a heating rate of 28 ℃·min⁻¹ for 5 min. A quantitative analysis was conducted with a single ion monitoring (SIM) mode. Under these conditions, the 27 VOCs showed good linear relationships in their respective concentration ranges and the correlation coefficients were higher than 0.9990. The limits of detection of the method were in the range of 0.01-0.13 nmol·mol⁻¹, the limits of quantification were in the range of 0.02-0.44 nmol·mol⁻¹, and the spiked recoveries were in the range of 80.1%-120.5%, with intra-batch and inter-batch precision ≤ 18.8% and 17.9% respectively. All substances can be stored at room temperature (23-28 °C) for 7 d and at 4 °C for 14 d. The proposed method was applied to exhaled breath samples from 20 subjects with detection rates≥ 80% (except for trans-2-pentene and decane) and a concentration range of 0.00-465.50 nmol·mol⁻¹. Conclusion The established TD-GC-MS method for quantification of VOCs in exhaled breath is characterized by high sensitivity and good accuracy, and is suitable for quantitative determination of VOCs in exhaled breath, which can provide technical support for the study of exhaled breath VOCs.

The composition and concentration of volatile organic compounds (VOCs) in exhaled breath are closely related to human health and the analysis of VOCs by collecting human exhaled breath has been widely used in disease surveillance research. This article reviewed the collection, enrichment, and detection methods of exhaled VOCs, which can provide a reference for selecting appropriate technology for follow-up research. The exhaled breath collection devices mainly include sampling bags for mixed exhaled breath and biological volatile organic compound (Bio-VOC) samplers for alveolar air. The pre-enrichment equipment included thermal desorption (TD), solid-phase microextraction device (SPME), and needle trap device (NTD). The detection methods of exhaled VOCs include gas chromatography-mass spectrometry (GC-MS), proton transfer reaction mass spectrometry (PTR-MS), selective ion flow tube mass spectrometry (SIFT-MS), and electronic nose. At present, the collection and enrichment technology of exhaled breath is not mature yet, and its influence on the results of detection is lack of evaluation. In the future, the research on collection and enrichment technology of exhaled breath should be strengthened to further promote the application of exhaled breath in disease surveillance research.