BACKGROUND: It is inaccurate to reflect the level of dust exposure through working years. Furthermore, identifying a predictive indicator for lung function decline is significant for coal miners. The study aimed to explored whether club cell secretory protein (CC16) levels can reflect early lung function changes. METHODS: The cumulative respiratory dust exposure (CDE) levels of 1,461 coal miners were retrospectively assessed by constructed a job-exposure matrix to replace working years. Important factors affecting lung function and CC16 were selected by establishing random forest models. Subsequently, the potential of CC16 to reflect lung injury was explored from multiple perspectives. First, restricted cubic spline (RCS) models were used to compare the trends of changes in lung function indicators and plasma CC16 levels after dust exposure. Then mediating analysis was performed to investigate the role of CC16 in the association between dust exposure and lung function decline. Finally, the association between baseline CC16 levels and follow-up lung function was explored. RESULTS: The median CDE were 35.13 mg/m³-years. RCS models revealed a rapid decline in forced vital capacity (FVC), forced expiratory volume in the first second (FEV₁), and their percentages of predicted values when CDE exceeded 25 mg/m³-years. The dust exposure level (<5 mg/m³-years) causing significant changes in CC16 was much lower than the level (25 mg/m³-years) that caused changes in lung function indicators. CC16 mediated 11.1% to 26.0% of dust-related lung function decline. Additionally, workers with low baseline CC16 levels experienced greater reductions in lung function in the future. CONCLUSIONS CC16 levels are more sensitive than lung indicators in reflecting early lung function injury and plays mediating role in lung function decline induced by dust exposure. Low baseline CC16 levels predict poor future lung function.
Uteroglobin/blood* ; Humans ; Dust/analysis* ; Occupational Exposure/analysis* ; Male ; Middle Aged ; Adult ; Retrospective Studies ; Lung Injury/chemically induced* ; Coal Mining ; Biomarkers/blood* ; China/epidemiology* ; Air Pollutants, Occupational ; Female

Systemic inflammation of cachexia is an important cause of high mortality of degenerative diseases such as ad-vanced cancer,and also the most important factor to aggravate the cachexia process.Systemic inflammation of cachexia has a profound impact on the proliferation and invasion of tumors and the catabolism of muscle and adipose tissue in patients with cachexia.In recent years,studies have shown that the dysfunction of gut microbiota during cachexia is an important cause of cachexia systemic inflamma-tion and a key therapeutic target.The dysfunctions of intestinal barrier mediated by gut microbiota and the translocation of bacterial tox-ins during the cachexia period are important causes of cachexia systemic inflammation.This article mainly summarized the relationship between gut microbiota and cachexia systemic inflammation,and summarized the mechanism of intestinal flora inducing cachexia sys-temic inflammation by regulating short chain fatty acids,lipopolysaccharide,flagellin,peptidoglycan and other substances,with a view to providing new ideas for the prevention and treatment of cachexia systemic inflammation from the perspective of intestinal flora.

OBJECTIVE To analyze the chemical constituents of Heihuang Chizhu Granules and the blood composition of rats af-ter administration by UPLC-Q-TOF-MS/MS.METHODS A Waters ACQUITY UPLC HSS T3 column(3 mm×100 mm,1.8 μm)was eluted with acetonitrile-0.1%formic acid as mobile phase,and the data were collected in electrospray ion source positive and neg-ative ion mode and then identified with the reference retention time,precise molecular weight,secondary fragment ions,and references to relevant literature.RESULTS A total of 104 chemical components were identified from Heihuang Chizhu Granules,including 26 flavonoids,24 organic acids,14 triterpenoids,8 terpenoids,7 phenylpropanoids,11 monoglycosides,and 14 other components(phe-nols,alkaloids,etc.).On this basis,39 blood-entering components were identified in the plasma of rats administered via gavage,in-cluding 28 prototypes and 11 metabolites.CONCLUSION The chemical constituents of Heihuang Chizhu Granules and the compo-nents entering the blood of rats are analyzed and identified for the first time in this study,and the results provide a scientific basis for the basic research of Heihuang Chizhu Granules and the establishment of process quality control standards.

Objective To investigate the effect of Eriodictyol(ERI)on the development of metabolic dysfunction-associated steatotic liver disease by regulating the expression of ubiquitin A 52(UBA52)at both in vivo and in vitro levels.Methods A mouse metabolic dysfunction-associated steatotic liver disease model was established using a high-fat diet induction.The mice were randomly separated into the normal control group(normal group),the model group,the low-dose ERI group(ERI-L group,50 mg/kg ERI)and the high-dose ERI group(ERI-H group,100 mg/kg ERI),with 12 mice in each group.Oil red O staining was applied to observe lipid deposition in mouse liver tissue.HE staining was applied to observe pathological changes in mouse liver tissue.ELISA method was applied to detect serum levels of alanine aminotransferase(ALT),aspartate aminotransferase(AST),low-density lipoprotein cholesterol(LDL-C),total cholesterol(TC)and triglycerides(TG)in mice.The expression of UBA52 protein in liver was detected by Western blot assay.HepG2 cells were treated with 0.5 mmol/L oleic acid to induce an in vitro metabolic dysfunction-associated steatotic liver disease model.HepG2 cells were randomly divide into the control group,the oleic acid induced group,the low concentration ERI group(ERI low group,50 μmol/L ERI),the high concentration ERI group(ERI high group,100 μmol/L ERI),the high concentration ERI+si-NC group(ERI high+si-NC group,100 μmol/L ERI+transfected with si-NC)and the high concentration ERI+si-UBA52 group(ERI high+si-UBA52 group,100 μmol/L ERI+transfected with si-UBA52).Oil red O staining was applied to detect lipid deposition in HepG2 cells of each group.ELISA method was applied to detect the levels of TG,TC,SOD and MDA in HepG2 cells in each group.Immunoblotting was used to detect the expression levels of UBA52,p62 and autophagy related proteins in HepG2 cells.Results Compared with the normal group,serum levels of ALT,AST,LDL-C,TC,TG and the expression of UBA52 protein in liver tissue were increased in the model group(P＜0.05),and the lipid deposition in liver increased,pathological damage was severe,and the proportion of lipid deposition area and non-alcoholic fatty liver disease(NAFLD)activity score were also increased(P＜0.05).Changes in the corresponding indicators in the ERI-L group and the ERI-H group were opposite to those of the model group(P＜0.05),and the ERI-H group was even lower(P＜0.05).The lipid deposition in liver decreased and the pathological damage was alleviated.Compared with the control group,the levels of TG,TC,MDA,the proportion of lipid droplet area and the expression of UBA52 protein were increased in HepG2 cells of the oleic acid-induced group,while the levels of SOD,p62 and LC3Ⅱ/LC3Ⅰ decreased(P＜0.05).Changes in the corresponding indicators of the low-concentration ERI group and the high-concentration ERI group were opposite to those of the oleic acid-induced group(P＜0.05),and the therapeutic effect of ERI on metabolic dysfuntion-associated steatotic liver disease was enhanced after knocking down the expression of UBA52.Conclusion ERI may slow down the progression of metabolic dysfuntion-associated steatotic liver disease by down-regulating the expression of UBA52 at both in vivo and in vitro levels.

Objective To investigate the effect of Eriodictyol(ERI)on the development of metabolic dysfunction-associated steatotic liver disease by regulating the expression of ubiquitin A 52(UBA52)at both in vivo and in vitro levels.Methods A mouse metabolic dysfunction-associated steatotic liver disease model was established using a high-fat diet induction.The mice were randomly separated into the normal control group(normal group),the model group,the low-dose ERI group(ERI-L group,50 mg/kg ERI)and the high-dose ERI group(ERI-H group,100 mg/kg ERI),with 12 mice in each group.Oil red O staining was applied to observe lipid deposition in mouse liver tissue.HE staining was applied to observe pathological changes in mouse liver tissue.ELISA method was applied to detect serum levels of alanine aminotransferase(ALT),aspartate aminotransferase(AST),low-density lipoprotein cholesterol(LDL-C),total cholesterol(TC)and triglycerides(TG)in mice.The expression of UBA52 protein in liver was detected by Western blot assay.HepG2 cells were treated with 0.5 mmol/L oleic acid to induce an in vitro metabolic dysfunction-associated steatotic liver disease model.HepG2 cells were randomly divide into the control group,the oleic acid induced group,the low concentration ERI group(ERI low group,50 μmol/L ERI),the high concentration ERI group(ERI high group,100 μmol/L ERI),the high concentration ERI+si-NC group(ERI high+si-NC group,100 μmol/L ERI+transfected with si-NC)and the high concentration ERI+si-UBA52 group(ERI high+si-UBA52 group,100 μmol/L ERI+transfected with si-UBA52).Oil red O staining was applied to detect lipid deposition in HepG2 cells of each group.ELISA method was applied to detect the levels of TG,TC,SOD and MDA in HepG2 cells in each group.Immunoblotting was used to detect the expression levels of UBA52,p62 and autophagy related proteins in HepG2 cells.Results Compared with the normal group,serum levels of ALT,AST,LDL-C,TC,TG and the expression of UBA52 protein in liver tissue were increased in the model group(P＜0.05),and the lipid deposition in liver increased,pathological damage was severe,and the proportion of lipid deposition area and non-alcoholic fatty liver disease(NAFLD)activity score were also increased(P＜0.05).Changes in the corresponding indicators in the ERI-L group and the ERI-H group were opposite to those of the model group(P＜0.05),and the ERI-H group was even lower(P＜0.05).The lipid deposition in liver decreased and the pathological damage was alleviated.Compared with the control group,the levels of TG,TC,MDA,the proportion of lipid droplet area and the expression of UBA52 protein were increased in HepG2 cells of the oleic acid-induced group,while the levels of SOD,p62 and LC3Ⅱ/LC3Ⅰ decreased(P＜0.05).Changes in the corresponding indicators of the low-concentration ERI group and the high-concentration ERI group were opposite to those of the oleic acid-induced group(P＜0.05),and the therapeutic effect of ERI on metabolic dysfuntion-associated steatotic liver disease was enhanced after knocking down the expression of UBA52.Conclusion ERI may slow down the progression of metabolic dysfuntion-associated steatotic liver disease by down-regulating the expression of UBA52 at both in vivo and in vitro levels.

Systemic inflammation of cachexia is an important cause of high mortality of degenerative diseases such as ad-vanced cancer,and also the most important factor to aggravate the cachexia process.Systemic inflammation of cachexia has a profound impact on the proliferation and invasion of tumors and the catabolism of muscle and adipose tissue in patients with cachexia.In recent years,studies have shown that the dysfunction of gut microbiota during cachexia is an important cause of cachexia systemic inflamma-tion and a key therapeutic target.The dysfunctions of intestinal barrier mediated by gut microbiota and the translocation of bacterial tox-ins during the cachexia period are important causes of cachexia systemic inflammation.This article mainly summarized the relationship between gut microbiota and cachexia systemic inflammation,and summarized the mechanism of intestinal flora inducing cachexia sys-temic inflammation by regulating short chain fatty acids,lipopolysaccharide,flagellin,peptidoglycan and other substances,with a view to providing new ideas for the prevention and treatment of cachexia systemic inflammation from the perspective of intestinal flora.

OBJECTIVE To analyze the chemical constituents of Heihuang Chizhu Granules and the blood composition of rats af-ter administration by UPLC-Q-TOF-MS/MS.METHODS A Waters ACQUITY UPLC HSS T3 column(3 mm×100 mm,1.8 μm)was eluted with acetonitrile-0.1%formic acid as mobile phase,and the data were collected in electrospray ion source positive and neg-ative ion mode and then identified with the reference retention time,precise molecular weight,secondary fragment ions,and references to relevant literature.RESULTS A total of 104 chemical components were identified from Heihuang Chizhu Granules,including 26 flavonoids,24 organic acids,14 triterpenoids,8 terpenoids,7 phenylpropanoids,11 monoglycosides,and 14 other components(phe-nols,alkaloids,etc.).On this basis,39 blood-entering components were identified in the plasma of rats administered via gavage,in-cluding 28 prototypes and 11 metabolites.CONCLUSION The chemical constituents of Heihuang Chizhu Granules and the compo-nents entering the blood of rats are analyzed and identified for the first time in this study,and the results provide a scientific basis for the basic research of Heihuang Chizhu Granules and the establishment of process quality control standards.

OBJECTIVE: To investigate the effectiveness of sacroiliac screw implantation assisted by three-dimensional (3D) printed faceted honeycomb guide plate in the treatment of posterior pelvic ring fracture. METHODS: The clinical data of 40 patients with posterior pelvic ring fractures treated with sacroiliac screw implantation between December 2019 and December 2022 were retrospectively analyzed. Among them, 18 cases were treated with sacroiliac screws fixation assisted by 3D printed faceted honeycomb guide plate (guide plate group), and 22 cases were treated with sacroiliac screws percutaneously fixation under fluoroscopy (conventional group). There was no significant difference in baseline data ( P>0.05) such as gender, age, time from injury to operation, and Dennis classification between the two groups. The implantation time, frequency of C-arm X-ray fluoroscopy, frequency of guide pin adjustment of each sacroiliac screw, and postoperative complications and bone healing were recorded. Majeed score was used to evaluate the functional recovery at 6 months after operation, and CT was used to observe whether the screw penetrated the bone cortex. The deviation between the virtual position and the actual position of the screw tip, the sacral foramen, and the screw entry point was measured on the sagittal CT images of the guide plate group. RESULTS: The number of screws implanted in S ₁ and S ₂ vertebral bodies was 14 and 16 respectively in the guide plate group, and 17 and 18 respectively in the conventional group. The implantation time of each sacroiliac screw, the frequency of C-arm X-ray fluoroscopy, and the frequency of guide pin adjustment in S ₁, S ₂, and all vertebrae in the guide plate group were significantly less than those in the conventional group ( P<0.05). Patients in both groups were followed up 8-48 months, with an average of 19.7 months. There was no incision infection, screw displacement, or internal fixation loosening in both groups. Callus growth was observed in all patients at 12 weeks after operation, and bone healing was achieved in all patients. The healing time ranged from 12 to 24 weeks, with an average of 15.7 weeks. No sacroiliac screw penetrated the bone cortex in the guide plate group; 2 patients in the conventional group had sacroiliac screws penetrating the bone cortex without damaging blood vessels or nerves. In the guide plate group, the deviation between the virtual position and the actual position of the screw tip, the sacral foramen, and the screw entry point were (2.91±1.01), (2.10±0.74), and (1.67±0.70) mm, respectively, with an average deviation of (2.19±1.22) mm. There was no significant difference in Majeed function evaluation between the two groups at 6 months after operation ( P>0.05). CONCLUSION The application of 3D printed faceted honeycomb guide plate in sacroiliac screw implantation for posterior pelvic ring fracture can shorten the screw implantation time, reduce the frequency of fluoroscopy and guide pin adjustment, and reduce the risk of screw penetration through the bone cortex.
Humans ; Fracture Fixation, Internal/instrumentation* ; Bone Screws ; Printing, Three-Dimensional ; Bone Plates ; Fractures, Bone/surgery* ; Pelvic Bones/surgery* ; Retrospective Studies ; Treatment Outcome ; Male ; Female ; Middle Aged ; Adult

Alzheimer's disease(AD)is a severe threat to human health and one of the three major causes of human death.Double-stranded RNA-dependent protein kinase(PKR)is an interferon-induced protein kinase involved in innate immunity.In the occurrence and development of AD,PKR is upregulated and continu-ously activated.On the one hand,the activation of PKR triggers an integrated stress response in brain cells.On the other hand,it indirectly upregulates the expression of 3-site amyloid precursor protein cleaving enzyme 1 and facilitates the accumulation of amyloid-β protein(Aβ),which could activate PKR activator to further activate PKR,thus forming a sustained accumulation cycle of Aβ.In addition,PKR can promote Tau phosphorylation,thereby reducing microtubule stability in nerve cells.Inflammation in brain tissue,neurotoxicity resulted from Aβaccumulation,and disruption of microtubule stability led to the progression of AD and the declines of memory and cognitive function.Therefore,PKR is a key molecule in the development and progression of AD.Effective PKR detection can aid in the diagnosis and prediction of AD progression and provide opportunities for clinical treat-ment.The inhibitors targeting PKR are expected to control the activity of PKR,thereby controlling the progression of AD.Therefore,PKR could be a target for the development of therapeutic drugs for AD.