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Photoplethysmography (PPG) is often affected by interference, which could lead to incorrect judgment of physiological information. Therefore, performing a quality assessment before extracting physiological information is crucial. This paper proposed a new PPG signal quality assessment by fusing multi-class features with multi-scale series information to address the problems of traditional machine learning methods with low accuracy and deep learning methods requiring a large number of samples for training. The multi-class features were extracted to reduce the dependence on the number of samples, and the multi-scale series information was extracted by a multi-scale convolutional neural network and bidirectional long short-term memory to improve the accuracy. The proposed method obtained the highest accuracy of 94.21%. It showed the best performance in all sensitivity, specificity, precision, and F1-score metrics, compared with 6 quality assessment methods on 14 700 samples from 7 experiments. This paper provides a new method for quality assessment in small samples of PPG signals and quality information mining, which is expected to be used for accurate extraction and monitoring of clinical and daily PPG physiological information.
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Photoplethysmography , Machine Learning , Neural Networks, ComputerABSTRACT
Objective:To investigate the role of DNA damage and repair inhibition in the effect of ginkgo biloba on liver injury in patients with coal-burning-borne arsenism.Methods:In March 2017, the investigation was conducted in Jiaole village arsenic poisoning area in Yuzhang Town, Xingren County, Guizhou Province. According to the "Diagnosis of Endemic Arsenicosis" (WS/T 211-2015) and the "Diagnostic Criteria of Occupational Toxic Hepatopathy" (GBZ 59-2010), 52 patients with arsenism were selected as the ginkgo biloba intervention group, and 49 cases of arsenism patients as intervention control group. Ginkgo biloba tablets were given orally for 3 months (1 tablet/time, 3 times/d) according to the commonly used clinical methods, and no other drugs were given to all subjects during the intervention period. The intervention control group was given placebo in the same way as that of ginkgo biloba intervention group. A total of 41 residents who did not burn high arsenic coal 12 km away with no abnormal liver function were selected as normal control group. Physical examinations were performed before the intervention and at the end of the intervention at 3 months. After receiving signed informed consent, morning urine and peripheral venous blood samples were collected to detect urinary arsenic content by inductively coupled plasma mass spectrometry (ICP-MS); liver function biochemical indexes [albumin (ALB), albumin/globulin (A/G), cholinesterase (CHE), total bile acid (TBA)] were determined by automatic biochemical analyzer, DNA damage by single-cell gel electrophoresis assay, and the expression of miR-145 (repair inhibition index) by qRT-PCR.Results:There were 116 subjects, 41 in normal control group, 39 in ginkgo biloba intervention group and 36 in intervention control group. In ginkgo biloba and intervention and intervention control groups, there was no significant difference in age, gender, smoking habits and drinking compared with normal control group ( P > 0.05). Urinary arsenic content, TBA level, DNA damage degree [comet tail DNA percentage (TailDNA%) and olive tail moment (OTM)] and plasma miR-145 expression level [(38.75 ± 19.09) μg/g Cr, (11.13 ± 1.55) μmol/L, 8.50 ± 0.88, 7.43 ± 0.68, 5.78 ± 0.75, respectively] in ginkgo biloba intervention group patients before intervention were higher than those in normal control group [(11.62 ± 5.33) μg/g Cr, (5.36 ± 0.87) μmol/L, 5.24 ± 0.33, 4.71 ± 0.29, 2.05 ± 0.27, respectively], the differences were statistically significant ( P < 0.05); the levels of ALB, A/G and CHE were significantly lower than those in normal control group ( P < 0.05). After the intervention of ginkgo biloba, urinary arsenic content, TBA level, DNA damage degree (TailDNA% and OTM) and plasma miR-145 expression level in patients were significantly lower than those before the intervention ( P < 0.05); the levels of ALB, A/G and CHE were significantly higher than those before the intervention ( P < 0.05). There was no significant difference in the above indexes before and after intervention in the intervention control group ( P > 0.05). The results of correlation analysis between DNA damage degree, miR-145 and liver function indexes after the intervention of ginkgo biloba showed that, DNA damage degree (TailDNA% and OTM) was negatively correlated with the levels of ALB, A/G and CHE ( r = - 0.34, - 0.33, - 0.48, - 0.31, - 0.31, - 0.42, P < 0.05), and positively correlated with the level of TBA ( r = 0.49, 0.48, P < 0.05); miR-145 was negatively correlated with the levels of ALB, A/G and CHE ( r = - 0.26, - 0.23, - 0.38, P < 0.05), which was positively correlated with the level of TBA ( r = 0.32, P < 0.05); and DNA damage degree was positively correlated with the expression of miR-145 ( r = 0.65, 0.52, P < 0.05). Conclusion:Ginkgo biloba tablets can alleviate the liver damage caused by arsenic through coal burning, and the mechanism of this process is related to its inhibition of miR-145 expression and reduction of DNA damage.
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With the aging and lifestyle changes of the residents in arsenicosis area, the disease spectrum has also undergone significant changes, and coexistence of chronic diseases in arsenicosis has become a primary threat to residents health. In the future, basic study from a new perspective should be deepen, to explore new pathways for integrated prevention and treatment of chronic diseases of arsenicosis, and build a whole management model of "screening, management, prevention, treatment and study" to guarantee the prevention and treatment of chronic diseases of arsenicosis.
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Objective:To investigate the antagonistic and therapeutic effects of Ginkgo biloba on arsenic-induced lung injury in rats and its mechanism.Methods:A total of 42 healthy clean grade Wistar rats, half male and half female, weighing 120 - 130 g, were randomly divided into 7 groups with 6 rats in each group. Two intervention models of Ginkgo biloba antagonism and treatment were established, respectively. The specific treatments were as follows: (1) Experimental study on the antagonism of Ginkgo biloba (4 groups): the control A group was given deionized water; the Ginkgo biloba control (GBE) group was given Ginkgo biloba solution (50 mg·kg -1·bw); the arsenic-treated (As) group was given sodium arsenite solution (10 mg·kg -1·bw); the Ginkgo biloba antagonistic (As + GBE) group was treated with sodium arsenite solution (10 mg·kg -1·bw) and Ginkgo biloba solution (50 mg·kg -1·bw), and the above administration was by gavage for 6 days/week, for 4 months. (2) Experimental study on the treatment of Ginkgo biloba (3 groups): the control B group was given deionized water for 5.5 months; in the arsenism natural recovery (recovery) group, sodium arsenite solution (10 mg·kg -1·bw) was administered by gavage for 4.0 months and deionized water for 1.5 months; the Ginkgo biloba treatment (treatment) group was given sodium arsenite solution (10 mg·kg -1·bw) by gavage for 4.0 months and Ginkgo biloba solution (50 mg·kg -1·bw) for 1.5 months, and the above administration was for 6 days/week. Masson staining was used to evaluate collagen fiber deposition in lung tissue. Western blotting was used to detect the expression level of related proteins in lung tissue homogenates, including inflammatory cytokines matrix metalloproteinase-9 (MMP-9), interleukin (IL)-1β, IL-18; high mobility group box 1 (HMGB1) and receptor for advanced glycation end-products (RAGE) of the HMGB1/RAGE pathway; phosphatidylinositol-4, 5-bisphosphate 3-kinase (PI3K), protein kinase B (AKT), phosphorylated AKT (p-AKT) of the PI3K/AKT pathway; transforming growth factor (TGF)-β1, SMAD2, p-SMAD2, SMAD3, p-SMAD3 and SMAD4 of the TGF-β1/SMAD pathway. Results:(1) Antagonistic effect of Ginkgo biloba: compared with the control A group, there was no significant change in protein expression and collagen fiber deposition in the lung tissue of GBE group ( P > 0.05); the levels of MMP-9, IL-1β and IL-18 protein expression and collagen fiber deposition in the lung tissue of As group were significantly increased ( P < 0.05); and the levels of HMGB1, RAGE, PI3K, p-AKT, TGF-β1, p-SMAD2, p-SMAD3 and SMAD4 protein expression were significantly increased ( P < 0.05). Compared with As group, the levels of MMP-9, IL-1β and IL-18 protein expression and collagen fiber deposition were significantly decreased in As + GBE group ( P < 0.05); and levels of HMGB1, RAGE, PI3K, p-AKT, TGF-β1, p-SMAD2, and p-SMAD3 protein expression were significantly decreased ( P < 0.05). (2) Therapeutic effect of Ginkgo biloba: compared with control B group, the levels of MMP-9, IL-1β, IL-18 protein expression and collagen fiber deposition were significantly increased in recovery group ( P < 0.05); and the levels of HMGB1, RAGE, PI3K, p-AKT, TGF-β1, p-SMAD2, p-SMAD3 and SMAD4 protein expression were significantly increased ( P < 0.05). Compared with recovery group, the levels of MMP-9, IL-1β, IL-18, HMGB1, RAGE, PI3K and p-AKT protein expression were significantly decreased in treatment group ( P < 0.05); and there was no significant change in collagen fiber deposition and TGF-β1, p-SMAD2, p-SMAD3 and SMAD4 protein expression levels in lung tissue ( P > 0.05). In both experiments, there was no significant difference in the protein expression levels of AKT, SMAD2 and SMAD3 between the groups ( P > 0.05). Conclusion:Ginkgo biloba intervention has ameliorated inflammatory injury and collagen fiber deposition in lung tissue of arsenic-treated rats possibly by inhibiting the expression levels of HMGB1/RAGE pathway-related proteins.
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Objective:To investigate the role of liver X-activated receptor (LXRα)/sterol-regulatory element binding protein (SREBP-1c) in arsenic induced lipid metabolism disorders in rats, and to provide a basis for study the mechanism of arsenic induced lipid metabolism disorders.Methods:Twenty-four healthy clean grade Wistar rats, were randomly divided into 4 groups according to body weight (80 - 100 g) by the random number table method, with 6 rats in each group, half male and half female. Rats in control group were given deionized water by gavage. The low, medium and high arsenic dose groups were given 2.5, 5.0 and 10.0 mg·kg -1·d -1 sodium arsenite solution by gavage, respectively. They were exposed to arsenic for 6 days a week for 4 months. At the end of the experiment, blood and liver samples of rats in each group were collected. The hepatic arsenic content was determined by inductively coupled plasma mass spectrometry (ICP-MS); the serum levels of triglyceride (TG), total cholesterol (TC), low-density lipoprotein cholesterol (LDL-C) and high-density lipoprotein cholesterol (HDL-C) were measured by automatic biochemical analyzer. The mRNA expression levels of LXRα and SREBP-1c in liver tissues were determined by real-time PCR; the protein expression levels of LXRα, SREBP-1c, acetyl CoA carboxylase (ACC) and phospho-ACC (pACC) in liver tissues were determined by Western blotting. Results:The hepatic arsenic contents of rats in low, medium and high arsenic dose groups were (61.04 ± 4.98), (62.66 ± 6.71) and (87.86 ± 13.89) μg/g, respectively, which were higher than that in control group [(2.43 ± 0.63) μg/g, P < 0.05], and the hepatic arsenic content of rats in high arsenic dose group was higher than those in low and medium arsenic dose groups ( P < 0.05). The serum TG levels of rats in low, medium and high arsenic dose groups were (0.90 ± 0.17), (1.28 ± 0.24) and (1.82 ± 0.18) mmol/L, respectively, which were higher than that in control group [(0.50 ± 0.12) mmol/L, P < 0.05]; the serum LDL-C levels of rats in low, medium and high arsenic dose groups were (0.54 ± 0.04), (0.63 ± 0.07) and (0.69 ± 0.08) mmol/L, respectively, which were higher than that in control group [(0.27 ± 0.05) mmol/L, P < 0.05]; the serum TC levels of rats in medium and high arsenic dose groups were (1.88 ± 0.23) and (2.10 ± 0.10) mmol/L, respectively, which were higher than that in control group [(1.51 ± 0.14) mmol/L, P < 0.05]; the serum HDL-C levels of rats in medium and high arsenic dose groups were (0.84 ± 0.11) and (0.71 ± 0.14) mmol/L, respectively, which were lower than that in control group [(1.15 ± 0.08) mmol/L, P < 0.05]; and the serum levels of TG and LDL-C in medium and high arsenic dose groups were higher than those in low arsenic dose group ( P < 0.05), and the serum level of TG in high arsenic dose group was higher than that in medium arsenic dose group ( P < 0.05). The mRNA expression level of hepatic LXRα of rats in high arsenic dose group was higher than those in control group and low arsenic dose group ( P < 0.05); there was no significant difference in mRNA expression levels of hepatic SREBP-1c of rats between low, medium and high arsenic dose groups and control group ( P > 0.05). The protein expression levels of hepatic LXRα of rats in medium and high arsenic dose groups were higher than that in control group ( P < 0.05), and high arsenic dose group was higher than low arsenic dose group ( P < 0.05); the protein expression levels of hepatic SREBP-1c and ACC of rats in high arsenic dose group were higher than that in control group ( P < 0.05). There was a positive correlation between hepatic arsenic content in arsenic-exposed rats and the serum levels of TG, TC, LDL-C, the mRNA expression level of hepatic LXRα, the protein expression levels of hepatic LXRα, SREBP-1c and ACC ( r = 0.84, 0.62, 0.89, 0.55, 0.54, 0.64, 0.70, P < 0.05), and the serum level of HDL-C was negatively correlated with the hepatic arsenic content in arsenic-exposed rats ( r = - 0.75, P < 0.001). Conclusion:Sodium arsenite can increase the serum levels of TG, TC and LDL-C, decrease the serum level of HDL-C and increase the protein expression levels of LXRα and SREBP-1c in liver tissues, suggesting that arsenic induced lipid metabolism disorders in rats may be related to the upstream regulation mechanism of LXRα/SREBP-1c.
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Background Long-term exposure to arsenic can cause liver injury of varying degrees. Mitochondrial damage may be an early key event of arsenic-induced liver injury. Silent mating type information regulation 2 homolog 1 (SIRT1)/ recombinant peroxisome proliferators-activated receptor gamma coactivator 1 alpha (PGC-1α) is an important pathway regulating mitochondrial mass and function. However, whether arsenic-induced liver injury is related to mitochondrial dysfunction mediated by SIRT1/PGC-1α pathway remains unclear. Objective To investigate potential effects of sodium arsenite (NaAsO2) on mitochondrial function and expressions of SIRT1/PGC-1α pathway-related proteins in human normal liver cell. Methods Human normal liver cells (MIHA cells) were used as the research object. MIHA cells were treated with different concentrations of NaAsO2 (0, 5, 10 and 20 μmol·L−1) for 24 h, and the cells were collected for study. The ultrastructure of mitochondria was observed by transmission electron microscopy, adenosine triphosphate (ATP) concentration by fluorescence method, mitochondrial membrane potential (MMP) level by flow cytometry, and SIRT1, PGC-1α and their downstream nuclear respiratory factor 1 (NRF1) and mitochondrial transcription factor A (TFAM) protein expression levels by Western blotting. One-way analysis of variance and trend test were used for data statistical analysis. Results The viability of MIHA cells decreased gradually with the increase of NaAsO2 concentration (F=6495.47, P<0.001). The transmission electron microscope observation showed that the size of mitochondria in the 10 μmol·L−1 NaAsO2 treatment group was different, and the mitochondria were swollen or elongated in a rod-like shape. The mitochondria in the 20 μmol·L−1 NaAsO2 treatment group swelled like air spheres or vacuoles. The ATP concentration and MMP level of MIHA cells gradually decreased with the increase of NaAsO2 concentration (Ftrend of ATP=172.28, Ftrend of MMP=59.91, both Ps<0.001). Compared with the control group, the protein expression levels of SIRT1, PGC-1α, NRF1, and TFAM were not significantly changed in the 5 μmol·L−1 NaAsO2 treatment group, while the protein expression levels of SIRT1, PGC-1α, and TFAM were decreased in the 10 μmol·L−1 NaAsO2 treatment group, and the protein expression levels of SIRT1, PGC-1α, and NRF1 were decreased in the 20 μmol·L−1 NaAsO2 treatment group. The results of trend test showed that the protein expression levels of SIRT1, PGC-1α, NRF1, and TFAM decreased gradually with the increase of NaAsO2 concentration (Ftrend of SIRT1=47.07, P<0.001; Ftrend of PGC-1α=15.17, P<0.01; Ftrend of NRF1=13.54, P<0.01; F trend of TFAM=4.20, P<0.05). Conclusion The down-regulation of SIRT1/PGC-1α and its downstream NRF1 and TFAM may be involved in NaAsO2-induced mitochondrial dysfunction in liver cells.
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Background Natural product sanguinarine chloride (SC) can significantly alleviate liver fibrosis and acute liver injury in mice, but whether it has a protective effect on mouse liver injury caused by sodium arsenite (SA) has not been studied. Objective To verify if SC may present preventive and therapeutic effects on SA-induced liver injury in mice. Methods A total of 140 SPF male Kunming mice were randomly divided into two sub-studies, which included a prevention sub-study and a treatment sub-study. In each sub-study, a blank group (normal saline), a model group (5 mg·kg−1 SA), and a positive control group (11.375 mg·kg−1 bicyclol and 182 mg·kg−1 glutathione), as well as SC low, medium, and high dose groups (25, 50, and 100 mg·kg−1) were arranged with 10 mice in each group. In the prevention sub-study, the blank group was given normal saline, the model group was given SA, and the other groups (the SC low, medium, and high dose groups and the positive control group) were given the corresponding treatment 30 min before gavage of SA, once a day, for 28 d. In the treatment sub-study, except for the blank group which was given normal saline, the other groups were given SA for 28 d, then the model group was given normal saline, and the other groups were given the corresponding treatment every day for 28 d. After the experiment, the mice were sacrificed to evaluate selected physiological and biochemical indicators in serum and liver tissue and to observe histopathological changes after HE staining. Results In either sub-study of preventive effect or treatment effect: compared with the blank group, body weight, liver weight, liver coefficient, as well as serum alanine transaminase (ALT), aspartate aminotransferase (AST), total bilirubin (TBIL), malondialdehyde (MDA), glutathione peroxidase (GSH), and superoxide dismutase (SOD) among all SC groups were not significantly different (P>0.05); but compared with the model group, the SC groups showed increased body weight (P<0.01), decreased liver weight and liver coefficient (P<0.01), reduced ALT, AST, TBIL, and MDA (P<0.05 or P<0.01), and increased GSH and SOD with (P<0.05 or P<0.01) or without significance; compared with the positive control group, no differences were found in the above indicators (P>0.05). The result of histopathological evaluation showed that the SC groups had a clear liver lobule structure, neatly arranged hepatic cords, and less infiltration of inflammatory cells. Conclusion SC has both preventive and therapeutic effects on SA-induced liver injury in mice.
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Background In addition to the typical signs of skin damage, long-term arsenic exposure is often accompanied by signs and symptoms of neurobehavioral abnormalities. Objective To investigate potential intervention effect of sciadopitysin on senescence of neurons induced by sodium arsenite in rats and possible underlying mediating effect of cell cycle-related transcription factor E2F1. Methods SH-SY5Y cells were treated with 4 μmol·L−1 sodium arsenite for 24 h and intervened with 50 μg·mL−1 Ginkgo biloba extract (EGb761) or four major biflavonoids in Ginkgo biloba leaves (isoginkgetin, bilobetin, sciadopitysin, and ginkgetin) for 24 h respectively. Then, cell viability was measured by CCK-8 assay. Thirty-two 180-200 g SPF rats were randomly divided into a control group, an arsenic treatment group (10 mg·L−1), a Ginkgo biloba extract intervention group (10 mg·kg−1), and a sciadopitysin intervention group (10 mg·kg−1), 8 rats in each group, half male and half female. The rats were treated with sodium arsenite by free drinking water for 3 consecutive months, and the intervention treatment was conducted after 2 months of poisoning with drug intake by gavage for 1 month. HE staining was used to detect structural changes in the hippocampus, while Nissl's staining was used to detect changes in hippocampal morphology and neuron numbers. Moreover, senescence-associated β galactosidase (SA-β-gal) staining and Western blotting were used to detect senescence of hippocampal neurons and the expression level of E2F1, respectively. Results Compared to the arsenic treatment group, EGb761 and the four biflavonoids in Ginkgo biloba leaves effectively antagonized the inhibitory effect of sodium arsenite on cell viability (all Ps<0.05), and sciadopitysin showed better restoration of cellular viability than Ginkgo biloba extract (P<0.05). The results of HE staining and Nissl's staining showed that the hippocampal neurons in the arsenic treatment group were reduced in cell count and the synaptic structure was abnormal, with swelling, nuclear shrinkage, and vacuole, compared with the control group. The results of SA-β-gal staining showed that the number of senescent cells in the arsenic treatment group (15.75±3.01) was significantly increased compared with the control group (2.88±0.84) (P<0.05); the numbers of senescent cells in the Ginkgo biloba extract group (9.38±1.92) and the sciadopitysin treatment group (7.75±2.38) were significantly decreased compared with the arsenic treatment group (all Ps<0.05). The results of Western blotting showed that compared with the control group, the expression of E2F1 protein in hippocampus of the arsenic treatment group was significantly decreased (1.00±0.17 vs. 0.65±0.19, P<0.05); compared with the arsenic treatment group, the protein expression level of E2F1 in hippocampus of the sciadopitysin treatment group (0.89±0.18) was significantly recovered (P<0.05); compared with Ginkgo biloba extract (0.68±0.19), sciadopitysin had a better recovery effect on E2F1 expression level (0.89±0.18) (P<0.05). The results of correlation analysis showed that the E2F1 protein expression level was negatively correlated with the positive rate of SA-β-gal staining in hippocampal neurons (r=−0.518, P<0.05). Conclusion Sciadopitysin is an effective component of Ginkgo biloba extract. It can effectively inhibit the senescence of hippocampal neurons induced by sodium arsenite, and E2F1 may play an important mediating role.
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Background The key enzymes of serine synthesis pathway (SSP) play an important role in tumor growth, proliferation, and invasion, but their roles in arsenic carcinogenesis are unclear. Objective To observe the effects of NaAsO2 treatment on the expressions of key enzymes [such as phosphoglycerate dehydrogenase (PHGDH), phosphoserine aminotransferase 1 (PSAT1), and phosphoserine phosphatase (PSPH)] of SSP and on the ability to proliferate and migrate in human immortalized skin keratinocytes (HaCaT) and NaAsO2-induced malignantly transformed HaCaT (T-HaCaT), and to explore the roles of SSP key enzymes in arsenic carcinogenesis. Methods (1) The T-HaCaT cells constructed earlier by our research team were divided into a passage control (0 μmol·L−1 NaAsO2) group, a T-HaCaT (0.5 μmol·L−1 NaAsO2) group, a NCT503 (PHGDH inhibitor, 25 μmol·L−1) group, and a NCT503 (25 μmol·L−1) + T-HaCaT (0.5 μmol·L−1 NaAsO2) group. Western blotting was used to detect the protein expression levels of SSP key enzymes in the passage control group and the T-HaCaT group. CCK8 assay and cell scratch test were used to detect the proliferation and migration rates of cells in each group respectively. (2) Well-grown logarithmic-phase HaCaT cells were treated with 0, 0.625, 1.25, and 2.5 μmol·L−1 NaAsO2 for 0, 24, 48, and 72 h to detect cell proliferation rate and protein expression levels of SSP key enzymes. In the subsequent experiment, HaCaT cells were pretreated with 25 μmol·L−1 NCT503 for 6 h, and then treated with 2.5 μmol·L−1 NaAsO2 for 72 h continuously. The experimental groups included a control (0 μmol·L−1 NaAsO2) group, an exposure (2.5 μmol·L−1 NaAsO2) group, a pretreatment (25 μmol·L−1 NCT503) group, and a pretreatment (25 μmol·L−1 NCT503) + exposure (2.5 μmol·L−1 NaAsO2) group, to detect the proliferation rate of cells in each group. Results The protein expression level of PHGDH in the T-HaCaT group were 1.60 times higher than that in the passage control group (P<0.05), and its proliferation rate (177.51%±14.69%) and migration rate (53.85%±0.94%) were also higher than the passage control group’s (100.00%±0.00% and 24.30%±2.26%) (both Ps<0.05), respectively. After the NCT503 intervention, the proliferation rate (144.97%±8.08%) and migration rate (35.80%±0.99%) of cells in the NCT503 + T-HaCaT group were lower than those in the T-HaCaT group (both P<0.05). The proliferation rate of HaCaT cells after NaAsO2 exposure for 72 h increased with the increase of exposure concentration (r=0.862, P<0.05), and consistently, the protein levels of SSP key enzymes in HaCaT cells in each exposure group were higher than those in the control group (all P<0.05). The proliferation rate of HaCaT cells treated with 2.5 μmol·L−1 NaAsO2 increased with the extension of exposure time (r=0.775, P<0.05), which was consistent with the changes of PHGDH levels in cells. After the NCT503 intervention, the proliferation rate of the pretreatment + exposure group was significantly lower than that of the exposure group (P<0.05). Conclusion The key enzymes of SSP may play an important role in the proliferation of T-HaCaT cells induced by NaAsO2.
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Background Arsenic is a well-known environmental toxicant. Hepatic fibrosis could occur dueto excessive or long-term exposure to arsenic, while associated molecular mechanisms remain undefined. Mitogen-inducible gene 6 (Mig-6) exhibits a protective effect on numerous diseases or cancers. However, the specific role of Mig-6 in the mechanisms of arsenite-induced hepatic fibrosis remains indistinct. Objective To investigate the specific role of Mig-6 in the activation of hepatic stellate cells (HSC) and the deposition of extracellular matrix (ECM) induced by sodium arsenite (NaAsO2). Methods Human hepatic stellate cells (Lx-2) were treated with 0, 1.875, 3.75, 7.5, and 15 μmol·L−1 of NaAsO2 for 24 h, or with 7.5 μmol·L−1 NaAsO2 for 0, 12, 24, 48, and 72 h. Additionally, Lx-2 cells were transfected by pcDNA3.1(+)/Mig-6, then treated with 7.5 μmol·L−1 NaAsO2 for 24 h; a blank control group, a pcDNA3.1(+)-control group, a pcDNA3.1(+)/Mig-6 group, and an arsenic (7.5 μmol·L−1 NaAsO2) group were also set up. After transfection, the cells and culture supernatants were collected, and the protein levels of Mig-6, α-smooth muscle actin (α-SMA), and transforming growth factor-β1 (TGF-β1) in Lx-2 cells were identified by Western blotting analysis; moreover, the secretion levels of main ECM components in supernatants such as hyaluronic acid (HA), laminin (LN), collagens IV (COL-IV), and procollagen-III (PIIINP) were tested by ELISA. Results The Mig-6 expression decreased in the 3.75, 7.5, and 15 μmol·L−1 NaAsO2 groups (0.561±0.095, 0.695±0.048, and 0.401±0.030) compared to the control group (1.000±0.000) in Lx-2 cells (P<0.05). After administration with 7.5 μmol·L−1 of NaAsO2 for 24, 48, and 72 h, the Mig-6 expression (0.856±0.036, 0.515±0.077, 0.491±0.060) decreased compared with the 0 h group (1.000±0.000) (P<0.05). After over-expression of Mig-6, the results of Lx-2 activation related protein levels showed that compared to the control group, the α-SMA and TGF-β1 expression were up-regulated in the arsenic group (P<0.05); meanwhile, the α-SMA and TGF-β1 in the Mig-6 over-expression combined arsenic exposure group reduced compared to the arsenic (7.5 μmol·L−1) group (P<0.05). The results of ELISA showed that compared with the control group, the HA, LN, PIIINP, COL-IV in the arsenic group were up-regulated (P<0.05); while compared to the arsenic group, the HA, LN, PIIINP, and COL-IV in the Mig-6 over-expression combined with arsenic exposure group were decreased (P<0.05). Conclusion Arsenic down-regulates Mig-6 expression in HSC, and over-expression of Mig-6 can reverse the activation of HSC and ECM deposition induced by arsenic exposure. It suggests that Mig-6 plays a protective role in arsenic-induced HSC activation and ECM deposition.
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Objective:To analyze the incidence and risk factors of acute kidney injury (AKI) in patients undergoing neurosurgery.Methods:This study was a single center and retrospective research. The patients hospitalized in the general neurosurgery ward of Xuanwu Hospital, Capital Medical University, due to intracranial tumors and intracranial vascular diseases from January 1, 2017 to December 31, 2020 were enrolled. Demographic, clinical data and laboratory examination results of the selected patients were collected. The patients were divided into AKI group and non-AKI group according to AKI diagnosis criteria, and the differences of clinical parameters and medication between the two groups were compared. Logistic regression analysis method was used to analyze the risk factors of AKI in neurosurgical patients.Results:Among 4 509 patients undergoing neurosurgery with age of (51.93±16.03) years old, 2 361 males and 2 148 females, 152 patients (3.37%) had AKI. The incidence of AKI in patients undergoing intracranial tumor surgery was 3.69% (84/2 278), and the incidence of AKI in patients undergoing intracranial cerebrovascular surgery was 3.05%(68/2 231). The length of hospital stay ( t=4.897, P<0.001) and operation time ( t=5.496, P<0.001) in AKI group were significantly longer than those in non-AKI group. The proportions of diabetes mellitus, preoperative serum creatinine, blood urea nitrogen, glycosylated hemoglobin, lactic acid, fibrinogen, and systolic pressure levels in AKI group were significantly higher than those in non-AKI group (all P<0.05); the hemoglobin level in AKI group was significantly lower than that in non-AKI group ( P<0.05). The proportions of patients using angiotensin converting enzyme inhibitors/angiotensin Ⅱ receptor antagonists, cephalosporins, proton pump inhibitors, mannitol, and nonsteroidal anti-inflammatory drugs in AKI group were also significantly higher than those in non-AKI group (all P<0.05). Multivariate logistic regression analysis results showed that hemoglobin<110 g/L ( OR=4.252, 95% CI 1.569-11.527, P=0.004), elevated blood urea nitrogen ( OR=1.304, 95% CI 1.139-1.492, P<0.001) and application of nonsteroidal anti-inflammatory drugs ( OR=2.342, 95% CI 1.044-5.253, P=0.039) were independent risk factors of AKI in neurosurgical patients. Conclusions:The incidence of AKI in patients in neurosurgery general ward is 3.37%. Anemia, elevated blood urea nitrogen and application of nonsteroidal anti-inflammatory drugs are independent risk factors of AKI in patients undergoing neurosurgery.
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Objective:To explore the incidence, influencing factors and prognostic value of cardiac valve calcification (CVC) in chronic kidney disease (CKD) non-dialysis patients.Methods:The non-dialysis patients with CKD stage 1-5 who were hospitalized and underwent echocardiography in the Department of Nephrology, Xuanwu Hospital, Capital Medical University from January 1, 2018 to December 31, 2019 were retrospectively admitted. The patients were divided into CVC group and non-CVC group, and the clinical data were compared between the two groups. The deadline for follow-up was November 1, 2021, and the follow-up end point event was all-cause mortality. Logistic regression model was used to analyze the risk factors of CVC in patients with CKD, and Cox proportional hazards regression model was used to analyze the risk factors of all-cause mortality in patients with CKD.Results:A total of 563 patients with CKD were enrolled in the study, with age of (59.49±13.97) years old, and 352 males (62.52%). There were 325 patients (57.73%) with CKD stage 1-3 and 238 patients (42.27%) with CKD stage 4-5. The incidence of CVC in CKD stage 1-5 patients was 32.32%(182/563). Aortic valve calcification occurred in 30.73%(173/563), mitral valve calcification occurred in 9.77% (55/563), double valve (mitral and aortic valve) calcification occurred in 8.35% (47/563), and tricuspid valve calcification occurred in 0.18%(1/563). Age (t=12.223, P<0.001) and the proportions of CKD stage 4-5 ( χ 2=10.854, P=0.001), hypertension ( χ 2=7.811, P=0.005), diabetes ( χ 2=8.424, P=0.004), hyperlipidemia ( χ 2=9.331, P=0.002), and taking statins ( χ 2=4.868, P=0.027) in CVC group were significantly higher than those in non-CVC group. Total cholesterol (t=2.243, P=0.025), low density lipoprotein cholesterol (t=2.025, P=0.043), platelet count (t=2.230, P=0.026) and estimated glomerular filtration rate (t=8.630, P<0.001) in CVC group were lower than those in the non-CVC group. Logistic regression analysis results showed that age≥60 years old (≥60 years old/<60 years old, OR=7.412, 95% CI 4.514-12.170, P<0.001), CKD stage 4-5 (stage 4-5/stage 1-3, OR=2.791, 95% CI 1.730-4.505, P<0.001) and hyperlipidemia ( OR=5.241, 95% CI 3.283-8.367, P<0.001) were the independent influencing factors of CVC in patients with CKD. Five hundred and sixty-three patients were followed up for an average of 26 months, including 68 cases (12.08%) of death, 436 cases (77.44%) of survival and 59 cases (10.48%) of loss to follow-up. Multivariate Cox regression analysis results showed that age≥60 years old (≥60 years old/<60 years old, HR=2.157, 95% CI 1.127-4.127, P=0.020), serum albumin<30 g/L (<30 g/L/≥30 g/L, HR=1.923, 95% CI 1.037-3.568, P=0.038) and double valve calcification (double valve calcification/no valve calcification, HR=2.516, 95% CI 1.279-4.950, P=0.008) were the independent influencing factors of all-cause death in patients with CKD. Conclusions:CVC accounts for 32.32% in non-dialysis patients with CKD stage 1-5. Older age, worse renal function and hyperlipidemia are the independent risk factors of CVC in CKD patients. Older age, hypoproteinemia and double valve calcification are the independent risk factors of all-cause death in patients with CKD.
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In order to obtain the three-dimensional pulse information and blood pressure waveform needed in the study, a radial artery simulation platform with programmable controlled injection pump as the core was constructed by using the circulation theory of human cardiovascular system and pulse wave formation mechanism. Gaussian function model was selected to synthesize multi-type pulse wave to program and drive the platform. The three-dimensional pulse information and blood pressure waveform of the simulated radial artery were collected by binocular visual pulse detection system and pressure transmitter respectively, and the platform stability and repeatability were tested by Pearson correlation. The experimental results show that the radial artery simulation platform is stable, reliable and repeatable, and can generate multiple types of three-dimensional pulse information and blood pressure waveform at the simulated radial artery. The platform is simple in structure, low in cost, and produces many types of pulsating flow. It provides an experimental research platform for revealing the relationship between the three-dimensional pulse information of radial artery and the change of pressure inside the vessel, as well as the prediction of blood pressure waveform from the three-dimensional pulse information.
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Humans , Blood Pressure , Computer Simulation , Heart Rate , Radial Artery , Vital SignsABSTRACT
Objective:To explore the effects of Ginkgo biloba on regulating NF-E2-related factor 2 (Nrf2)-Kelch-like ECH-associated protein 1 (Keap1)-antioxidant response element (ARE) signaling pathway in liver injury induced by coal-burning-borne endemic arsenic poisoning in rats.Methods:Group design method was adopted, according to body weight (80-100 g), a total of 30 Wistar rats were divided into 5 groups (6 rats in each group, half males and half females) by random number table method. The normal control group was fed with normal diet ad libitum for 4.5 months; the Ginkgo biloba control group was fed with Ginkgo biloba (25 mg/kg, 6 d/week) for 1.5 months after normal feeding for 3 months; the drinking water arsenic poisoning group and the arsenic contaminated grain group were fed respectively with 100 mg/L arsenic trioxide (As 2O 3) solution and 100 mg/kg arsenic-containing feed for 3 months, and then fed with normal diet for 1.5 months; the Ginkgo biloba treatment group was fed with 100 mg/kg arsenic-containing feed for 3 months, and then was given Ginkgo biloba (25 mg/kg, 6 d/week) for 1.5 months. After sacrificing the animals, the content of malondialdehyde (MDA), the activity of copper zinc superoxide dismutase (SOD1) and the activity of glutathione peroxidase (GPx) in serum were detected by thiobarbituric acid colorimetry, xanthine oxidase method and dimercaptodinitrobenzoic acid reduction method, respectively. The mRNA and protein expressions of indicator genes of Nrf2-Keap1-ARE signaling pathway in liver tissues were detected by quantitative real-time PCR, immunohistochemistry and Western blotting. Correlation between the indexes was analyzed by Pearson. Results:In drinking water arsenic poisoning group, arsenic contaminated grain group and Ginkgo biloba treatment group, the contents of MDA in serum were (3.54±0.51), (3.83±0.87) and (2.93±0.84) μmol/L, respectively, which were higher than that in normal control group [(1.85±0.36) μmol/L, P < 0.05]; and SOD1 activities [(68.21±4.37), (64.53±9.96), (73.09±5.43) U/ml] and GPx activities [(486.41±40.45), (458.24±42.25), (539.79±79.43) U/L] in serum were lower than those in normal control group [(81.47±5.73) U/ml, (747.86±80.33) U/L, P < 0.05]. Compared with the arsenic contaminated grain group, the content of MDA in serum in Ginkgo biloba treatment group was decreased, the activities of SOD1 and GPx in serum were increased ( P < 0.05). Compared with normal control group, the mRNA expressions of SOD1 and GPx1 in the liver tissues in drinking water arsenic poisoning group, arsenic contaminated grain group and Ginkgo biloba treatment group were significantly higher ( P < 0.05). Compared with arsenic contaminated grain group, the mRNA expressions of SOD1 and GPx1 in the liver tissue in Ginkgo biloba treatment group were increased ( P < 0.05). Compared with the normal control group, the protein expression of SOD1 in liver tissue in arsenic contaminated grain group was decreased ( P < 0.05), the protein expressions of GPx1 were decreased in the liver tissues in drinking water arsenic poisoning group, arsenic contaminated grain group and Ginkgo biloba treatment group ( P < 0.05). Compared with the arsenic contaminated grain group, the protein expressions of SOD1 and GPx1 were increased in the liver tissue in Ginkgo biloba treatment group ( P < 0.05). Compared with the normal control group and arsenic contaminated grain group, the protein expression of Keap1 was decreased in the liver tissue in Ginkgo biloba treatment group ( P < 0.05). Compared with the normal control group, the protein expressions of Nrf2 and phosphorylation of Nrf2 (pNrf2) were increased in the cytoplasm in drinking water arsenic poisoning group, arsenic contaminated grain group and Ginkgo biloba treatment group ( P < 0.05). Compared with the arsenic contaminated grain group, the protein expression of pNrf2 was decreased in the cytoplasm in Ginkgo biloba treatment group ( P < 0.05). The protein expressions of Nrf2 and pNrf2 in the nucleus in drinking water arsenic poisoning group, arsenic contaminated grain group and Ginkgo biloba treatment group were also higher than those in normal control group ( P < 0.05). Compared with the arsenic contaminated grain group, the protein expressions of Nrf2 and pNrf2 were increased in the nucleus in Ginkgo biloba treatment group ( P < 0.05). The results of correlation analysis revealed that the protein expressions of Nrf2 and pNrf2 in the nucleus were negatively correlated with Keap1 protein expression ( r=-0.523,-0.401, P < 0.05), and positively correlated with the mRNA expressions of SOD1 and GPx1 ( r=0.658, 0.530, 0.555, 0.603, P < 0.05). In addition, the protein expressions of SOD1 and GPx1 were positively correlated with their enzyme activities ( r=0.472, 0.629, P < 0.05). Conclusions:Arsenic could induce oxidative stress and liver injury. Ginkgo biloba could reduce the protein expression of Keap1, and promote nuclear translocation of Nrf2, which might induce the up-regulation of mRNA expressions of SOD1 and GPx1, and partially reverse the posttranscriptional regulation of arsenic on SOD1 and GPx1, and then increase their protein expressions and enzyme activities, thereby improve arsenic induced oxidative stress and liver injury.
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Objective:To evaluate the effects of brain-computer interface training on extremity function for stroke patients.Methods:Cochrane, EBSCO, PubMed, EMbase, Web of Science, JBI, MEDLINE, RNAO, Nursing Consult, CINAHL, CNKI, WanFang and VIP were searched to collect randomized controlled trials of brain-computer interface training on stroke patients, after quality evaluation and data extraction by two researchers, statistical processing was performed by RevMan5.3 software.Results:Twelve randomized controlled trials and 347 patients were included. The results showed that brain-computer interface training could improve the patients' limb motor function (mean difference value was 5.00, 95% confidence interval was 3.50-6.49, Z value was 6.55, P<0.01) and upper limb action function (mean difference value was 9.66, 95% confidence interval was 3.74-15.59, Z value was 3.20, P<0.01), enhanced the myodynamia (standardized mean difference was 0.91, 95% confidence interval was 0.49-1.32, Z value was 4.23, P<0.01) and activities of daily living (standardized mean difference was 0.84, 95% confidence interval was 0.42-1.26, Z value was 3.89, P<0.01], but had no significant effect on myospasm (mean difference value was -0.08, 95% confidence interval was -0.47-0.31, Z value was 0.39, P>0.05). Conclusions:Brain-computer interface training can improve limb motor function, action, myodynamia and activities of daily living for stroke patients, but have no significant effect on myospasm.
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Fabry disease is a rare X-linked hereditary lysosomal storage disease, which is caused by GLA gene mutation, reduced or absent activity of α-galactosidase A (α-Gal A), which disturbs the glycosphingolipid metabolism and leads to accumulation of metabolic substrates globotriaosylceramide (GL-3) and its derivative deacetylated GL-3 (Lyso-GL-3), which results in multiple organ diseases.Because the clinical manifestations lack specificity, it is necessary to combine the detection of enzyme activity, biomarker GL-3 and Lyso-GL-3, pathology and gene detection for early diagnosis.At present, the main treatment methods are enzyme replacement therapy and oral chaperone therapy.The purpose of this paper is to update the diagnosis and treatment of Fabry disease.
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Objective:To investigate the level of trimethylamine N-oxide (TMAO), one of gut metabolites, in patients undergoing maintenance hemodialysis (MHD) accompanied by congestive heart failure (HF) and its influencing factors.Methods:Those patients of 18-75 years old who received three or more times of hemodialysis sessions per week for three months or longer during Nov 2018 and Mar 2019 were enrolled. Those attended health checkup at the same time without obvious kidney abnormality served as non-kidney disease controls. Serum TMAO concentrations were measured using high-performance liquid chromatography electrospray ionization-tandem mass spectrometry (HPLC-ESI-MS/MS). The levels of TMAO were compared between patients on hemodialysis and controls, between those with heart failure and without heart failure using logrithmically transformed TMAO (lnTMAO). Linear regression analysis was performed to investigate factors influencing TMAO levels.Results:A total of 195 patients undergoing MHD and 40 controls were enrolled. Among them, 30 hemodialysis cases (15.4%) manifested as heart failure symptoms and/or left ventricular ejection fraction less than 50%. Males accounted for 67.2% in patients on hemodialysis and 37.5% in controls ( χ2=12.426, P<0.001) respectively, while the median ages in both groups were 62.0(48.0, 71.0), 45.0(33.3, 55.0) years old respectively ( Z=5.685, P<0.001). TMAO concentrations were significantly higher in patients on hemodialysis than controls [5.54(3.84, 8.91) mg/L vs 0.17(0.11, 0.30) mg/L, after log transformed, t=21.687, P<0.001]. However, there was no statistically significant difference between those with heat failure and those without in male [63.3% vs 67.9%, χ2=0.238, P=0.626], age [64.5(56.8, 71.0) years old vs 61.0(47.0, 72.0) years old, Z=0.894, P=0.372] and TMAO [5.17(3.30, 9.46) mg/L vs 5.57(3.87, 8.95) mg/L, after log transformed, t=-1.537, P=0.135]. Multivariate linear regression analysis demonstrated that in all the participants, serum urea was the main risk factor for TMAO [standardized coefficient ( SB)=0.483]. lnTMAO=0.078×[serum urea(mmol/L)]+0.001×[serum creatinine (μmol/L)]-0.002×[serum uric acid (μmol/L)]-0.003×[platelet (×10 9/L)]+0.014×[age (years old)]+0.344 (if diabetic)-1.266. While in those undergoing MHD, ultrafiltration volume had the most significant effect on TMAO levels ( SB=0.279). lnTMAO=0.249×[ultrafiltration volume(L)]+0.059×[serum albumin (g/L)]+0.008×[age (years old)-0.526 (if heart failure existed)-1.865. Conclusions:MHD patients have gut dysbiosis, while those hemodialysis patients accompanied by heart failure may have peculiar gut microbiota which induces lower serum TMAO levels than those without heart failure after adjusting for multiple related factors. Serum TMAO levels may be associated with ultrafiltration volume and nutrition status etc.
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Objective:To understand the relationship between the disease condition of patients with coal-burning-borne endemic arsenic poisoning (abbreviated as coal-burning-borne arsenic poisoning) and serum lipid metabolism indicators.Methods:Using a case-control study method, in the coal-burning-borne arsenic poisoning village of Yuzhang Town, Qianxinan Prefecture, Guizhou Province, 204 patients with arsenic poisoning diagnosed according to the standard of "Diagnosis of Endemic Arsenicosis" (WS/T 211-2015) were included in case group, including 87 males and 117 females, aged(53.37 ± 8.06) years old; and they were divided into mild arsenic poisoning group (71 cases), moderate arsenic poisoning group (59 cases) and severe arsenic poisoning group (74 cases) according to the clinical grading. Another 63 residents were selected into control group in a non-arsenic-exposed village about 12 km away from the diseased village, including 23 males and 40 females, aged (53.78 ± 9.10) years old. A face-to-face questionnaire survey was conducted for each group of people, including basic information such as general demographic characteristics, smoking status, and drinking status; fasting peripheral blood was collected, and an automatic biochemical analyzer was used to detect serum total cholesterol (TC) and triglyceride (TG), low-density lipoprotein cholesterol (LDL-C), and high-density lipoprotein cholesterol (HDL-C) levels.Results:There were significant differences of serum TC [(4.94 ± 1.00), (5.00 ± 0.99), (5.27 ± 0.94), (5.57 ± 1.07) mmol/L], TG [(2.17 ± 0.90), (2.25 ± 1.31), (2.66 ± 1.43), (2.78 ± 1.40) mmol/L], LDL-C [(2.51 ± 0.79), (2.74 ± 0.64), (2.97 ± 0.66), (3.15 ± 0.80) mmol/L], and HDL-C levels [(1.57 ± 0.55), (1.42 ± 0.43), (1.36 ± 0.42), (1.30 ± 0.38) mmol/L] in control group, mild, moderate and severe arsenic poisoning groups ( F = 5.83, 3.64, 9.72, 4.41, P < 0.01 or < 0.05). Among them, the serum TC level in severe arsenic poisoning group, serum TG and LDL-C levels in moderate and severe arsenic poisoning groups were significantly higher than those in control group ( P < 0.05); the serum HDL-C level in moderate and severe arsenic poisoning groups were lower than that in control group ( P < 0.05); the serum TC, TG and LDL-C levels in severe arsenic poisoning group were significantly higher than those in mild arsenic poisoning group ( P < 0.05). After linear trend test, serum TC, TG and LDL-C levels all showed an upward trend with the degree of arsenic poisoning ( Ftrend = 15.77, 10.14, 29.15, P < 0.05), and serum HDL-C level showed a downward trend with the degree of arsenic poisoning ( Ftrend = 12.75, P < 0.05). There were significant differences in the abnormal rates of serum TC, TG and LDL-C levels among control group and mild, moderate and severe arsenic poisoning groups (χ 2 = 21.16, 16.60, 8.29, P < 0.01 or < 0.05). Among them, the serum TC and TG levels abnormal rates in moderate and severe arsenic poisoning groups and serum LDL-C level abnormal rate in severe arsenic poisoning group were higher than those in control group ( P < 0.05), the serum TC, TG and LDL-C levels abnormal rates in severe arsenic poisoning group were higher than those in mild arsenic poisoning group ( P < 0.05). There was no significant difference of the serum HDL-C level abnormal rate among four groups (χ 2 = 2.11 , P > 0.05). The results of trend chisquare analysis showed that the abnormal rates of serum TC, TG and LDL-C levels presented an increasing trend with the degree of arsenic poisoning (χ 2trend = 19.90, 15.25, 7.63, P<0.05). The results of logistic regression analysis showed that the risk of abnormal serum TC level in patients with severe arsenic poisoning was 2.90 times that in control group [odds ratio ( OR) = 2.90, 95% confidence interval ( CI): 1.43 - 5.91], and the risk of abnormal serum LDL-C level in patients with severe arsenic poisoning was 2.87 times that in control group ( OR = 2.87, 95% CI: 1.22 - 6.71). Conclusion:There is a correlation between the disease condition of patients with coal-burning-borne arsenic poisoning and their dyslipidemia.
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Objective:To explore the impact of cognitive evaluation, processing and social support on post-traumatic growth of patients with accidental trauma, and analyzed their impact path.Methods:Cognitive evaluation scale, event-related rumination meditation scale, social support scale and Chinese version of post-traumatic growth questionnaire were used to conduct a cross-sectional survey on 336 patients with accidental trauma.Results:The total score of post-traumatic growth (PTG) of patients with accidental trauma (58.74±13.53) and the total score of purposeful rumination and total rumination were positively correlated with the total score of post-traumatic growth and all dimensions ( r=0.578, 0.439, P<0.01); the total score of invasive rumination was negatively correlated with the total post-traumatic growth score ( r=-0.144, P<0.01); the social support was positively correlated with the total post-traumatic growth score ( r=0.492, P<0.01). Positive cognitive evaluation and purposeful rumination meditation played a partial mediating role between social support and post-traumatic growth. The mediating effect was 0.142, accounting for 13% of the total effect. Conclusion:Social support not only directly predicted the post-traumatic growth, but also indirectly affected the post-traumatic growth through social support positive cognitive evaluation, and purposeful rumination.
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Objective:To evaluate the effect of high intensity interval training on cancer patients.Methods:Web of Science, EBSCO, PubMed, Ovid, EMbase, Cochrane Library, CBM, CNKI and Wanfang database were searched for randomized controlled trials of the effect of high intensity interval training on cancer patients, RevMan5.3 software was used for analysis.Results:Eleven articles with a population of 614 were included in the analysis, which involved 323 cases of the intervention group and 291 cases of the control group. The analysis showed that high intensity interval training could improve the total quality of life ( SMD values were 0.40, 95% CI 0.14-0.65, P<0.01) and peak oxygen uptake ( MD values were 3.00, 95% CI 2.19-3.80, P<0.01) of cancer patients, and reduce carotid intima-media thickness ( MD values were -0.06, 95% CI-0.08--0.03, P<0.01), but did not reduce the high-sensitivity C-reactive protein ( MD values were -0.61, 95% CI-1.23-0.01, P>0.05) and body weight ( MD values were 0.16, 95% CI-3.19-3.51, P>0.05). Conclusions:High intensity interval training has a positive impact on quality of life, cardiopulmonary function and carotid intima-media thickness with cancer patients, but has no significant effects on high-sensitivity C-reactive protein and body weight.