Objective:To reveal the differences in the transcriptome maps of brain tissues in mice subjected to Flash irradiation and conventional dose rate irradiation with electron beams and to explain the biological effect and mechanisms of Flash irradiation from multiple perspectives.Methods:Following the principle of grouping based on approximate body weights, 36 female C57BL/6J mice were divided into three groups, i. e., the control, conventional dose rate irradiation (CONV), and Flash irradiation (Flash) groups, with 12 mice in each group. Both the CONV and Flash groups received a single 15 Gy whole-brain irradiation with 9 MeV electron beams. At 3 d post-irradiation, the whole-brain tissue specimens were collected for hematoxylin-eosin (HE) staining to observe pathological changes. At 1, 3, and 10 weeks post-irradiation, the motion function, cognitive ability, depression level, and spatial memory capacity of the mice were assessed using ethology. At 1 and 10 weeks after behavioral experiments, brain tissue samples were collected and snap-frozen in liquid nitrogen for reference-based transcriptome sequencing. Accordingly, the differences in the transcriptome maps of radiation-induced brain injury between CONV and Flash groups were analyzed.Results:The HE staining-based pathological result revealed that compared to the CONV group, the Flash group exhibited reduced glial cell hyperplasia and inflammatory cell infiltration in brain tissues. Ethological research result at 1 week post-irradiation showed that the CONV group manifested a significantly decreased total traveled distance compared to the control and Flash groups ( t = 5.51, 2.38, P < 0.05) and a significantly increased immobility time compared to the control group ( t = 3.60, P < 0.05). Ethological research result at 3 weeks post-irradiation indicated that compared to the CONV group, the Flash group displayed significantly alleviated cognitive impairment ( t = 3.35, P < 0.05) and reduced depression levels ( t = 2.39, P < 0.05). Ethological research result at 10 weeks post-irradiation demonstrated that the CONV group showed the worst cognitive performance, significantly differing from the control group ( t = 4.53, P < 0.05). Transcriptome sequencing result revealed that besides immune-related pathways, the Flash group also exhibited multiple upregulated metabolic pathways and fibroblast growth factor (FGF)-related pathways compared to the CONV group. Conclusions:Compared to conventional dose rate irradiation, Flash irradiation can effectively alleviate radiation-induced brain injury in mice. This effect is associated with various metabolic pathways (including amino acid metabolism) and FGF-related pathways besides immune pathways.

Objective:To reveal the differences in the transcriptome maps of brain tissues in mice subjected to Flash irradiation and conventional dose rate irradiation with electron beams and to explain the biological effect and mechanisms of Flash irradiation from multiple perspectives.Methods:Following the principle of grouping based on approximate body weights, 36 female C57BL/6J mice were divided into three groups, i. e., the control, conventional dose rate irradiation (CONV), and Flash irradiation (Flash) groups, with 12 mice in each group. Both the CONV and Flash groups received a single 15 Gy whole-brain irradiation with 9 MeV electron beams. At 3 d post-irradiation, the whole-brain tissue specimens were collected for hematoxylin-eosin (HE) staining to observe pathological changes. At 1, 3, and 10 weeks post-irradiation, the motion function, cognitive ability, depression level, and spatial memory capacity of the mice were assessed using ethology. At 1 and 10 weeks after behavioral experiments, brain tissue samples were collected and snap-frozen in liquid nitrogen for reference-based transcriptome sequencing. Accordingly, the differences in the transcriptome maps of radiation-induced brain injury between CONV and Flash groups were analyzed.Results:The HE staining-based pathological result revealed that compared to the CONV group, the Flash group exhibited reduced glial cell hyperplasia and inflammatory cell infiltration in brain tissues. Ethological research result at 1 week post-irradiation showed that the CONV group manifested a significantly decreased total traveled distance compared to the control and Flash groups ( t = 5.51, 2.38, P < 0.05) and a significantly increased immobility time compared to the control group ( t = 3.60, P < 0.05). Ethological research result at 3 weeks post-irradiation indicated that compared to the CONV group, the Flash group displayed significantly alleviated cognitive impairment ( t = 3.35, P < 0.05) and reduced depression levels ( t = 2.39, P < 0.05). Ethological research result at 10 weeks post-irradiation demonstrated that the CONV group showed the worst cognitive performance, significantly differing from the control group ( t = 4.53, P < 0.05). Transcriptome sequencing result revealed that besides immune-related pathways, the Flash group also exhibited multiple upregulated metabolic pathways and fibroblast growth factor (FGF)-related pathways compared to the CONV group. Conclusions:Compared to conventional dose rate irradiation, Flash irradiation can effectively alleviate radiation-induced brain injury in mice. This effect is associated with various metabolic pathways (including amino acid metabolism) and FGF-related pathways besides immune pathways.

Objective To explore the protective effect and underlying mechanism of roxadustat(FG-4592),hypoxia-inducible factor-α(HIF-α)prolyl hydroxylase inhibitor,on brain injury caused by heat stroke(HS).Methods A total of 140 male C57BL/6J mice(6～8 weeks old,weighing 18～22 g)were subjected,and 40 of them were randomly divided into HS group,and low-,medium-and high-dose roxadustat groups(LD,MD and HD groups,5,10 and 20 mg/kg),with 10 mice in each group.The 24-hour survival rate was observed to determine the optimal dosage of roxadustat after modeling.Additionally,the remaining 100mice were randomly allocated to normal control(Control)group,roxadustat(FG-4592)group,HS group,and roxadustat+HS(FG-4592+HS)group,with 25 mice in each.Heat shock was inflicted to establish mouse model of HS.Modified neurological severity score(mNSS)was used to assess neurological function.HE staining of brain sections was performed to examine pathological damage,and Fluoro-Jade C staining was applied to observe neuronal degeneration.The activity of total superoxide dismutase(SOD)and content of malondialdehyde(MDA)in brain tissue were measured to assess oxidative stress.Transmission electron microscopy was employed to visualize mitochondrial damage.Western blotting was performed to assess the protein levels of Caspase-3,Cleaved Caspase-3,Mfn1,Mfn2,Opa1,Fis1,HIF-1α,HO-1 and p-Drp1(Ser616)/Drp1 ratio in the cerebral cortex.Results Compared to the HS group,FG-4592 significantly improved the survival rate of HS mice within 24 h,with the MD group showing the highest survival rate.Compared to the Control group,the HS group showed an increase in mNSS score(P＜0.05),an elevation in the MDA content in the cerebral cortex(P＜0.05),and a decrease in total SOD activity in the cerebral cortex(P＜0.05);HE staining revealed pathological damage in the cerebral cortex,and Fluoro-Jade C staining displayed obvious neuronal degeneration in the cerebral cortex;Electron microscopy revealed obvious mitochondrial structural damage in the cerebral cortex tissue;The protein expression of Caspase-3,Cleaved Caspase-3,Fis1,HIF-1α,HO-1 and p-Drp1(Ser616)/Drp1 ratio was increased(P＜0.05),while that of Mfn1,Mfn2,and Opa1 was decreased(P＜0.05).Pretreatment with FG-4592 significantly reduced the mNSS score in HS mice(P＜0.05),decreased MDA content(P＜0.05),and enhanced total SOD activity(P＜0.05).Additionally,FG-4592 pretreatment improved pathological damage in the cerebral cortex,reduced neuronal degeneration,and mitigated mitochondrial structural damage.Furthermore,it decreased the protein levels of Caspase-3,Cleaved Caspase-3,Fis1 and p-Drp1(Ser616)/Drp1 ratio(P＜0.05),while increased the levels of Mfn1,Mfn2,Opa1,HIF-1α,and HO-1(P＜0.05).Conclusion Roxadustat regulates the balance between mitochondrial fission and fusion,reduces mitochondrial structural damage,oxidative stress and apoptosis,and alleviates heat stroke-induced brain injury.

With the arrival of an aging society, the number of orthopedic geriatric patient who require surgical treatment is also rapidly increasing. Elderly patients have decreased hematopoietic function, and perioperative blood management is difficult and challenging. This article aims to elaborate on the perioperative blood management strategies for orthopedic geriatric patients, including the diagnosis and treatment of preoperative anemia, specific measures to reduce perioperative blood loss, and blood transfusion strategies.

The mechanisms underlying autophagic defects in nonalcoholic steatohepatitis (NASH) remain largely unknown. We aimed to elucidate the roles of hepatic cyclooxygenase 1 (COX1) in autophagy and the pathogenesis of diet-induced steatohepatitis in mice. Human nonalcoholic fatty liver disease (NAFLD) liver samples were used to examine the protein expression of COX1 and the level of autophagy. Cox1^Δhepa mice and their wildtype littermates were generated and fed with 3 different NASH models. We found that hepatic COX1 expression was increased in patients with NASH and diet-induced NASH mice models accompanied by impaired autophagy. COX1 was required for basal autophagy in hepatocytes and liver specific COX1 deletion exacerbated steatohepatitis by inhibiting autophagy. Mechanistically, COX1 directly interacted with WD repeat domain, phosphoinositide interacting 2 (WIPI2), which was crucial for autophagosome maturation. Adeno-associated virus (AAV)-mediated rescue of WIPI2 reversed the impaired autophagic flux and improved NASH phenotypes in Cox1^Δhepa mice, indicating that COX1 deletion-mediated steatohepatitis was partially dependent on WIPI2-mediated autophagy. In conclusion, we demonstrated a novel role of COX1 in hepatic autophagy that protected against NASH by interacting with WIPI2. Targeting the COX1-WIPI2 axis may be a novel therapeutic strategy for NASH.

Magnetic Resonance Imaging(MRI)technology can directly show the changes of brain network and explain the central mechanism of Tai Chi remodeling of brain structure and function.In this paper,we collected the domestic and foreign research on the influence of Tai Chi movement on the brain network by using MRI technology,and combed it from the perspective of brain structure and function changes.The results revealed that Tai Chi may promote memory function,cognitive flexibility,inhibitory control,and working memory capacity by remodeling the structure and function of the medial temporal lobe and prefrontal cortex in older adults,which may be a potential central mechanism for Tai Chi to improve memory and cognitive control in the elderly.However,there are some problems in the current research,such as small sample size,insufficient long-term follow-up,and difficult evaluation of exercise intensity.It is necessary to carry out large-sample and long-term detailed research to further verify the current research results.

Objective:To study the efficacy of endoscopic papillary balloon dilatation (EPBD) in the treatment of non-dilated small choledocholithiasis.Methods:Clinical data of 142 patients with non-dilated small choledocholithiasis admitted to Zhanjiang Central People's Hospital from April 2021 to March 2023 were retrospectively analyzed, including 63 males and 79 females, aged (55.1±15.4) years old. Patients were divided into the EPBD group ( n=63) and endoscopic sphincterotomy (EST) group ( n=79). Blood amylase, liver enzymology, liver metabolism, and blood routine were monitored before and 48 hours after treatment. The occurrences of intraoperative bleeding, perforation, post-ERCP pancreatitis (PEP), and cholangitis were compared between the groups. Patients were followed up and screened for stone recurrence by outpatient review 3 to 12 months from discharge. Results:Compared to preoperative data, the white blood cell count, alanine aminotransferase, aspartate aminotransferase, alkaline phosphatase, total bili-rubin, and direct bilirubin decreased 48 hours after treatment (all P<0.05). The operation time in EPBD group was slightly longer than that in EST group [(43.1±5.9) min vs. (38.5±4.5) min, P=0.064] without statistical significance. There were no case of perforation in both groups. The incidences of intraopera-tive bleeding [3.17%(2/63) vs. 6.33%(5/79)], PEP [17.46%(11/63) vs. 10.53%(8/79)], and postoperative cholangitis [4.76%(3/63) vs. 1.27%(1/79)] were comparable between the groups (all P>0.05). Conclusion:EPBD could be feasible for non-dilated small choledocholithiasis, which does not increase the operation time and incidence of adverse events compared to EST.

Greenspace may bring benefits to human health. Evidence on greenness and health has accumulated in western countries, and several reviews have summarized such evidence. Researchers have also conducted some studies on greenspace and human health in Chinese population, but no prior review has pooled or summarized them. To provide more comprehensive evidence on this topic, we searched and summarized studies on greenspace and health that were conducted specifically in Chinese population. We found that a certain number of studies have been conducted in China, and the evidence indicates that greenspace exposure may reduce the odds of cardiovascular diseases, mental health disorders, adverse birth outcomes as well as mortality. However, most of the current reported studies were of cross-sectional design or randomized controlled trails targeting short-term effects, and prospective cohort studies were scarce. Moreover, greenness exposure was mainly assessed using greenness index like normalized difference vegetative index (NDVI), which were static and cannot distinguish construction and species of greenspaces. Future prospective studies with more precise greenness exposure assessment are warranted to evaluate the prior findings.

TET2, a member of ten-eleven translocation (TET) family as α-ketoglutarate- and Fe

Objective:To analyze the risk factors of postinflammatory hyperpigmentation (PIH) after laser in the treatment of acquired bilateral nevus of Ota-like macules (ABNOM).Methods:A retrospective study was conducted to follow up 120 patients with acquired bilateral nevus of Ota-like macules in the Department of Laser and Physiotherapy, Guangzhou Institute of Dermatology between January 2011 and December 2018, which accepted 1064-nm Q-switched neodymium: yttrium-aluminum-garnet laser treatment. The difference was analyzed between different age, sex, clinical classification, Fitzpatrick skin classification, ABNOM with melasma and postinflammatory pigmentation after laser treatment. Logistic regression was used to analyze the risk factors of postinflammatory hyperpigmentation after 1064-nm Q-switched neodymium: yttrium-aluminum-garnet laser treatment of acquired bilateral nevus of Ota-like macules.Results:Fifty-three ABNOM patients (44.17%) developed PIH after laser treatment. Univariate analysis showed that age, clinical classification, Fitzpatrick skin classification and the patients with both ABNOM and melasma all affected the occurrence of PIH after laser in the treatment of ABNOM, and the difference was statistically significant ( P<0.01). Logistic regression showed that older age, more severe clinical classification and the presence of ABNOM with melasma were the risk factors of PIH after treatment of ABNOM. Conclusions:ABNOM patients should be treated as early as possible. The risk of inducing PIH is great after laser treatment in patients with more severe clinical classification and patients with both ABNOM and melasma.