Objective:To develope a titanium specimen with good osteogenic activity through fabrication of a composite hydroxyapatite coating on ordered micro-/nanotextured titanium surface.Methods:An ordered micro-/nanotextured structure was prepared on the surface of titanium (the control), and then hydroxyapatite was deposited on the as-prepared ordered micro-/nanotextured structure by alternative loop immersion method. The ordered micro-/nanotextured structures before and after hydroxyapatite deposition were denoted as HA and MN, respectively. Surface morphology was observed using a scanning electron microscope. Bone marrow mesenchymal stem cells (BMMSC) were seeded on the surface of three different materials. Cell morphology was observed with a scanning electron microscope. Cell adhesion and cell proliferation were evaluated using 4', 6-diamidino-2-phenylindole staining and cell counting kit-8 assay, respectively. Extracellular matrix mineralization and the expression levels of osteogenesis-related genes were evaluated by alizarin red staining and real-time quantitative PCR, respectively. Each group has three samples in every experiment.Results:After alternative loop immersing, the MN's original microholes (20 μm in diameter) were retained, and the uniform petal-like hydroxyapatite was deposited on the MN's original titania nanotubes (70 nm in diameter). Compared with the control, BMMSC on MN and HA elongated further and intersected along the micron structure with noticeable pseudopodia and pseudoplates, and the trend was more pronounced especially on HA. The number of early adherent cells on HA was remarkably larger than that on the control and MN at each time point ( P<0.05). On day 1, the A value of cell proliferation on HA was significantly higher than that on the control and MN ( P<0.05). The A value of cell proliferation on HA was significantly lower than that on the control and MN on day 3 ( P<0.05). On day 7, the A value of cell proliferation on HA was significantly lower than that on MN ( P<0.05), but there was no statistically significant difference in the A value of cell proliferation between HA and the control on day 7 ( P>0.05). The Avalue of extracellular matrix mineralization on HA (0.607±0.011) was significantly higher than that on the control and MN (0.268±0.025 and 0.522±0.022, respectively) ( t=-0.25, P<0.001; t=-0.34, P<0.001). The expression levels of bone related genes on HA were significantly higher than those on the control and MN ( P<0.05). Conclusions:HA could promote the BMMSC adhesion and osteogenic differentiation, support BMMSC proliferation, and demonstrate good osteogenic activity.

Objective To construct a 3D printed PLLA/β-tricalcium(PLLA/β-TCP)bone tissue engineering scaffold surface porous structure through simple treatment with NaOH solution,increase the roughness and hydrophilicity of the scaffold,and promote cell adhesion on the scaffold surface.Methods The PLLA/β-TCP mesh scaffold was prepared by 3D printing melt deposition molding technology,and the scaffold was roughed by NaOH etching.The effects of NaOH concentration and time on the scaffold were observed according to the microstructure,energy spectrum,contact angle,mechanics,and cell adhesion of the scaffold.Results The PLLA/β-TCP composite scaffold constructed by melt deposition technology had a pre-set porous structure,and the pores were interconnected.After NaOH etching,a porous structure with both macroscopic and microscopic pores was formed.The increase in any of the NaOH concentration and time parameters would lead to the increase of pore diameter and surface roughness.When the NaOH treatment parameter was 0.1 mol/L(9 h),it could significantly reduce the water contact angle on the surface of the scaffold,and had no significant effect on the compressive strength of the scaffold.In vitro cell testing showed that the surface porous composite scaffold etched with NaOH had more advantages in the adhesion and proliferation of BMSCs.Conclusion Using NaOH to process 3D printing of PLLA/β-TCP bone tissue engineering scaffolds can effectively improve the surface morphology of the scaffold,and optimize its hydrophilicity and cell adhesion.

Objective To solve the problem of insufficient hydrophilicity on the surface of polycaprolactone(PCL)/β-TCP bone tissue engineering scaffolds,NaOH etching method was used to improve the surface microstructure of 3D printed PCL/β-TCP scaffolds,further affecting their hydrophilicity and cell response.Methods PCL/β-TCP mesh scaffolds were prepared using 3D printing melt deposition molding technology,and the surface roughness of the scaffolds was modified by NaOH etching.The effects of two reaction parameters,NaOH concentration and time,on the microstructure,spectral elements,contact angle,compressive strength,and cell adhesion of the scaffolds before and after modification were observed.Results After NaOH etching,the surface microporous structure of the mesh scaffold was successfully prepared.With the increase of either NaOH concentration or time,the surface micropores of the scaffold increased while the contact angle of the material surface decreased.However,the compression strength of the etched scaffold treated with NaOH for 1 mol/L(24 h)or 10 mol/L(6 h)was not statistically significant compared to the untreated group(P＞0.05).The number of cells on the etched scaffold increased,with a larger spreading area of individual cells,making it more advantageous in the adhesion and proliferation of BMSCs.Conclusion The use of NaOH etching to improve the hydrophilicity of 3D printed PCL/β-TCP bone tissue engineering scaffolds is a low-cost and effective strategy which can effectively improve the wettability and cell adhesion of the scaffolds.

Acute postoperative pain and postoperative sleep disturbances are both major challenges in perioperative management,and they interact with each other.Acute pain can interfere with postoperative sleep,and sleep disturbances can lead to hyperalgesia and aggravate postoperative pain.At present,the in-teraction mechanism between the two is not clear,and there is also a lack of unified standards for prevention and control strategies.Therefore,this article reviews the research status of the definition,harmful effect,in-teraction mechanism,prevention,and management strategies of acute postoperative pain and postoperative sleep disturbances.We hope to provide valuable reference for the prevention and treatment of perioperative complications.

Since the utilization of anthracyclines in cancer therapy, severe cardiotoxicity has become a major obstacle. The major challenge in treating cancer patients with anthracyclines is minimizing cardiotoxicity without compromising antitumor efficacy. Herein, histone deacetylase SIRT6 expression was reduced in plasma of patients treated with anthracyclines-based chemotherapy regimens. Furthermore, overexpression of SIRT6 alleviated doxorubicin-induced cytotoxicity in cardiomyocytes, and potentiated cytotoxicity of doxorubicin in multiple cancer cell lines. Moreover, SIRT6 overexpression ameliorated doxorubicin-induced cardiotoxicity and potentiated antitumor efficacy of doxorubicin in mice, suggesting that SIRT6 overexpression could be an adjunctive therapeutic strategy during doxorubicin treatment. Mechanistically, doxorubicin-impaired mitochondria led to decreased mitochondrial respiration and ATP production. And SIRT6 enhanced mitochondrial biogenesis and mitophagy by deacetylating and inhibiting Sgk1. Thus, SIRT6 overexpression coordinated metabolic remodeling from glycolysis to mitochondrial respiration during doxorubicin treatment, which was more conducive to cardiomyocyte metabolism, thus protecting cardiomyocytes but not cancer cells against doxorubicin-induced energy deficiency. In addition, ellagic acid, a natural compound that activates SIRT6, alleviated doxorubicin-induced cardiotoxicity and enhanced doxorubicin-mediated tumor regression in tumor-bearing mice. These findings provide a preclinical rationale for preventing cardiotoxicity by activating SIRT6 in cancer patients undergoing chemotherapy, but also advancing the understanding of the crucial role of SIRT6 in mitochondrial homeostasis.

Objective To investigates the effect of acupuncture on sensitization of Zusanli(ST36)in rats with different functional states by using healthy and knee osteoarthritis model rats.Methods Male SD rats were randomly divided into control,model,model-acupuncture and blank-acupuncture group,with 7 rats in each group.KOA rat model was prepared by intra-articular injection of 1 mg·50 μL-1 monoiodoacetic aci(MIA)in model group and model-acupuncture group.On the second day of modeling,acupuncture treatment was performed on the left Zusanli of the model acupuncture group and the blank-acupuncture group,once everyday for 20 min,5 times as a course of treatment,2 days between courses.The general condition,knee joint diameter,plantar thermal pain threshold and Lequesne MG score of rats was observed before modeling and after acupuncture.Observing the morphology of knee joint cartilage to judge whether the model is successful,measuring the mechanical pain threshold of Zusanli to investigate the acupoint sensitization,observing and counting the morphology of skin mast cells in the acupoint area,and detecting the expression of skin calcitonin gene-related peptide(CGRP)in the acupoint area.Results The mechanical pain threshold of Zusanli after acupuncture in model group and blank-acupuncture group decreased significantly after modeling(P<0.01,P<0.05),compared with the control group,the change rate of mechanical pain threshold in model group and blank-acupuncture group increased significantly(P<0.05),compared with the model group,the mechanical pain threshold of Zusanli in the model-acupuncture group decreased significantly(P<0.01).Compared with the control group,the fluorescence intensity of CGRP protein in the skin tissue of Zusanli in the model group increased significantly(P<0.01),MC degranulation rate increased significantly(P<0.05),and there was no significant difference in the fluorescence intensity of CGRP protein of Zusanli in the blank-acupuncture group(P>0.05),MC degranulation rate increased obviously(P<0.01),CGRP protein of Zusanli in the model-acupuncture group was significantly reduced compared with the model group(P<0.01),and there was no significant difference in the degranulation rate of MC(P>0.05).Conclusion Acupoint sensitization can occur in different functional states of rats.Zusanli(ST36)of KOA model rats can be sensitized,and acupuncture stimulation can make Zusanli sensitization caused by disease disappear.Under physiological conditions,acupuncture stimulation can induce similar sensitization phenomenon.

Although several artificial nanotherapeutics have been approved for practical treatment of metastatic breast cancer, their inefficient therapeutic outcomes, serious adverse effects, and high cost of mass production remain crucial challenges. Herein, we developed an alternative strategy to specifically trigger apoptosis of breast tumors and inhibit their lung metastasis by using natural nanovehicles from tea flowers (TFENs). These nanovehicles had desirable particle sizes (131 nm), exosome-like morphology, and negative zeta potentials. Furthermore, TFENs were found to contain large amounts of polyphenols, flavonoids, functional proteins, and lipids. Cell experiments revealed that TFENs showed strong cytotoxicities against cancer cells due to the stimulation of reactive oxygen species (ROS) amplification. The increased intracellular ROS amounts could not only trigger mitochondrial damage, but also arrest cell cycle, resulting in the in vitro anti-proliferation, anti-migration, and anti-invasion activities against breast cancer cells. Further mice investigations demonstrated that TFENs after intravenous (i.v.) injection or oral administration could accumulate in breast tumors and lung metastatic sites, inhibit the growth and metastasis of breast cancer, and modulate gut microbiota. This study brings new insights to the green production of natural exosome-like nanoplatform for the inhibition of breast cancer and its lung metastasis via i.v. and oral routes.

Although primary vesical calculi is an ancient disease, the mechanism of calculi formation remains unclear. In this study, we established a novel primary vesical calculi model with d,l-choline tartrate in mice. Compared with commonly used melamine and ethylene glycol models, our model was the only approach that induced vesical calculi without causing kidney injury. Previous studies suggest that proteins in the daily diet are the main contributors to the prevention of vesical calculi, yet the effect of fat is overlooked. To assay the relationship of dietary fat with the formation of primary vesical calculi, d,l-choline tartrate-treated mice were fed a high-fat, low-fat, or normal-fat diet. Genetic changes in the mouse bladder were detected with transcriptome analysis. A high-fat diet remarkably reduced the morbidity of primary vesical calculi. Higher fatty acid levels in serum and urine were observed in the high-fat diet group, and more intact epithelia in bladder were observed in the same group compared with the normal- and low-fat diet groups, suggesting the protective effect of fatty acids on bladder epithelia to maintain its normal histological structure. Transcriptome analysis revealed that the macrophage differentiation-related gene C-X-C motif chemokine ligand 14 (Cxcl14) was upregulated in the bladders of high-fat diet-fed mice compared with those of normal- or low-fat diet-fed mice, which was consistent with histological observations. The expression of CXCL14 significantly increased in the bladder in the high-fat diet group. CXCL14 enhanced the recruitment of macrophages to the crystal nucleus and induced the transformation of M2 macrophages, which led to phagocytosis of budding crystals and prevented accumulation of calculi. In human bladder epithelia (HCV-29) cells, high fatty acid supplementation significantly increased the expression of CXCL14. Dietary fat is essential for the maintenance of physiological functions of the bladder and for the prevention of primary vesical calculi, which provides new ideas for the reduction of morbidity of primary vesical calculi.

Objective : This experiment was carried out to study the effects of chronic inflammatory pain on the gut flora of mice by 16S rRNA high⁃throughput sequencing. Methods : Twelve specific pathogen free (SPF) C57BL/ 6J mice were randomly divided into CFA group and mock group , with 6 mice in each group. Chronic inflammatory pain model was established by intraplantar injection of CFA in the right posterior pelma of C57BL/6J mice. In the control group , normal saline was injected by intraplantar injection in the same position. Two weeks later, the mice were euthanized , and the feces in the colon were collected. The feces of two mice in the same group were mixed , detected and analyzed by 16S rRNA high⁃throughput sequencing technology. Results : Compared with mock group , the abundance and diversity of gut flora in CFA group decreased. The abundance of Firmicutes and TM7 increased at the phylum level , the abundance of Aerococcus , Lactobacillus and Desulfovibrio increased significantly at the fami ⁃ ly and genus level , while the abundance of Psychrobacter, Prevotella , Oscillospira and Bifidobacterium decreased significantly compared to mock group. In addition , many biomarkers were found from the level of the phylum to the genus. Conclusion The gut microflora structure , especially the dominant flora , has changed significantly in mice with chronic inflammatory pain , which can provide basis for the treatment of microecological imbalance caused by chronic inflammatory pain and the improvement of patients ′ negative emotions through“ gut brain axis”.

Objective:To analyze the modifiable risk factors for early-onset Alzheimer's disease (EOAD), and provide evidence for primary prevention of EOAD.Methods:Forty patients with EOAD, admitted to our hospital from January 2015 to April 2020, were selected as EOAD group, and 120 healthy controls accepted physical examination and matched with EOAD patients in age, gender and education level were selected. Demographic characteristics and clinical data of patients from the EOAD group and subjects from the control group were compared retrospectively, and multivariate Logistic regression was used to analyze the independent risk factors for onset of EOAD.Results:As compared with the control group, the EOAD group had significantly higher proportion of patients with hypertension, non-traumatic tooth loosening or loss, history of traumatic brain injury, hearing impairment, chronic stress and/or anxiety, and sleep disorder ( P<0.05). The results of multivariate Logistic regression analysis showed that hypertension ( OR=4.559, 95%CI=1.523-13.643, P=0.007), non-traumatic loss or loosing of tooth ( OR=5.345, 95%CI=1.989-14.346, P=0.001), hearing impairment ( OR=9.336, 95%CI=2.033-27.850, P=0.000), chronic stress and/or anxiety ( OR=7.375, 95%CI=2.612-20.822, P=0.000), and sleep disorder ( OR=4.875, 95%CI=1.520-15.625, P=0.002) were independent risk factors for onset of EOAD. Conclusion:Hypertension, non-traumatic loss or loosing of tooth, hearing impairment, chronic stress and/or anxiety, and sleep disorders are risk factors for onset of EOAD; the screening and intervention of these risk factors can be used as a primary prevention strategy for EOAD.