Exploration of cyclooxygenase-2 inhibitory peptides from walnut dreg proteins based on in silico and in vitro analysis

Walnut dreg protein hydrolysates(WDPHs)exhibit a variety of biological activities,however,the cyclooxygenase-2(COX-2)inhibitory peptide of WDPHs remain unclear.The aim of this study was to rapidly screen for such peptides in WDPHs through a combination of in silico and in vitro analysis.In total,1262 peptide sequences were observed by nano liquid chromatography/tandem mass spectrometry(nano LC-MS/MS)and 4 novel COX-2 inhibitory peptides(AGFP,FPGA,LFPD,and VGFP)were identified.Enzyme kinetic data indicated that AGFP,FPGA,and LFPD displayed mixed-type COX-2 inhibition,whereas VGFP was a non-competitive inhibitor.This is mainly because the peptides form hydrogen bonds and hydrophobic interactions with residues in the COX-2 active site.These results demonstrate that computer analysis combined with in vitro evaluation allows for rapid screening of COX-2 inhibitory peptides in walnut protein dregs.

护理人员心理健康现状分析及预防对策——基于护理人员心理健康状态情况的实证研究

本文选取川北医学院附属医院于2020年1月至2022年6月就职护理人员100例作为研究对象,采用文献分析法、问卷调查法、统计分析法对本院就职护理人员的一般资料情况、抑郁-焦虑-压力量表(21-Item Depression Anxiety and Stress Scale,DASS-21)情况进行分析,并根据护理人员心理健康现状提出可行性预防对策。研究结果表明护理人员心理健康现状比较正常,少部分患者焦虑和压力心理比较严重,临床上可以采用重视心理学知识普及教育、医务社会工作干预医务人员焦虑、建立医务人员持续的社会支持系统等对策进行预防。

自然电位法在海洋矿产勘探中的理论、正反演计算及应用进展

自然电位法是一种被动地球物理勘探方法,其通过在地表、井中或(海)水中测量由电化学、电动和热电机制引发的自然电位异常进而开展相关勘探工作。自然电位法与地下水流及(电)化学梯度有直接关联,已在矿产勘探、环境调查以及水文地球物理问题中受到越来越多的关注和应用。本文主要回顾自然电位法在矿产勘探领域的源机制、数值模拟和反演解释理论,以及该方法在矿产勘探中的应用。同时,总结3个海底硫化物矿床勘探案例,以说明自然电位法在海洋矿产勘探中的特点及应用效果。本研究对探讨自然电位法在深海找矿中的应用具有重要意义。

The role of TGF-beta3 in cartilage development and osteoarthritis

Articular cartilage serves as a low-friction,load-bearing tissue without the support with blood vessels,lymphatics and nerves,making its repair a big challenge.Transforming growth factor-beta 3(TGF-β3),a vital member of the highly conserved TGF-βsuperfamily,plays a versatile role in cartilage physiology and pathology.TGF-β3 influences the whole life cycle of chondrocytes and mediates a series of cellular responses,including cell survival,proliferation,migration,and differentiation.Since TGF-β3 is involved in maintaining the balance between chondrogenic differentiation and chondrocyte hypertrophy,its regulatory role is especially important to cartilage development.Increased TGF-β3 plays a dual role:in healthy tissues,it can facilitate chondrocyte viability,but in osteoarthritic chondrocytes,it can accelerate the progression of disease.Recently,TGF-β3 has been recognized as a potential therapeutic target for osteoarthritis(OA)owing to its protective effect,which it confers by enhancing the recruitment of autologous mesenchymal stem cells(MSCs)to damaged cartilage.However,the biological mechanism of TGF-β3 action in cartilage development and OA is not well understood.In this review,we systematically summarize recent progress in the research on TGF-β3 in cartilage physiology and pathology,providing up-to-date strategies for cartilage repair and preventive treatment.

Mechanism of micro-wetting of highly hydrophobic coal dust in underground mining and new wetting agent development

The internal mechanism of the high hydrophobicity of the coal samples from the Pingdingshan mining area was studied through industrial,element,and surface functional group analysis.Laboratory testing and molecular dynamics simulations were employed to study the impact of three types of surfactants on the surface adsorption properties and wettability of highly hydrophobic bituminous coal.The results show that the surface of highly hydrophobic bituminous coal is compact,rich in inorganic minerals,and poorly wettable and that coal molecules are dominated by hydrophobic functional groups of aromatic rings and aliphatic structures.The wetting performance of surfactants as the intermediate carrier to connect coal and water molecules is largely determined by the interaction force between surfactants and coal(Fs-c)and the interaction force between surfactants and water(Fs-w),which effectively improve the wettability of modified coal dust via modifying its surface electrical properties and surface energy.A new type of wetting agent with a dust removal rate of 89%has been developed through discovery of a compound wetting agent solution with optimal wetting and settling performance.This paper provides theoretical and technical support for removing highly hydrophobic bituminous coal dust in underground mining.

Ultrafast Synthesis of Metal-Layered Hydroxides in a Dozen Seconds for High-Performance Aqueous Zn(Micro-)Battery

Efficient synthesis of transition metal hydroxides on conductive substrate is essential for enhancing their merits in industrialization of energy storage field.However,most of the synthetic routes at present mainly rely on traditional bottom-up method,which involves tedious steps,time-consuming treatments,or additional alkaline media,and is unfavorable for high-efficiency production.Herein,we present a facile,ultrafast and general avenue to synthesize transition metal hydroxides on carbon substrate within 13 s by Joule-heating method.With high reaction kinetics caused by the instantaneous high temperature,seven kinds of transition metal-layered hydroxides(TM-LDHs)are formed on carbon cloth.Therein,the fastest synthesis rate reaches~0.46 cm^(2)s^(-1).Density functional theory calculations further demonstrate the nucleation energy barriers and potential mechanism for the formation of metal-based hydroxides on carbon substrates.This efficient approach avoids the use of extra agents,multiple steps,and long production time and endows the LDHs@carbon cloth with outstanding flexibility and machinability,showing practical advantages in both common and micro-zinc ion-based energy storage devices.To prove its utility,as a cathode in rechargeable aqueous alkaline Zn(micro-)battery,the NiCo LDH@carbon cloth exhibits a high energy density,superior to most transition metal LDH materials reported so far.

Key elements and checklist of shared decisionmaking conversation on life-sustaining treatment in emergency:a multispecialty study from China

BACKGROUND:Shared decision-making(SDM)has broad application in emergencies.Most published studies have focused on SDM for a certain disease or expert opinions on future research gaps without revealing the full picture or detailed guidance for clinical practice.This study is to investigate the optimal application of SDM to guide life-sustaining treatment(LST)in emergencies.METHODS:This study was a prospective two-round Delphi consensus-seeking survey among multiple stakeholders at the China Consortium of Elite Teaching Hospitals for Residency Education.Participants were identified based on their expertise in medicine,law,administration,medical education,or patient advocacy.All individual items and questions in the questionnaire were scored using a 5-point Likert scale,with responses ranging from"very unimportant"(a score of 1)to"extremely important"(a score of 5).The percentages of the responses that had scores of 4-5on the 5-point Likert scale were calculated.A Kendall’s W coefficient was calculated to evaluate the consensus of experts.RESULTS:A two-level framework consisting of 4 domains and 22 items as well as a ready-touse checklist for the informed consent process for LST was established.An acceptable Kendall’s W coefficient was achieved.CONCLUSION:A consensus-based framework supporting SDM during LST in an emergency department can inform the implementation of guidelines for clinical interventions,research studies,medical education,and policy initiatives.

Fractional flow reserve measured via left internal mammary artery after coronary artery bypass grafting:Two case reports

BACKGROUND The fractional flow reserve(FFR)has made the treatment of coronary heart disease more precise.However,there are few reports on the measurement of FFR via the left internal mammary artery(LIMA).Herein,we described the determination of further treatments by measuring FFR via the LIMA in 2 cases after coronary artery bypass grafting(CABG).CASE SUMMARY Case 1 was a 66-year-old male who was admitted due to“chest tightness after CABG.”The patient underwent CABG 7 years prior due to coronary heart disease.Coronary artery angiography showed complete occlusion of the left anterior descending artery(LAD),and subtotal occlusion of the third segment of the right coronary artery.On arterial angiography,there was 85%stenosis at the distal end of the anastomosis of the LIMA-LAD graft.FFR via LIMA was determined at 0.75.Thus,balloon dilation was performed in Case 1.FFR after balloon dilation was 0.94.Case 2 was a 60-year-old male who was admitted due to“chest tightness after CABG.”The patient underwent CABG 6 years prior due to coronary heart disease.There was 60%segmental stenosis in the middle segment of LAD and 75%anastomotic stenosis.FFR measured via LIMA was 0.83(negative);thus the intervention was not performed.Case 2 was given drug treatments.At the 3-mo follow-up,there was no recurrence of chest tightness or shortness of breath in both cases.They are currently under continual follow-up.CONCLUSION We provided evidence that FFR measurement via grafted blood vessels,especially LIMA,after CABG is a good method to determine the intervention course.

Annexin A5 derived from matrix vesicles protects against osteoporotic bone loss via mineralization

Matrix vesicles(MVs)have shown strong effects in diseases such as vascular ectopic calcification and pathological calcified osteoarthritis and in wound repair of the skeletal system due to their membranous vesicle characteristics and abundant calcium and phosphorus content.However,the role of MVs in the progression of osteoporosis is poorly understood.Here,we report that annexin A5,an important component of the matrix vesicle membrane,plays a vital role in bone matrix homeostasis in the deterioration of osteoporosis.We first identified annexin A5 from adherent MVs but not dissociative MVs of osteoblasts and found that it could be sharply decreased in the bone matrix during the occurrence of osteoporosis based on ovariectomized mice.We then confirmed its potential in mediating the mineralization of the precursor osteoblast lineage via its initial binding with collagen type I to achieve MV adhesion and the subsequent activation of cellular autophagy.Finally,we proved its protective role in resisting bone loss by applying it to osteoporotic mice.Taken together,these data revealed the importance of annexin A5,originating from adherent MVs of osteoblasts,in bone matrix remodeling of osteoporosis and provided a new strategy for the treatment and intervention of bone loss.

铁氧化物前驱体结构与其催化煤液化性能的关系（英文）

煤直接液化生产液体燃料是煤洁净转化和高效利用的一种重要途径,是平衡富煤少油地区资源的有效技术手段.高效煤直接液化催化剂能够促进煤的热解,加速热解大分子的加氢裂化,提高液化产物中油的收率和油的品质.各种含铁物质如赤泥、天然铁矿石、合成型铁硫化物、合成型铁氧化物、以及油溶性和水溶性含铁物质都被用做了煤直接液化催化剂的前驱体,它们在煤液化条件下都能原位转化为磁黄铁矿相(Fe_(1-x)S)从而起到催化作用.由于前驱体组成和性质差异,原位生成的活性相的性质也会有较大差异,导致煤液化结果有很大不同.对前驱体的性质和其原位形成的活性相及其煤液化催化活性的关联研究,对于催化剂前驱体的筛选、设计和生产都具有非常重要的指导意义.但由于影响煤液化结果的因素很多,并且催化剂前驱体的来源、组成或制备条件的差异,很难判定前驱体的某一性质是影响煤液化催化活性的决定性因素,更难以获得前驱体的晶相、晶粒度、比表面积、粒度等因素与煤液化结果的趋势性关联关系.我们采用相同的制备方法和相同的反应原料,仅改变一个容易调变的温度参数,成功制备出同一体系且具有渐变微观结构的铁氧化合物前驱体,并在高压釜内考察了硫化性质和对神华神东煤的催化液化活性,通过SEM,XRD,TG,BET和H2-TPR等表征手段研究了不同温度合成的铁氧化物前驱体的微观结构与性质,进而探索建立与煤液化催化活性之间的关联.结果发现,铁氧化物的微观结构可以通过控制液相合成时的沉淀及氧化反应温度来调变,铁氧化物前驱体晶相是最重要的影响因素.正是得益于包含较多的γ-FeOOH和α-FeOOH晶相,以及较大的比表面积,较高的含水量和更多的活性氧数量,相比高温(70°C)合成的铁氧化物低温(20–30°C)合成的铁氧化物油收率可提高4.5%–4.6%.原位生成的活性相磁黄铁矿相(Fe_(1-x)S)的结构由其前驱体决定,其晶粒度与煤液化油收率呈近似线性对应关系,表明磁黄铁矿相晶粒度越低,煤液化油收率越高.最后我们以液化原料煤粉作为载体,考察了不同合成温度对负载的铁氧化物前驱体的影响,发现煤粉作为载体虽然不会过分干扰合成温度对铁化合物的晶相、形貌的影响,但可以起到良好的物理分散和降低铁氧化物前驱体粒度的作用。

阿柏西普与雷珠单抗治疗糖尿病性黄斑水肿的疗效比较

目的:分析阿柏西普和雷珠单抗对糖尿病性黄斑水肿治疗的疗效。方法:前瞻性研究。选择2019-11/2020-02于邢台市人民医院眼科首次就诊的糖尿病性黄斑水肿(DME)的患者纳入研究,随机按治疗方式分为阿柏西普组与雷珠单抗组,采用3+PRN(pro re nata)的治疗方案,两次注射时间间隔至少4wk,所有患者均先注射3次,随访时根据患者的最佳矫正视力(BCVA)及黄斑部中心凹视网膜厚度(CFT)的大小决定是否再次注射,患者均完成12mo随访,记录治疗前后两组患者的BCVA、CFT、眼压以及注射次数的变化。结果:两组患者的BCVA、CFT在术前及术后随访中均有差异(P<0.05),两组间BCVA及CFT随访期间均无差异(P>0.05)。随访结束时,阿柏西普组平均注射次数为6.094±0.689次,雷珠单抗组为7.231±0.652次,比较无差异(t=-6.403,P<0.05)。所有患者均未出现眼部并发症以及全身不良反应。结论:与玻璃体腔注射雷珠单抗比较,注射阿柏西普注射液治疗DME能取得相似的治疗效果,且注射次数更少。

内镜下多环黏膜套扎切除术治疗食管癌前病变和食管早癌的疗效及安全性分析

目的探讨内镜下多环黏膜套扎切除术(EMBM)治疗食管癌前病变和食管早癌的疗效及其安全性。方法回顾性分析2013年1月-2016年6月在该院内镜中心接受EMBM治疗的75例食管癌前病变和食管早癌患者,观察记录手术时间、手术并发症和治疗效果,对比术前和术后病理结果,并结合随访结果,分析总结EMBM的疗效。结果 75例患者均顺利完成EMBM术,手术时间(40.00±9.21)min,3例术中并发出血,均成功内镜下止血,无穿孔、迟发性出血和操作相关死亡发生。9例患者术后出现食管创面狭窄,予以内镜下球囊扩张后狭窄缓解。EMBM术后病理:低级别上皮内瘤变(LGIN)24处,高级别上皮内瘤变(HGIN)45处,黏膜内癌(IMCA)9处,所有患者水平切缘均阴性。相比较EMBM前的钳夹活检,有21处(26.9%)标本病理结果发生变化。随访期间,2例患者术后半年、4例患者术后1年复发,再次给予内镜成功治疗。其余患者随访期间未见复发。结论 EMBM具有操作简单、用时短和并发症少特点,是治疗食管早癌、尤其是食管癌前病变安全有效的方法。

Ash2l-1/Ash2l-2在小鼠胚胎干细胞中的表达特异性及互补效应

H3K4me3是一种重要的表观遗传修饰,主要由MLL(mixed lineage leukemia)甲基转移酶复合体催化,对小鼠胚胎干细胞(mouse embryonic stem cells,m ESCs)自我更新能力的维持具有重要作用。ASH2L是MLL复合体中一个重要的核心亚单位,参与调控m ESCs中染色质的开放状态。ASH2L在m ESCs中有2个异构体:ASH2L-1(80 k Da)和ASH2L-2(65 k Da),且以ASH2L-2的表达为主;而在小鼠胚胎成纤维细胞(mouse embryonic fibroblast,MEF)中,只有ASH2L-1表达。目前,Ash2l-1和Ash2l-2在m ESCs中的作用尚不清楚。本文利用CRISPR/Cas9基因组编辑技术,建立了Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs。通过碱性磷酸酶染色、免疫荧光染色和q RT-PCR发现,Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs在碱性磷酸酶、多能性调控转录因子(Oct4、Nanog、Sox2和Klf4)的表达与野生型对照无显著差异。通过拟胚体分化实验,发现Ash2l-1^(–/–)m ESCs诱导的拟胚体在Snai2(外胚层标记基因)和Gata4(内胚层标记基因)的表达上显著低于野生型m ESCs诱导的拟胚体(P<0.01)。通过Western blotting,发现Ash2l-1^(–/–)m ESCs中ASH2L-2的表达显著上调(P<0.01),Ash2l-2^(–/–)m ESCs中ASH2L-1的表达显著上调(P<0.01),而Ash2l-1^(–/–)和Ash2l-2^(–/–)m ESCs中,基因组H3K4me3的表达与野生型对照并无显著差异。这表明Ash2l-1和Ash2l-2之间存在补偿效应。利用JASPAR和KEGG预测分析发现,Ash2l-1和Ash2l-2启动子区分别具有3个和16个潜在的多能性转录因子结合位点,这些转录因子可能介导实现Ash2l-1和Ash2l-2之间的补偿效应。以上结果表明,Ash2l-1和Ash2l-2之间的补偿效应可能参与m ESCs多能性的维持和基因组H3K4me3的调控。

Mechanical behavior of coal under different mining rates:A case study from laboratory experiments to field testing

During the development of hot dry rock,the research on thermal fatigue damage caused by thermal shock of cold and heat cycles is the basis that ensures the long-term utilization of geothermal resources,but there are not enough relevant studies at present.Based on this,the thermal damage tests of granite at different temperatures(250,350,450°C)and quenching cycles(1,5,10,15 cycles)were carried out.Preliminary reveals the damage mechanism and heat transfer law of the quenching cycle effect on hot dry rock.The results show that with the increase of temperature and cycles,the uneven thermal expansion of minerals and the thermal shock caused by quenching promote the crack development of granite,resulting in the decrease of P-wave velocity,thermal conductivity and uniaxial compressive strength of granite.Meanwhile,the COMSOL was used to simulate the heat transfer of hot dry rock under different heat treatment conditions.It concluded that the increase in the number of quenching cycles reduced the heat transfer capacity of the granite,especially more than 10 quenching cycles,which also reflects that the thermal fatigue damage leads to a longer time for the temperature recovery of the hot dry rock mass.In addition,the three-dimensional nonlinear fitting relationship among thermal conductivity,temperature and cycle number was established for the first time,which can better reveal the change rule of thermal conductivity after quenching thermal fatigue effect of hot dry rock.The research results provide theoretical support for hot dry rock reservoir reconstruction and production efficiency evaluation.

Effect of transcutaneous electrical acupoint stimulation combined with palonosetron on chemotherapy-induced nausea and vomiting: a single.blind,randomized, controlled trial

Background: Chemotherapy?induced nausea and vomiting adversely affects the quality of life of patients who receive chemotherapy via intravenous infusion or transcatheter arterial chemoembolization(TACE). This study aimed to investigate the clinical effects of transcutaneous electrical acupoint stimulation(TEAS) on nausea and vomiting after TACE.Methods: A total of 142 patients who received TACE with cisplatin for primary or metastatic liver cancer were assigned to the active?acupuncture(n = 72) or placebo?acupuncture(n Hegu(LI4), Neiguan(P6), an= 70) groups using a covariate?adaptive randomization at a ratio of 1:1. The acupointsd Zusanli(ST36) were stimulated twice daily for 6 days. The effects of TEAS on nausea and vomiting were assessed by using occurrence rate and severity of these symptoms. Anorexia scale and M. D. Anderson Symptom Inventory(MDASI) scores were secondary endpoints and were used to assess the effect of TEAS on patient appetite and quality of life. The safety of the treatments was also monitored.Results: Between the two groups, the differences in occurrence rates and severities of nausea and vomiting after TACE were not significant(all P > 0.05). From the second day after TACE, anorexia scores were significantly lower in the active?acupuncture group than in the placebo?acupuncture group and continued to decrease over time with treat?ment(all P values less than 0.01). On days 0, 1, and 2, the mean MDASI scores for the active?acupuncture group were slightly lower than those for the placebo?acupuncture group, but the differences were not statistically significant(all P > 0.05). No significant differences were found between the two groups in the occurrence rate of any adverse event(P > 0.05).Conclusion: TEAS appears to be a safe and effective therapy to relieve patients' gastrointestinal discomfort after chemotherapy.

中药“四黄清灵液”熏蒸联合人工泪液治疗干眼症的临床疗效

目的:观察中药"四黄清灵液"熏蒸联合人工泪液治疗干眼症的临床疗效,为临床治疗干眼症提供依据。方法:选取2016-06/12我院眼科就诊的干眼患者82例164眼,随机分为对照组与观察组。对照组41例82眼给予人工泪液滴双眼,4次/d;观察组41例82眼在给予人工泪液基础上增加自拟中药"四黄清灵液"(黄精、黄岑、黄连、菊花、薄荷)熏蒸双眼,1次/d。治疗前及连续治疗14d后,分别观察两组患者泪膜破裂时间(break-up time,BUT)、角膜荧光素染色(corneal fluorescein staining,FL)、基础泪液分泌试验(SchirmerⅠtest,SⅠt)以判断疗效变化。结果:治疗14d后,观察组总有效率为87.8%,对照组总有效率为70.7%,两组之间比较差异有统计学意义(P<0.05)。治疗14d后观察组SⅠt(8.43±2.51mm/5min)、BUT(8.60±2.47s)较对照组(6.38±2.52mm/5min、6.35±2.29s)升高,差异有统计学意义(P<0.05);治疗14d后观察组FL评分(0.84±0.75分)低于对照组(1.26±0.84分),差异有统计学意义(P<0.05)。结论:自拟中药"四黄清灵液"熏蒸联合人工泪液治疗干眼疗效优于单纯使用人工泪液,可有效改善干眼症患者的临床症状。

中医药治疗糖尿病肾病最新研究进展

糖尿病肾病(diabetic nephropathy,DN)是一种常见的1型和2型糖尿病(diabetic mellitus,DM)慢性并发症,具有很高的致残率,它也是糖尿病最主要的致死原因之一。在传统中医上,对于糖尿病肾病的治疗主要有各类型的中药汤剂、中药注射液和针灸治疗等方法。论文总结了近年来中医领域对于糖尿病肾病的病变机理、治疗对策等,通过充分比较近年来中医学领域的相关进展,为糖尿病肾病治疗的发展趋势提供参考。

The mechanism of microwave rock breaking and its potential application to rock-breaking technology in drilling

The exploration and development of oil and gas resources have shifted from shallow to deep and ultradeep.The difficulty of rock breaking has also increased,introducing new challenges to traditional rock-breaking technology.Hence,there is an urgent need to develop new rock-breaking technologies to improve the development efficiency of deep oil and gas resources.Therefore,this study focused on the new microwave rock-breaking technology and conducted experimental and numerical simulation research on typical deep,hard rock granite.The research results showed that granite in the microwave field exhibited high-temperature melting and fracture,and the highest temperature could reach 550°C.Under the irradiation of circulating microwaves,a minimum irradiation time threshold of 3 min was needed to cause irreversible damage to the rock.The numerical simulation results showed that the interaction of thermal stress and in situ stress would cause the inside of the rock stratum to separate into a disturbed deterioration area,disturbed unloading area and initial stress area.These results are expected to provide the necessary technical guidance and theoretical support for the research and development of high-efficiency rock-breaking drilling for deep hard rock.

Sustained Akt signaling in articular chondrocytes causes osteoarthritis via oxidative stress-induced senescence in mice

Osteoarthritis(OA) is an age-related disorder that is strongly associated with chondrocyte senescence. The causal link between disruptive PTEN/Akt signaling and chondrocyte senescence and the underlying mechanism are unclear. In this study, we found activated Akt signaling in human OA cartilage as well as in a mouse OA model with surgical destabilization of the medial meniscus.Genetic mouse models mimicking sustained Akt signaling in articular chondrocytes via PTEN deficiency driven by either Col2a1-Cre or Col2a1-Cre^(ERT2) developed OA, whereas restriction of Akt signaling reversed the OA phenotypes in PTEN-deficient mice.Mechanistically, prolonged activation of Akt signaling caused an accumulation of reactive oxygen species and triggered chondrocyte senescence as well as a senescence-associated secretory phenotype, whereas chronic administration of the antioxidant N-acetylcysteine suppressed chondrocyte senescence and mitigated OA progression in PTEN-deficient mice. Therefore,inhibition of Akt signaling by PTEN is required for the maintenance of articular cartilage. Disrupted Akt signaling in articular chondrocytes triggers oxidative stress-induced chondrocyte senescence and causes OA.

Nanomaterials and bone regeneration

The worldwide incidence of bone disorders and conditions has been increasing. Bone is a nanomaterials composed of organic （mainly collagen） and inorganic （mainly nano-hydroxyapatite） components, with a hierarchical structure ranging from nanoscale to macroscale. In consideration of the serious limitation in traditional therapies, nanomaterials provide some new strategy in bone regeneration. Nanostructured scaffolds provide a closer structural support approximation to native bone architecture for the cells and regulate cell proliferation, differentiation, and migration, which results in the formation of functional tissues. In this article, we focused on reviewing the classification and design of nanostructured materials and nanocarrier materials for bone regeneration, their cell interaction properties, and their application in bone tissue engineering and regeneration. Furthermore, some new challenges about the future research on the application of nanomaterials for bone regeneration are described in the conclusion and perspectives part.