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Effects of friction stir processing and nano-hydroxyapatite on the microstructure,hardness,degradation rate and in-vitro bioactivity of WE43 alloy for biomedical applications 被引量:1
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作者 Bo Wu Farazila Yusof +5 位作者 Fuguo Li Huan Miao A.R.Bushroa Mohd Ridha Bin Muhamad Irfan Anjum Badruddin Mahmoud Z.Ibrahim 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2024年第1期209-224,共16页
Nowadays,magnesium alloys are emerging in biomedical implants for their similar properties to natural bones.However,the rapid degradation of magnesium alloys in biological media hinders successful implantation.Refinem... Nowadays,magnesium alloys are emerging in biomedical implants for their similar properties to natural bones.However,the rapid degradation of magnesium alloys in biological media hinders successful implantation.Refinement of microstructure,as well as reinforcement particles can significantly improve the degradation rate.In this work,multi-pass friction stir processing(FSP)was proposed to synthesize WE43/nano-hydroxyapatite(n HA)surface composite,the microstructure,reinforced particle distribution,micro-hardness,corrosion behavior and in-vitro bioactivity were studied.The subsequent FSP passes of WE43 alloy and WE43/n HA composite refined the grain size which was reduced by 94.29%and 95.92%(2.63 and 1.88μm,respectively)compared to base metal after three passes.This resulted in increasing the microhardness by 120%(90.86 HV0.1)and 135%(105.59 HV0.1)for the WE43 and WE43-n HA,respectively.It is found that increasing FSP passes improved the uniform distribution of n HA particles within the composite matrix which led to improved corrosion resistance and less degradation rate.The corrosion rate of the FSPed WE43/n HA composite after three passes was reduced by 38.2%(4.13 mm/year)and the degradation rate was reduced by 69.7%(2.87 mm/y).This is attributed to secondary phase(Mg24Y5and Mg41Nd5)particle fragmentation and redistribution,as well as a homogeneous distribution of n HA.Additionally,the growing Ca-P and Mg(OH)2layer formed on the surface represented a protective layer that reduced the degradation rate.The wettability test revealed a relatively hydrophilic surface with water contact angle of 49.1±2.2°compared to 71.2±2.1°for base metal.Also,biomineralization test showed that apatite layer grew after immersion 7d in simulated body fluid with atomic ratio of Ca/P 1.60 approaching the stoichiometric ratio(1.67)indicating superior bioactivity of FSPed WE43/n HA composite after three passes.These results raise that the grain refinement by FSP and introduction of n HA particles significantly improved the degradation rate and in-vitro bioactivity of WE43 alloy for biomedical applications. 展开更多
关键词 Friction stir processing Magnesium-based composite nano-hydroxyapatite Corrosion behavior In-vitro bioactivity
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Preparation and characterization of chitosan/nano-hydroxyapatite composite used as bone substitute materials 被引量:1
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作者 张利 Li Yubao  Zhou Gang  Wu Lan  Mu Yuanhua  Yang Zheng 《High Technology Letters》 EI CAS 2007年第1期31-35,共5页
Chitosan/nano-hydroxyapatite composites with different weight ratios were prepared through a co-precipitation method using Ca(OH)2, H3PO4 and chitosan as starting materials. The properties of these composites were c... Chitosan/nano-hydroxyapatite composites with different weight ratios were prepared through a co-precipitation method using Ca(OH)2, H3PO4 and chitosan as starting materials. The properties of these composites were characterized by means of TEM, IR, XRD, TGA, burn-out tests and universal matertial testing machine. The results showed that the HA synthesized here was poorly crystalline carbonated nanometer crystals and dispersed uniformly in chitosan phase and there was no phase-separation between the two phases. The addition of n-HA resulted in a decrease of decomposing temperature of chitosan. Because of the interactions between chitosan and n-HA, the mechanical properties of these composites were improved, and the maximum value of the compressive strength was measured to be about 120MPa corresponding to the chitosan/n-HA composite with a weight ratio of 30/70. 展开更多
关键词 CHITOSAN nano-hydroxyapatite COMPOSITE CO-PRECIPITATION
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Melt-Spinning of Nano-Hydroxyapatite/Poly(ε-caprolactone)Composite Fibers for Potential Application in Bone Tissue Engineering
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作者 陈培峰 王富军 +2 位作者 王璐 丁雯 赵健安 《Journal of Donghua University(English Edition)》 EI CAS 2017年第6期726-729,共4页
Nano-hydroxyapatite/poly(e-caprolactone) (nHA/PCL) composite materials are among the best candidates for application in bone tissue engineering. As the main technique to fabricate porous scaffolds, electrospilming... Nano-hydroxyapatite/poly(e-caprolactone) (nHA/PCL) composite materials are among the best candidates for application in bone tissue engineering. As the main technique to fabricate porous scaffolds, electrospilming produce scaffolds with unsatisfactory mechanical strength and limited pore size for cdi infiltration. Micron-sized fiber assembly with higher mechanical strength is qualified to structure hybrid scaffolds. In this study, nHA/PCL monofilament fibers with different mass ratios were fabricated through melt-spinning. Transmission electron microscope (TEM) was used to observe the aggregation between nHA parfides. Other characterizations including scanning electron microscopy (SEM), attenuated total reflection Fourier transform infrared spectroscopy (ATR.FTIR) and X-ray diffraction (XRD) were done to discuss the morphology, components and crystallization of the nHA/PCL composite fibers, respectively. The influence of nHA/PCL mass ratio on the tensile properties and water contact angle of composite fibers was also studied. The SEM images show the homogeneous dispersion of nano partides in the polymer matrix. Besides, nHA content increases the tensile strength, initial modulus and hydrophillcity of the composite fibers under the premise of spinnability. This kind of fibers is strong enough to fabricate fiber assembly which may have potential application in bone tissue engineering. 展开更多
关键词 nano-hydroxyapatite nHA poly 6-caprolactone PCL melt sDinninf tensile vroverties
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Improving chitosan-based composite membrane by introducing a novel hybrid functional nano-hydroxyapatite with carboxymethyl cellulose and phytic acid
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作者 Liuyun Jiang Yingjun Ma +5 位作者 Shuo Tang Yuqing Wang Yan Zhang Shengpei Su Xiang Hu Jun He 《Frontiers of Chemical Science and Engineering》 SCIE EI CSCD 2024年第6期1-15,共15页
A functional hybrid nano-hydroxyapatite(carboxymethyl cellulose-phytic acid-n-HA,CMC-PA-n-HA)was prepared by adding CMC and PA.The results of Fourier transformation infrared spectra,X-ray diffraction,thermal gravimetr... A functional hybrid nano-hydroxyapatite(carboxymethyl cellulose-phytic acid-n-HA,CMC-PA-n-HA)was prepared by adding CMC and PA.The results of Fourier transformation infrared spectra,X-ray diffraction,thermal gravimetric analysis and dispersion experiments indicated that the addition of CMC and PA affected the morphology,crystallinity and crystal size of hybrid n-HA,and CMC endowed hybrid n-HA with excellent dispersion.Scanning electron microscope results showed that CMC-PA-n-HA nanoparticle could be uniformly dispersed in chitosan(CS)matrix to obtain composite membrane by casting technology,so that the highest tensile strength of CMC-PA-n-HA/CS composite membrane was 69.64%and 144.45%higher than that of CS membrane and n-HA/CS composite membrane,respectively.Contact angle test showed that CMC-PA-n-HA effectively improved hydrophilicity of the CS membrane.The simulated body fluid immersion results indicated that the CMC-PA-n-HA/CS composite membrane not only exhibited good degradability but also promoted bone-like apatite deposition.The cell proliferation experiments proved that the introduction of PA made the composite membrane have better cell adhesion and proliferation ability.Antibacterial tests demonstrated that PA could effectively improve the antibacterial properties of the composite membrane,which is expected to be applied as guide bone tissue regeneration membrane. 展开更多
关键词 nano-hydroxyapatite CHITOSAN DISPERSION guide bone tissue regeneration membrane
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In situ growth of nano-hydroxyapatite on multilayered Ti_(3)C_(2)T_(x) MXene as a drug carrier with superior-performance
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作者 Xiaowei Liu Ruixue Sun +1 位作者 Zeao Zhou Yuanzheng Tang 《Journal of Materials Science & Technology》 SCIE EI CAS CSCD 2024年第13期91-101,共11页
Bone defects caused by tumor resection typically require bone repair materials to fill the defect sites.The development of multifunctional bone filling materials with integrated chemotherapy,photohermal therapy,and gu... Bone defects caused by tumor resection typically require bone repair materials to fill the defect sites.The development of multifunctional bone filling materials with integrated chemotherapy,photohermal therapy,and guided bone regeneration is very necessary and urgently needed.Herein,for the first time,the construction of novel multilayered Ti_(3)C_(2)T_(x) MXene(m-MXene)/nano-hydroxyaptite(nHAp)composites(m-MXene/nHAp)for bone repair is reported.The in situ growth of nHAp on multilayered Ti_(3)C_(2)T_(x) MXene is achieved through a facile hydrothermal method without using any organic additives.Due to the syner-gistic effects of nHAp and m-MXene,the m-MXene/nHAp composites show superior drug carrier perfor-mance with ultra-high drug loading capacity and ultra-long drug sustained release time.The molecular dynamics simulation results indicate that both Ti_(3)C_(2)T_(x) MXene and HAp show many adsorption sites and high binding energy with DOX.Moreover,the m-MXene/nHAp composites possess high photothermal conversion efficiency and excellent photothermal stability.The in situ growth of nano-HAp can signifi-cantly improve the biocompatibility of the m-MXene.The as-prepared multifunctional m-MXene/nHAp composites in this work can be used as bone filling powder and have great potential in bone defect reconstruction caused by bone tumor. 展开更多
关键词 Multilayered Ti_(3)C_(2)T_(x)MXene nano-hydroxyapatite In situ growth Drug carrier Photothermal property
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Nano-hydroxyapatite accelerates vascular calcification via lysosome impairment and autophagy dysfunction in smooth muscle cells 被引量:8
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作者 Qi Liu Yi Luo +7 位作者 Yun Zhao Pingping Xiang Jinyun Zhu Wangwei Jing Wenjing Jin Mingyao Chen Ruikang Tang Hong Yu 《Bioactive Materials》 SCIE 2022年第2期478-493,共16页
Vascular calcification(VC)is a common characteristic of aging,diabetes,chronic renal failure,and atherosclerosis.The basic component of VC is hydroxyapatite(HAp).Nano-sized HAp(nHAp)has been identified to play an esse... Vascular calcification(VC)is a common characteristic of aging,diabetes,chronic renal failure,and atherosclerosis.The basic component of VC is hydroxyapatite(HAp).Nano-sized HAp(nHAp)has been identified to play an essential role in the development of pathological calcification of vasculature.However,whether nHAp can induce calcification in vivo and the mechanism of nHAp in the progression of VC remains unclear.We discovered that nHAp existed both in vascular smooth muscle cells(VSMCs)and their extracellular matrix(ECM)in the calcified arteries from patients.Synthetic nHAp had similar morphological and chemical properties as natural nHAp recovered from calcified artery.nHAp stimulated osteogenic differentiation and accelerated mineralization of VSMCs in vitro.Synthetic nHAp could also directly induce VC in vivo.Mechanistically,nHAp was internalized into lysosome,which impaired lysosome vacuolar H+-ATPase for its acidification,therefore blocked autophagic flux in VSMCs.Lysosomal re-acidification by cyclic-3′,5′-adenosine monophosphate(cAMP)significantly enhanced autophagic degradation and attenuated nHAp-induced calcification.The accumulated autophagosomes and autolysosomes were converted into calcium-containing exosomes which were secreted into ECM and accelerated vascular calcium deposit.Inhibition of exosome release in VSMCs decreased calcium deposition.Altogether,our results demonstrated a repressive effect of nHAp on lysosomal acidification,which inhibited autophagic degradation and promoted a conversion of the accumulated autophagic vacuoles into exosomes that were loaded with undissolved nHAp,Ca^(2+),Pi and ALP.These exosomes bud off the plasma membrane,deposit within ECM,and form calcium nodules.Vascular calcification was thus accelerated by nHAP through blockage of autophagic flux in VSMCs. 展开更多
关键词 nano-hydroxyapatite Vascular calcification AUTOPHAGY LYSOSOME EXOSOME
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Biocompatibility of nano-hydroxyapatite/Mg-Zn-Ca alloy composite scaffolds to human umbilical cord mesenchymal stem cells from Wharton's jelly in vitro 被引量:4
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作者 GUAN FangXia MA ShanShan +8 位作者 SHI XinYi MA Xun CHI LianKai LIANG Shuo CUI YuanBo WANG ZhiBin YAO Ning GUAN ShaoKang YANG Bo 《Science China(Life Sciences)》 SCIE CAS 2014年第2期181-187,共7页
Seeding cells and scaffolds play pivotal roles in bone tissue engineering and regenerative medicine.Wharton’s jelly-derived mesenchymal stem cells(WJCs)from human umbilical cord represent attractive and promising see... Seeding cells and scaffolds play pivotal roles in bone tissue engineering and regenerative medicine.Wharton’s jelly-derived mesenchymal stem cells(WJCs)from human umbilical cord represent attractive and promising seeding cells in tissue regeneration and engineering for treatment applications.This study was carried out to explore the biocompatibility of scaffolds to seeding cells in vitro.Rod-like nano-hydroxyapatite(RN-HA)and flake-like micro-hydroxyapatite(FM-HA)coatings were prepared on Mg-Zn-Ca alloy substrates using micro-arc oxidation and electrochemical deposition.WJCs were utilized to investigate the cellular biocompatibility of Mg-Zn-Ca alloys after different surface modifications by observing the cell adhesion,morphology,proliferation,and osteoblastic differentiation.The in vitro results indicated that the RN-HA coating group was more suitable for cell proliferation and cell osteoblastic differentiation than the FM-HA group,demonstrating better biocompatibility.Our results suggested that the RN-HA coating on Mg-Zn-Ca alloy substrates might be of great potential in bone tissue engineering. 展开更多
关键词 nano-hydroxyapatite Mg-Zn-Ca alloy mesenchymal stem cells Wharton's jelly BIOCOMPATIBILITY
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Comparative evaluation of the physicochemical properties of nano-hydroxyapatite/collagen and natural bone ceramic/collagen scaffolds and their osteogenesis-promoting effect on MC3T3-E1 cells 被引量:6
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作者 Xiongxin Lei Jianping Gao +3 位作者 Fangyu Xing Yang Zhang Ye Ma Guifeng Zhang 《Regenerative Biomaterials》 SCIE 2019年第6期361-371,共11页
The use of various types of calcium phosphate has been reported in the preparation of repairing materials for bone defects.However,the physicochemical and biological properties among them might be vastly different.In ... The use of various types of calcium phosphate has been reported in the preparation of repairing materials for bone defects.However,the physicochemical and biological properties among them might be vastly different.In this study,we prepared two types of calcium phosphates,nano-hydroxyapatite(nHA)and natural bone ceramic(NBC),into 3D scaffolds by mixing with type I collagen(CoL),resulting in the nHA/CoL and NBC/CoL scaffolds.We then evaluated and compared the physicochemical and biological properties of these two calcium phosphates and their composite scaffold with CoL.Scanning electron microscopy(SEM),X-ray photoelectron spectroscopy(XPS),Fourier-transform infrared spectroscopy(FTIR),X-ray diffraction spectroscopy(XRD)and compressive tests were used to,respectively,characterize the morphology,composition,distribution and the effect of nHA and NBC to collagen.Next,we examined the biological properties of the scaffolds using cytotoxicity testing,flow cytometry,immunofluorescence staining,biocompatibility testing,CCK-8 assays and RT-PCR.The results reflected that the Ca2t released from nHA and NBC could bind chemically with collagen and affect its physicochemical properties,including the infrared absorption spectrum and compression modulus,among others.Furthermore,the two kinds of scaffolds could promote the expression of osteo-relative genes,but showed different gene induction properties.In short,NBC/CoL could promote the expression of early osteogenic genes,while nHA/CoL could upregulate late osteogenic genes.Conclusively,these two composite scaffolds could provide MC3T3-E1 cells with a biomimetic surface for adhesion,proliferation and the formation of mineralized extracellular matrices.Moreover,nHA/CoL and NBC/CoL had different effects on the period and extent ofMC3T3-E1 cell mineralization. 展开更多
关键词 nano-hydroxyapatite natural bone ceramic collagen scaffold MC3T3-E1 OSTEOBLASTS
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Preparation and evaluation of nano-hydroxyapatite/poly(styrene-divinylbenzene) porous microsphere for aspirin carrier 被引量:1
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作者 LI Sen WANG Kuan +6 位作者 CHANG Kue-Chieh Alan ZONG Ming WANG Jing CAO YongGang BAI YuHua WEI TaiMing ZHANG ZhiRen 《Science China Chemistry》 SCIE EI CAS 2012年第6期1134-1139,共6页
A novel vehicle for the delivery of aspirin (ASA) was prepared from porous nano-hydroxyapafite/poly(styrene-divinylbenzene) [nano-HAP/P(St-DVB)] composite microspheres by grafting nano-HAP [Ca10(PO4)6(OH)2] ... A novel vehicle for the delivery of aspirin (ASA) was prepared from porous nano-hydroxyapafite/poly(styrene-divinylbenzene) [nano-HAP/P(St-DVB)] composite microspheres by grafting nano-HAP [Ca10(PO4)6(OH)2] onto porous P(St-DVB) micro- spheres. Four types of porous composite microspheres were prepared, each with different nano-HAP contents. The ASA-loaded composite microspheres prepared with 10% and 15% nano-HAP (mass ratio) exhibited excellent buoyancy with relatively short instantaneous floating time (within l0 min) and a long sustained floating time (12 h) in simulated gastric juice. They also offered good sustained release of ASA (up to 8 h). Furthermore, these composite microspheres displayed good buff- ering capacity that prevented the buildup of acidity caused by hydrolysis of ASA, keeping the pH of gastric juice within the normal range (pH 0.9 to 1.5). The results showed that porous nano-HAP/P(St-DVB) composite microspheres prepared with 10% and 15% nano-HAP could be used as a novel drug carrier for ASA, providing a sustained release dose without leading to stomach irritation, a side effect that is often associated with ASA medication. 展开更多
关键词 POROUS nano-hydroxyapatite MICROSPHERE CARRIER ASPIRIN
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Effect of Antibacterial Enoxacin on the Properties of Injectable Nano-hydroxyapatite/Polyurethane Cement for Bone Repairing 被引量:1
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作者 Jinzheng Zhang Xiaoyu Lei +6 位作者 Jiajing Tang Jie Chen Qing Zhao Wei Fang Yinglong Zhang Yubao Li Yi Zuo 《Journal of Bionic Engineering》 SCIE EI CSCD 2022年第2期483-496,共14页
Biomaterial-associated infection(BAI)is a kind of serious post-operative complication in orthopaedic surgery.Antibiotic-loaded bone cement shines a light on BAI prevention for convenient manipulation and complex filli... Biomaterial-associated infection(BAI)is a kind of serious post-operative complication in orthopaedic surgery.Antibiotic-loaded bone cement shines a light on BAI prevention for convenient manipulation and complex filling.To this aim,we designed an antibacterial bone cement based on Nano-hydroxyapatite/Polyurethane(PUHA)loading with antibiotic Enoxacin(EN).The distinct shear-thinning behavior of the prepolymers was observed,indicating a good injectability.The PUHA bone cement possessed a suitable curing speed,and the addition of EN might slightly expedite the curing process and enhance the mechanical properties.The EN release profile indicated that the EN-loaded bone cement could reach the minimum inhibitory concentration in 2 h,and sustainedly released EN for almost 8 days,exhibiting an antibacterial delivery potential.Antibacterial test further confirmed the antibacterial ability of EN-loaded bone cement is in a dose-dependent manner.However,the osteogenic performance of drug-loaded bone cement with high dosage is not as good as antibacterial activity.When the EN concentration of antibacterial cement was lower than 32μg·mL^(-1),the proliferation and osteogenic differentiation of rat mesenchymal stem cells could be significantly promoted.Overall,this study verified the potential of the EN-loaded PUHA bone cement in anti-infection and osteogenesis for bone repairing. 展开更多
关键词 Antibacterial bone cement nano-hydroxyapatite/polyurethane Enoxacin Shear-thinning behavior OSTEOGENESIS
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Nano-hydroxyapatite(n-HA)involved in the regeneration of rat nerve injury triggered by overloading stretch 被引量:2
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作者 Meili Liu Chongquan Huang +4 位作者 Zhijun Zhao Anqing Wang Ping Li Yubo Fan Gang Zhou 《Medicine in Novel Technology and Devices》 2019年第4期24-30,共7页
Damage of axon and glial scars formation both inhibit nerve regenerative growth during nerve injury.In addition,mechanical stretch at high displacement rates of 10%tensile strain can cause marked nerve injury,it is im... Damage of axon and glial scars formation both inhibit nerve regenerative growth during nerve injury.In addition,mechanical stretch at high displacement rates of 10%tensile strain can cause marked nerve injury,it is important for finding a proper nano biomaterial to repair nerve injury.Nano-hydroxyapatite(n-HA)has excellent biocompatibility and high bioactivity,which is a good candidate for biomedical engineering applications.But the certain mechanism of n-HA on the injured nerve is seldom reported.In this study,we determined the role of n-HA on the mechanical stretch-induced nerve injury at adult rat spine.Mechanical stretch under strain 10%at displacement rates of 60 mm/min can cause marked broken vessels and edema in spinal cord and dorsal root ganglion tissue in haematoxylin-eosin(HE)staining.However,n-HA application can reverse hemorrhage and edema triggered by high rates of 60 mm/min stretch.Moreover,n-HA can promote positive staining of Netrin-1 increase significantly in spinal cord and dorsal root ganglion tested by immunohistochemistry(IHC)staining.In general,our study indicated that n-HA can repair mechanical stretch-induced nerve injury,it may provide a new approach to block injury and accelerate nerve regeneration in future. 展开更多
关键词 nano-hydroxyapatite(n-HA) Mechanical stretch Nerve injury NETRIN-1 Nerve regeneration
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Blood Compatibility of Nano-Hydroxyapatite Dispersed Using Various Agents
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作者 YANG Lijian1, JIN Huafang2, YUAN Lin2 1. Hospital, Wuhan University of Technology, Wuhan 430070, Hubei, China 2. Biology Center,Wuhan University of Technology, Wuhan 430070, Hubei, China 《Wuhan University Journal of Natural Sciences》 CAS 2010年第4期350-354,共5页
Nano-hydroxyapatite (nHAP),dispersed with three kinds of dispersants (heparin sodium,polyacrylic sodium and wa-ter),reacted with red blood cell,Bel-7402 tumor cell,to compare their dispersing efficiency against nHAP f... Nano-hydroxyapatite (nHAP),dispersed with three kinds of dispersants (heparin sodium,polyacrylic sodium and wa-ter),reacted with red blood cell,Bel-7402 tumor cell,to compare their dispersing efficiency against nHAP from one another. The blood compatibility of nHAP is also determined by blood solubil-ity experiment so that the capability of different dispersant dis-persing against nHAP of different concentration and the relation between nHAP and blood compatibility have been determined. The inhibiting function of Bel-7402 against tumor cells is deter-mined with the MTT staining method. The study result shows that heparin sodium has the best dispersing efficiency for nHAP with-out the phenomenon of hemolysis. 展开更多
关键词 nano-hydroxyapatite heparin sodium polyacrylic sodium blood compatibility
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Advancements of Nano-Hydroxyapatite in Sports Medicine from Bone Injury Perspectives
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作者 XIONG Youming SONG Tianbao +6 位作者 WEI Zimeng CHEN Bei HONG Zixi ZHANG Chengjie JAMAL Muhammad ZHANG Qiuping QIN Caiqin 《Wuhan University Journal of Natural Sciences》 CAS CSCD 2021年第3期269-277,共9页
Nanotechnology has revolutionized the field of biology and medicine in the 21 st century.Bone injury incidences during sports activities are common,and they are traditionally treated with allogeneic grafting,a common ... Nanotechnology has revolutionized the field of biology and medicine in the 21 st century.Bone injury incidences during sports activities are common,and they are traditionally treated with allogeneic grafting,a common clinical practice but limited by the quality of the graft and some side effects.Nano-hydroxyapatite(nHA)is considered as an ideal bone graft material owing to its bone-like structure,excellent biological activity,bone conductivity,non-toxicity,and non-immunogenicity.nHA and its composite materials have been found suitable for the adhesion,proliferation,and differentiation of mesenchymal stem cells,which leads to their potential applications in treating the bone injury.In this review,we classified different applications of nHA to explore the role of these materials in bone repair and tendon healing,highlighting the superior characteristics of nanomaterials in the treatment of bone injury,hoping to provide ideas for nHA applied to clinical practices for the treatment of bone injury. 展开更多
关键词 nano-hydroxyapatite bone injury treatment sports medicine
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Extraction of Natural Nanostructured Hydroxyapatite from Pacific Cod(Gadus macrocephalus)Bone with a Thermostable Collagenolytic Protease and Its ex vivo Intestinal Bioavailability
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作者 GUO Wei LI Shiyang +1 位作者 JING Zhehua WU Haohao 《Journal of Ocean University of China》 SCIE CAS CSCD 2023年第6期1613-1620,共8页
Natural nano-hydroxyapatite(HA)was extracted from Pacific cod(Gadus macrocephalus)bone with a thermostable col-lagenolytic protease in the present study.Conditions for the enzymatic reaction were optimized to be 60℃a... Natural nano-hydroxyapatite(HA)was extracted from Pacific cod(Gadus macrocephalus)bone with a thermostable col-lagenolytic protease in the present study.Conditions for the enzymatic reaction were optimized to be 60℃and pH 7.0,and a desir-able extraction efficiency was achieved by using the crude collagenolytic protease.Dynamic light scattering,transmission electron microscopy and energy-dispersive X-ray analysis revealed that nano-HA are anionic spherical(about 110nm)particles mainly com-prised of calcium and phosphorus at an approximate ratio of 5:3.As evaluated with the mouse ex vivo intestinal segments,the extracted nano-HA displayed comparable level of intestinal bioavailability to the positive control CaCl_(2).By treating with inhibitors(NaN3,ami-loride)and low temperature(4℃),clathrin-mediated endocytosis was assumed to involve the intestinal absorption of nano-HA.Over-all,the application of thermostable collagenolytic protease is proved to be a promising alternative method for nano-HA extraction from natural resource with improved ecological and biological value. 展开更多
关键词 nano-hydroxyapatite thermostable collagenolytic protease Pacific cod(Gadus macrocephalus)bone intestinal bio-availability
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A Novel Open C-shaped Molar Band for Orthodontic Applications: Mechanical Characterizations and Clinical Trials
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作者 周珊 GUO Yang +3 位作者 WANG Peijun FU Wei XU Shiqian 张斌 《Journal of Wuhan University of Technology(Materials Science)》 SCIE EI CAS 2016年第5期1174-1180,共7页
To evaluate the retention properties of the novel ‘C'-shaped molar bands at a laboratory level. Resin-modified glass ionomer cement(RMGIC) was used as a luting agent for the novel C-shaped molar band. The mechanic... To evaluate the retention properties of the novel ‘C'-shaped molar bands at a laboratory level. Resin-modified glass ionomer cement(RMGIC) was used as a luting agent for the novel C-shaped molar band. The mechanical properties of the band were examined and the retention performance was characterized in the mesial, distal and vertical directions. A clinical trial was conducted using a spilt-mouth design on 50 patients. The novel C-shaped molar bands fit most molars without a repeated try-in process.The use of both nanoHA coating and RMGIC enhanced the tensile(8.00 ± 1.8 MPa) and shear strengths(27.17 ± 8.6 MPa) of the molar bands, leading to high retention in vertical, mesial and distal directions( p 〈 0.001). In clinical trials, the C-shaped molar bands had a failure rate(15%) comparable to that of traditional bands, and 93% of the failed bands demonstrated an adhesive remnant index score of 0, corroborating the observation that no luting agent residue remained on the tooth surface in most cases. The novel C-shaped molar bands appear to be a promising appliance that requires further clinical investigations, and may be used effectively in orthodontics. 展开更多
关键词 Copen 'C'-shaped molar bands nano-hydroxyapatite resin-modified glass ionomer cement retention performance clinical trials
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A Brief Review on Hydroxyapatite Nanoparticles Interactions with Biological Constituents
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作者 Flávia Carolina Lima Torres Edésia Martins Barros De Sousa Marcelo Fernandes Cipreste 《Journal of Biomaterials and Nanobiotechnology》 2022年第1期24-44,共21页
With the pursuit of new cancer therapies and more effective treatment to diseases in the last decades, nanotechnology has been an important ally for healthcare professionals and patients in critical clinical condition... With the pursuit of new cancer therapies and more effective treatment to diseases in the last decades, nanotechnology has been an important ally for healthcare professionals and patients in critical clinical conditions. Nanomaterials offer an alternative way to deliver toxic chemotherapeutic drugs to specific biological tissues, specific cells or specific microbial beings, resulting in avoidance of strong side effects or resilience to effective drugs. Among these materials, stands out the hydroxyapatite nanoparticles, a ceramic class of calcium phosphates that present chemical and structural similarities with the mineral phase of the human skeleton’s bone matrix, resulting in important biological features, such as biocompatibility, osteoconductive, osteoinduction and osteoaffinity, which led to a lot of scientific researches to apply these nanoparticles for bone diseases diagnosis and therapeutics. Due to the hydroxyapatite biological activities and due to the possibility to promote chemical and physical modifications in these nanoparticles, they can interact with biological cells or microorganisms in different ways, resulting in multiple potentialities to be explored such as apoptosis induction to cancerous cells, osteogenesis promotion, cellular proliferation, angiogenesis and tissue recovery, in addition to promote cell adhesion and cell uptake. Furthermore, chemical and physical modifications, such as surface functionalization, dopant inclusions and radiolabeling process, allow scientists to track the particle activities in biological environments. In the last decades of scientific productions, the literature brings together important data on how hydroxyapatite nanoparticles interact with biological tissues and such data are crucial for the development of more effective therapeutic and diagnostic agents. In the present review, we intend to compile scholarly information to explore the biological relations of nanosized hydroxyapatite with the human cellular environment and the feasible modifications that may improve the theragnostic efficacy of these molecules. 展开更多
关键词 BIOMATERIALS nano-hydroxyapatite Cell Interactions Chemical Modifications Tissue Engineering THERANOSTICS
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Comparison of bone regeneration in alveolar bone of dogs on mineralized collagen grafts with two composition ratios of nanohydroxyapatite and collagen 被引量:5
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作者 Yan-FuWang Cheng-Yue Wang +2 位作者 PengWan Shao-GangWang Xiu-Mei Wang 《Regenerative Biomaterials》 SCIE 2016年第1期33-40,共8页
To study the effect of two composition ratios of nano-hydroxyapatite and collagen(NHAC)composites on repairing alveolar bone defect of dogs.Eighteen healthy adult dogs were randomly divided into three groups.Two kinds... To study the effect of two composition ratios of nano-hydroxyapatite and collagen(NHAC)composites on repairing alveolar bone defect of dogs.Eighteen healthy adult dogs were randomly divided into three groups.Two kinds of the NHAC composites were prepared according to the constituent ratios of 3:7 and 5:5;immediately after extraction of the mandibular second premolars,each kind of the NHAC composite was implanted into extraction socket,respectively:Group I,nHA/Col紏3:7;Group II,nHA/Col紏5:5 and Group III,blank control group.The bone-repairing ability of the two grafts was separately analyzed by morphometric measurement,X-ray tomography examination and biomechanical analysis at 1st,3rd and 6th month post-surgical,respectively.The NHAC composites were absorbed gradually after implanting into alveolar bone defect and were replaced by new bone.The ratios of new bone formation of Group I was significantly higher than that of Group II after 3 months(P<0.05).The structure and bioactive performance can be improved when the ratio between the collagen and the hydroxyapatite was reasonable,and the repairing ability and effect in extraction sockets are obviously better. 展开更多
关键词 nano-hydroxyapatite COLLAGEN dental extraction socket alveolar ridge preservation ratios
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Cytocompatible 3D chitosan/hydroxyapatite composites endowed with antibacterial properties:toward a self-sterilized bone tissue engineering scaffold 被引量:2
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作者 Yongjun Qiao Zhongjun Zhai +1 位作者 Limei Chen Hong Liu 《Science Bulletin》 SCIE EI CAS CSCD 2015年第13期1193-1202,共10页
Bone tissue scaffolds based on bioactive polymer–hydroxyapatite composites have caused infections that seriously limit their extended application. In this study, we proposed a practical ion substitution method to syn... Bone tissue scaffolds based on bioactive polymer–hydroxyapatite composites have caused infections that seriously limit their extended application. In this study, we proposed a practical ion substitution method to synthesize in situ silver phosphate on the surface of a two-level, threedimensional chitosan/nano-hydroxyapatite scaffold. A release test of silver ions in a phosphate buffered saline(PBS) solution was performed to demonstrate that silver ions were released continuously from the silver phosphate during the initial 6 days of the study. The antibacterial property and cytocompatibility of the scaffolds treated with different concentrations of silver nitrate solution were assessed by in vitro assays with Escherichia coli and MC3T3-E1, respectively. The ability of the silver-containing scaffolds to induce bacteriostasis was confirmed by the inhibition zone(15 mm) and high bactericidal rate([99 %). Cell proliferation, morphology and the alkaline phosphatase activity of MC3T3-E1 cultured on the scaffold with low silver phosphate contents were comparable with those cultured on control samples. 展开更多
关键词 Silver phosphate . Ion substitution .Chitosan/nano-hydroxyapatite bone scaffold .Bacteriostasis
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Flexible organic-inorganic hybrid bioceramic for bone tissue regeneration
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作者 Jing Chen Xingmei Zhang +1 位作者 Beibei Li Yawei Yang 《Journal of Advanced Dielectrics》 CAS 2020年第4期31-37,共7页
Development of novel biomaterials for bone regeneration is based on the sufficient bone-bonding ability,bioactivity and biocompatibility.In this study,novel flexible poly(butylene succinate)/polydimethysiloxane-modifi... Development of novel biomaterials for bone regeneration is based on the sufficient bone-bonding ability,bioactivity and biocompatibility.In this study,novel flexible poly(butylene succinate)/polydimethysiloxane-modified bioactive glass/nano-hydroxyapatite(PBSu/PDMS-BG/nHA)hybrid bioceramic with various nHA concentration on the in vitro bone-like hydroxyapatite(HA)formation,biomineralization activity and osteoblast cell biocompatibility were investigated.The rapid precipitation of HA on the hybrid bioceramic surfaces was found after being immersed in simulated body fluid(SBF)for seven days.Results show that the amount of HA deposition increased with the increase of nHA concentration.The optimized PBSu/PDMS-BG/nHA hybrid bioceramic exhibited good flexibility,high biomineralization activity and good osteoblast cell biocompatibility. 展开更多
关键词 Sol-gel process nano-hydroxyapatite hybrid bioceramic biomineralization activity cell biocompatibility
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