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Biomimetic natural biomaterials for tissue engineering and regenerative medicine:new biosynthesis methods,recent advances,and emerging applications 被引量:5
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作者 Shuai Liu Jiang-Ming Yu +11 位作者 Yan-Chang Gan Xiao-Zhong Qiu Zhe-Chen Gao Huan Wang Shi-Xuan Chen Yuan Xiong Guo-Hui Liu Si-En Lin Alec McCarthy Johnson V.John Dai-Xu Wei Hong-Hao Hou 《Military Medical Research》 SCIE CAS CSCD 2024年第1期50-79,共30页
Biomimetic materials have emerged as attractive and competitive alternatives for tissue engineering(TE)and regenerative medicine.In contrast to conventional biomaterials or synthetic materials,biomimetic scaffolds bas... Biomimetic materials have emerged as attractive and competitive alternatives for tissue engineering(TE)and regenerative medicine.In contrast to conventional biomaterials or synthetic materials,biomimetic scaffolds based on natural biomaterial can offer cells a broad spectrum of biochemical and biophysical cues that mimic the in vivo extracellular matrix(ECM).Additionally,such materials have mechanical adaptability,micro-structure interconnectivity,and inherent bioactivity,making them ideal for the design of living implants for specific applications in TE and regenerative medicine.This paper provides an overview for recent progress of biomimetic natural biomaterials(BNBMs),including advances in their preparation,functionality,potential applications and future challenges.We highlight recent advances in the fabrication of BNBMs and outline general strategies for functionalizing and tailoring the BNBMs with various biological and physicochemical characteristics of native ECM.Moreover,we offer an overview of recent key advances in the functionalization and applications of versatile BNBMs for TE applications.Finally,we conclude by offering our perspective on open challenges and future developments in this rapidly-evolving field. 展开更多
关键词 Biomimic SCAFFOLD BIOSYNTHESIS Natural biomaterial tissue engineering
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Visceral adipose tissue predicts severity and prognosis of acute pancreatitis in obese patients 被引量:3
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作者 Yuan Tian Qing Huang +2 位作者 Yu-Tang Ren Xuan Jiang Bo Jiang 《Hepatobiliary & Pancreatic Diseases International》 SCIE CAS CSCD 2024年第5期458-462,共5页
Acute pancreatitis is a common systemic inflammatory disease, manifested by a spectrum of severity, ranging from mild in the majority of patients to severe acute pancreatitis. Patients with severe acute pancreatitis s... Acute pancreatitis is a common systemic inflammatory disease, manifested by a spectrum of severity, ranging from mild in the majority of patients to severe acute pancreatitis. Patients with severe acute pancreatitis suffer from severe local and systemic complications and organ failure, leading to a poor prognosis. The early recognition of the severe condition is important to improve prognosis. Obesity has risen in tandem with an increase in the severity of acute pancreatitis in recent years. Studies have revealed that adipose tissue, particularly visceral adipose tissue is associated with the prognosis of acute pancreatitis. This review discussed the role of visceral adipose tissue in obese patients with acute pancreatitis and explored the possible mechanism involved. 展开更多
关键词 Visceral adipose tissue OBESITY Acute pancreatitis
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Biomaterials and tissue engineering in traumatic brain injury:novel perspectives on promoting neural regeneration 被引量:2
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作者 Shihong Zhu Xiaoyin Liu +7 位作者 Xiyue Lu Qiang Liao Huiyang Luo Yuan Tian Xu Cheng Yaxin Jiang Guangdi Liu Jing Chen 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第10期2157-2174,共18页
Traumatic brain injury is a serious medical condition that can be attributed to falls, motor vehicle accidents, sports injuries and acts of violence, causing a series of neural injuries and neuropsychiatric symptoms. ... Traumatic brain injury is a serious medical condition that can be attributed to falls, motor vehicle accidents, sports injuries and acts of violence, causing a series of neural injuries and neuropsychiatric symptoms. However, limited accessibility to the injury sites, complicated histological and anatomical structure, intricate cellular and extracellular milieu, lack of regenerative capacity in the native cells, vast variety of damage routes, and the insufficient time available for treatment have restricted the widespread application of several therapeutic methods in cases of central nervous system injury. Tissue engineering and regenerative medicine have emerged as innovative approaches in the field of nerve regeneration. By combining biomaterials, stem cells, and growth factors, these approaches have provided a platform for developing effective treatments for neural injuries, which can offer the potential to restore neural function, improve patient outcomes, and reduce the need for drugs and invasive surgical procedures. Biomaterials have shown advantages in promoting neural development, inhibiting glial scar formation, and providing a suitable biomimetic neural microenvironment, which makes their application promising in the field of neural regeneration. For instance, bioactive scaffolds loaded with stem cells can provide a biocompatible and biodegradable milieu. Furthermore, stem cells-derived exosomes combine the advantages of stem cells, avoid the risk of immune rejection, cooperate with biomaterials to enhance their biological functions, and exert stable functions, thereby inducing angiogenesis and neural regeneration in patients with traumatic brain injury and promoting the recovery of brain function. Unfortunately, biomaterials have shown positive effects in the laboratory, but when similar materials are used in clinical studies of human central nervous system regeneration, their efficacy is unsatisfactory. Here, we review the characteristics and properties of various bioactive materials, followed by the introduction of applications based on biochemistry and cell molecules, and discuss the emerging role of biomaterials in promoting neural regeneration. Further, we summarize the adaptive biomaterials infused with exosomes produced from stem cells and stem cells themselves for the treatment of traumatic brain injury. Finally, we present the main limitations of biomaterials for the treatment of traumatic brain injury and offer insights into their future potential. 展开更多
关键词 bioactive materials BIOMATERIALS EXOSOMES neural regeneration scaffolds stem cells tissue engineering traumatic brain injury
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Process,Material,and Regulatory Considerations for 3D Printed Medical Devices and Tissue Constructs 被引量:1
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作者 Wei Long Ng Jia An Chee Kai Chua 《Engineering》 SCIE EI CAS CSCD 2024年第5期146-166,共21页
Three-dimensional(3D)printing is a highly automated platform that facilitates material deposition in a layer-by-layer approach to fabricate pre-defined 3D complex structures on demand.It is a highly promising techniqu... Three-dimensional(3D)printing is a highly automated platform that facilitates material deposition in a layer-by-layer approach to fabricate pre-defined 3D complex structures on demand.It is a highly promising technique for the fabrication of personalized medical devices or even patient-specific tissue constructs.Each type of 3D printing technique has its unique advantages and limitations,and the selection of a suitable 3D printing technique is highly dependent on its intended application.In this review paper,we present and highlight some of the critical processes(printing parameters,build orientation,build location,and support structures),material(batch-to-batch consistency,recycling,protein adsorption,biocompatibility,and degradation properties),and regulatory considerations(sterility and mechanical properties)for 3D printing of personalized medical devices.The goal of this review paper is to provide the readers with a good understanding of the various key considerations(process,material,and regulatory)in 3D printing,which are critical for the fabrication of improved patient-specific 3D printed medical devices and tissue constructs. 展开更多
关键词 3D printing BIOPRINTING BIOFABRICATION Medical devices tissue constructs
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Developing fibrin-based biomaterials/scaffolds in tissue engineering
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作者 Songjie Li Xin Dan +6 位作者 Han Chen Tong Li Bo Liu Yikun Ju Yang Li Lanjie Lei Xing Fan 《Bioactive Materials》 SCIE CSCD 2024年第10期597-623,共27页
Tissue engineering technology has advanced rapidly in recent years, offering opportunities to construct biologicallyactive tissues or organ substitutes to repair or even enhance the functions of diseased tissues and o... Tissue engineering technology has advanced rapidly in recent years, offering opportunities to construct biologicallyactive tissues or organ substitutes to repair or even enhance the functions of diseased tissues and organs.Tissue-engineered scaffolds rebuild the extracellular microenvironment by mimicking the extracellular matrix.Fibrin-based scaffolds possess numerous advantages, including hemostasis, high biocompatibility, and gooddegradability. Fibrin scaffolds provide an initial matrix that facilitates cell migration, differentiation, proliferation,and adhesion, and also play a critical role in cell-matrix interactions. Fibrin scaffolds are now widelyrecognized as a key component in tissue engineering, where they can facilitate tissue and organ defect repair.This review introduces the properties of fibrin, including its composition, structure, and biology. In addition, themodification and cross-linking modes of fibrin are discussed, along with various forms commonly used in tissueengineering. We also describe the biofunctionalization of fibrin. This review provides a detailed overview of theuse and applications of fibrin in skin, bone, and nervous tissues, and provides novel insights into future researchdirections for clinical treatment. 展开更多
关键词 FIBRIN SCAFFOLD tissue engineering tissue repair
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Engineering vascularized organotypic tissues via module assembly
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作者 Zhenzhen Zhou Changru Liu +2 位作者 Yuting Guo Yuan Pang Wei Sun 《International Journal of Extreme Manufacturing》 SCIE EI CAS CSCD 2024年第1期155-175,共21页
Adequate vascularization is a critical determinant for the successful construction and clinical implementation of complex organotypic tissue models. Currently, low cell and vessel density and insufficient vascular mat... Adequate vascularization is a critical determinant for the successful construction and clinical implementation of complex organotypic tissue models. Currently, low cell and vessel density and insufficient vascular maturation make vascularized organotypic tissue construction difficult,greatly limiting its use in tissue engineering and regenerative medicine. To address these limitations, recent studies have adopted pre-vascularized microtissue assembly for the rapid generation of functional tissue analogs with dense vascular networks and high cell density. In this article, we summarize the development of module assembly-based vascularized organotypic tissue construction and its application in tissue repair and regeneration, organ-scale tissue biomanufacturing, as well as advanced tissue modeling. 展开更多
关键词 vascularized organotypic tissue module assembly regenerative medicine tissue engineering
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Characteristics and mechanisms of subcutaneous and visceral adipose tissue aging
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作者 Peng Xu Yikai Wang Kai Liu 《Chinese Journal of Plastic and Reconstructive Surgery》 2024年第2期94-97,共4页
Aging is one of the most significant health challenges worldwide and is a primary cause of chronic diseases and physiological decline.Among the myriad changes that occur with aging,alterations in adipose tissue distri... Aging is one of the most significant health challenges worldwide and is a primary cause of chronic diseases and physiological decline.Among the myriad changes that occur with aging,alterations in adipose tissue distribution and function have gained considerable attention because of their profound impact on metabolic health and overall well-being.Subcutaneous adipose tissue(SAT)and visceral adipose tissue(VAT)are the two major depots of white adipose tissue,each with distinct roles in metabolism and health.Understanding the characteristics and underlying mechanisms of SAT and VAT is crucial for elucidating the aging process and developing strategies to promote healthy aging.This review focuses on delineating and analyzing the characteristics and intrinsic mechanisms underlying the aging of subcutaneous and visceral adipose tissue during the aging process,which can contribute to a better understanding of the aging process and enhance healthy aging. 展开更多
关键词 White adipose tissue Subcutaneous adipose tissue Visceral adipose tissue Adipose tissue aging
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Interplay between mesenchymal stem cells and macrophages:Promoting bone tissue repair
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作者 Fei-Fan Zhang Yang Hao +4 位作者 Kuai-Xiang Zhang Jiang-Jia Yang Zhi-Qiang Zhao Hong-Jian Liu Ji-Tian Li 《World Journal of Stem Cells》 SCIE 2024年第4期375-388,共14页
The repair of bone tissue damage is a complex process that is well-orchestrated in time and space,a focus and difficulty in orthopedic treatment.In recent years,the success of mesenchymal stem cells(MSCs)-mediated bon... The repair of bone tissue damage is a complex process that is well-orchestrated in time and space,a focus and difficulty in orthopedic treatment.In recent years,the success of mesenchymal stem cells(MSCs)-mediated bone repair in clinical trials of large-area bone defects and bone necrosis has made it a candidate in bone tissue repair engineering and regenerative medicine.MSCs are closely related to macrophages.On one hand,MSCs regulate the immune regulatory function by influencing macrophages proliferation,infiltration,and phenotype polarization,while also affecting the osteoclasts differentiation of macrophages.On the other hand,macrophages activate MSCs and mediate the multilineage differentiation of MSCs by regulating the immune microenvironment.The cross-talk between MSCs and macrophages plays a crucial role in regulating the immune system and in promoting tissue regeneration.Making full use of the relationship between MSCs and macrophages will enhance the efficacy of MSCs therapy in bone tissue repair,and will also provide a reference for further application of MSCs in other diseases. 展开更多
关键词 Bone tissue damage INFLAMMATION MACROPHAGES Mesenchymal stem cells tissue regeneration
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Research on the Development of Fibroin and Nano-Fiber from Silk Cocoons for Regenerated Tissue Engineering Applications by Electro-Spinning
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作者 Md Kamrul Hasan Xinbo Ding 《Advances in Nanoparticles》 CAS 2024年第1期1-9,共9页
In this paper, the main goal is to prepare silk fibroin nano-fiber, which is used for regenerated tissue applications. Silk scaffold nano-fibers made by electro-spinning technology can be used in regenerated tissue ap... In this paper, the main goal is to prepare silk fibroin nano-fiber, which is used for regenerated tissue applications. Silk scaffold nano-fibers made by electro-spinning technology can be used in regenerated tissue applications. The purpose of the research is to prepare a silk-fibroin nano-fiber solution for potential applications in tissue engineering. Using a degumming process, pure silk fibroin protein is extracted from silk cocoons. The protein solution for fibroin is purified, and the protein content is determined. The precise chemical composition, exact temperature, time, voltage, distance, ratio, and humidity all have a huge impact on degumming, solubility, and electro-spinning nano-fibers. The SEM investigates the morphology of silk fibroin nano-fibres at different magnifications. It also reveals the surface condition, fiber orientation, and fiber thickness of the silk fibroin nano-fiber. The results show that regenerated silk fibroin and nano-fiber can be used in silk fibroin scaffolds for various tissue engineering applications. 展开更多
关键词 Silk fibroin SCAFFOLD electro-spinning nano-fiber tissue Engineering
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Magnesium-incorporated biocomposite scaffolds:A novel frontier in bone tissue engineering
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作者 Abinaya Shanmugavadivu Sundaravadhanan Lekhavadhani +2 位作者 Sushma Babu Nivetha Suresh Nagarajan Selvamurugan 《Journal of Magnesium and Alloys》 SCIE EI CAS CSCD 2024年第6期2231-2248,共18页
Nonunion represents a crucial challenge in orthopedic medicine,demanding innovative solutions beyond the scope of traditional bone grafting methods.Among the various strategies available,magnesium(Mg)implants have bee... Nonunion represents a crucial challenge in orthopedic medicine,demanding innovative solutions beyond the scope of traditional bone grafting methods.Among the various strategies available,magnesium(Mg)implants have been recognized for their biocompatibility and biodegradability.However,their susceptibility to rapid corrosion and degradation has garnered notable research interest in bone tissue engineering(BTE),particularly in the development of Mg-incorporated biocomposite scaffolds.These scaffolds gradually release Mg2+,which enhances immunomodulation,osteogenesis,and angiogenesis,thus facilitating effective bone regeneration.This review presents myriad fabrication techniques used to create Mg-incorporated biocomposite scaffolds,including electrospinning,three-dimensional printing,and sol-gel synthesis.Despite these advancements,the application of Mg-incorporated biocomposite scaffolds faces challenges such as controlling the degradation rate of Mg and ensuring mechanical stability.These limitations highlight the necessity for ongoing research aimed at refining fabrication techniques to better regulate the physicochemical and osteogenic properties of scaffolds.This review provides insights into the potential of Mg-incorporated biocomposite scaffolds for BTE and the challenges that need to be addressed for their successful translation into clinical applications. 展开更多
关键词 MAGNESIUM Bone tissue engineering IMMUNOMODULATION OSTEOGENESIS ANGIOGENESIS
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L-arginine loading porous PEEK promotes percutaneous tissue repairthrough macrophage orchestration
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作者 Tong Zhao Xingdan Liu +7 位作者 Zhuangzhuang Chu Jing Zhao Dongya Jiang Xiaohua Dong Ziyi Lu Kelvin WKYeung Xuanyong Liu Liping Ouyang 《Bioactive Materials》 SCIE CSCD 2024年第10期19-33,共15页
Infection and poor tissue repair are the key causes of percutaneous implantation failure. However, there is a lackof effective strategies to cope with due to its high requirements of sterilization, soft tissue healing... Infection and poor tissue repair are the key causes of percutaneous implantation failure. However, there is a lackof effective strategies to cope with due to its high requirements of sterilization, soft tissue healing, andosseointegration. In this work, L-arginine (L-Arg) was loaded onto a sulfonated polyetheretherketone (PEEK)surface to solve this issue. Under the infection condition, nitric oxide (NO) and reactive oxygen species (ROS) areproduced through catalyzing L-Arg by inducible nitric oxide synthase (iNOS) and thus play a role in bacteriasterilization. Under the tissue repair condition, L-Arg is catalyzed to ornithine by Arginase-1 (Arg-1), whichpromotes the proliferation and collagen secretion of L929 and rBMSCs. Notably, L-Arg loading samples couldpolarize macrophages to M1 and M2 in infection and tissue repair conditions, respectively. The results in vivoshow that the L-Arg loading samples could enhance infected soft tissue sealing and bone regeneration. Insummary, L-Arg loading sulfonated PEEK could polarize macrophage through metabolic reprogramming,providing multi-functions of antibacterial abilities, soft tissue repair, and bone regeneration, which gives a newidea to design percutaneous implantation materials. 展开更多
关键词 POLYETHERETHERKETONE Macrophage orchestration STERILIZATION tissue repair
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Engineering of ovarian tissue for ovarian dysfunctions:A review
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作者 Aliya Zhylkybekova Gulbakit KKoshmaganbetova +5 位作者 Myltykbay SRysmakhanov Nurgul Abdullayevna Abenova Nadiar Maratovich Mussin Asset Askerovich Kaliyev Mahdi Mahdipour Amin Tamadon 《Asian pacific Journal of Reproduction》 CAS 2024年第1期3-11,共9页
This review explores tissue engineering as a potential solution for reproductive health issues in women caused by genetic or acquired diseases,such as premature ovarian failure or oophorectomy.The loss of ovarian func... This review explores tissue engineering as a potential solution for reproductive health issues in women caused by genetic or acquired diseases,such as premature ovarian failure or oophorectomy.The loss of ovarian function can lead to infertility,osteoporosis,and cardiovascular disease.Hormone replacement therapy is a common treatment,but it has limitations and risks.The review focuses on two main approaches in tissue engineering:scaffold-based(3D printing,electrospinning,decellularization)and scaffold-free(stem cell transplantation,organoid cultivation).Both approaches show promise in preclinical studies for creating functional ovarian tissue.Challenges include vascularization,innervation,long-term function,and safety.Despite these challenges,tissue engineering offers a potential avenue for restoring fertility and hormone balance in women with ovarian dysfunction. 展开更多
关键词 Female gonads tissue engineering ESTROGEN Reproductive system
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A Review on Silk Fibroin as a Biomaterial in Tissue Engineering
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作者 Tkhu Chang Le Qian Zhang +3 位作者 Qingdi Qu Wentong Ding Sergej Anatolyevich Lazarev Shuang Pan 《Journal of Biosciences and Medicines》 2024年第3期275-290,共16页
Regenerative medicine progress is based on the development of cell and tissue bioengineering. One of the aims of tissue engineering is the development of scaffolds, which should substitute the functions of the replace... Regenerative medicine progress is based on the development of cell and tissue bioengineering. One of the aims of tissue engineering is the development of scaffolds, which should substitute the functions of the replaced organ after their implantation into the body. The tissue engineering material must meet a range of requirements, including biocompatibility, mechanical strength, and elasticity. Furthermore, the materials have to be attractive for cell growth: stimulate cell adhesion, migration, proliferation and differentiation. One of the natural biomaterials is silk and its component (silk fibroin). An increasing number of scientists in the world are studying silk and silk fibroin. The purpose of this review article is to provide information about the properties of natural silk (silk fibroin), as well as its manufacture and clinical application of each configuration of silk fibroin in medicine. Materials and research methods. Actual publications of foreign authors on resources PubMed, Medline, E-library have been analyzed. The selection criteria were materials containing information about the structure and components of silk, methods of its production in nature. This article placed strong emphasis on silk fibroin, the ways of artificial modification of it for use in various sphere of medicine. 展开更多
关键词 tissue Engineering Biomaterial SCAFFOLD SILK Fibroin
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Endotoxin-induced alterations of adipose tissue function:a pathway to bovine metabolic stress
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作者 Miguel Chirivi G.Andres Contreras 《Journal of Animal Science and Biotechnology》 SCIE CAS CSCD 2024年第4期1391-1407,共17页
During the periparturient period, dairy cows exhibit negative energy balance due to limited appetite and increased energy requirements for lactogenesis. The delicate equilibrium between energy availability and expendi... During the periparturient period, dairy cows exhibit negative energy balance due to limited appetite and increased energy requirements for lactogenesis. The delicate equilibrium between energy availability and expenditure puts cows in a state of metabolic stress characterized by excessive lipolysis in white adipose tissues(AT), increased production of reactive oxygen species, and immune cell dysfunction. Metabolic stress, especially in AT, increases the risk for metabolic and inflammatory diseases. Around parturition, cows are also susceptible to endotoxemia. Bacterial-derived toxins cause endotoxemia by promoting inflammatory processes and immune cell infiltration in different organs and systems while impacting metabolic function by altering lipolysis, mitochondrial activity, and insulin sensitivity. In dairy cows, endotoxins enter the bloodstream after overcoming the defense mechanisms of the epithelial barriers, particularly during common periparturient conditions such as mastitis, metritis, and pneumonia, or after abrupt changes in the gut microbiome. In the bovine AT, endotoxins induce a pro-inflammatory response and stimulate lipolysis in AT, leading to the release of free fatty acids into the bloodstream. When excessive and protracted, endotoxin-induced lipolysis can impair adipocyte's insulin signaling pathways and lipid synthesis. Endotoxin exposure can also induce oxidative stress in AT through the production of reactive oxygen species by inflammatory cells and other cellular components. This review provides insights into endotoxins' impact on AT function, highlighting the gaps in our knowledge of the mechanisms underlying AT dysfunction, its connection with periparturient cows' disease risk, and the need to develop effective interventions to prevent and treat endotoxemia-related inflammatory conditions in dairy cattle. 展开更多
关键词 Adipose tissue dysfunction ENDOTOXIN INFLAMMATION Insulin resistance
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Stimuli-responsive microcarriers and their application in tissue repair: A review of magnetic and electroactive microcarrier
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作者 LiYang Zhang Mengjiao Ma +3 位作者 Junfei Li Kun Qiao Yajie Xie Yudong Zheng 《Bioactive Materials》 SCIE CSCD 2024年第9期147-162,共16页
Microcarrier applications have made great advances in tissue engineering in recent years, which can load cells,drugs, and bioactive factors. These microcarriers can be minimally injected into the defect to help recons... Microcarrier applications have made great advances in tissue engineering in recent years, which can load cells,drugs, and bioactive factors. These microcarriers can be minimally injected into the defect to help reconstruct agood microenvironment for tissue repair. In order to achieve more ideal performance and face more complextissue damage, an increasing amount of effort has been focused on microcarriers that can actively respond toexternal stimuli. These microcarriers have the functions of directional movement, targeted enrichment, materialrelease control, and providing signals conducive to tissue repair. Given the high controllability and designabilityof magnetic and electroactive microcarriers, the research progress of these microcarriers is highlighted in thisreview. Their structure, function and applications, potential tissue repair mechanisms, and challenges are discussed.In summary, through the design with clinical translation ability, meaningful and comprehensiveexperimental characterization, and in-depth study and application of tissue repair mechanisms, stimuliresponsivemicrocarriers have great potential in tissue repair. 展开更多
关键词 Stimuli-responsiveness Magnetic microcarrier Electroactive microcarrier tissue repair
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Fostering tissue engineering and regenerative medicine to treat musculoskeletal disorders in bone and muscle
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作者 Soyeon Park Khandoker Asiqur Rahaman +2 位作者 Yu-Chan Kim Hojeong Jeon Hyung-Seop Han 《Bioactive Materials》 SCIE CSCD 2024年第10期345-365,共21页
The musculoskeletal system,which is vital for movement,support,and protection,can be impaired by disorders such as osteoporosis,osteoarthritis,and muscular dystrophy.This review focuses on the advances in tissue engin... The musculoskeletal system,which is vital for movement,support,and protection,can be impaired by disorders such as osteoporosis,osteoarthritis,and muscular dystrophy.This review focuses on the advances in tissue engineering and regenerative medicine,specifically aimed at alleviating these disorders.It explores the roles of cell therapy,particularly Mesenchymal Stem Cells(MSCs)and Adipose-Derived Stem Cells(ADSCs),biomaterials,and biomolecules/external stimulations in fostering bone and muscle regeneration.The current research underscores the potential of MSCs and ADSCs despite the persistent challenges of cell scarcity,inconsistent outcomes,and safety concerns.Moreover,integrating exogenous materials such as scaffolds and external stimuli like electrical stimulation and growth factors shows promise in enhancing musculoskeletal regeneration.This review emphasizes the need for comprehensive studies and adopting innovative techniques together to refine and advance these multi-therapeutic strategies,ultimately benefiting patients with musculoskeletal disorders. 展开更多
关键词 Musculoskeletal disorders tissue engineering Regenerative medicine BONE MUSCLE
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Tissue engineering approaches for dental pulp regeneration:The development of novel bioactive materials using pharmacological epigenetic inhibitors
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作者 Ross M.Quigley Michaela Kearney +1 位作者 Oran D.Kennedy Henry F.Duncan 《Bioactive Materials》 SCIE CSCD 2024年第10期182-211,共30页
The drive for minimally invasive endodontic treatment strategies has shifted focus from technically complex and destructive root canal treatments towards more conservative vital pulp treatment.However,novel approaches... The drive for minimally invasive endodontic treatment strategies has shifted focus from technically complex and destructive root canal treatments towards more conservative vital pulp treatment.However,novel approaches to maintaining dental pulp vitality after disease or trauma will require the development of innovative,biologicallydriven regenerative medicine strategies.For example,cell-homing and cell-based therapies have recently been developed in vitro and trialled in preclinical models to study dental pulp regeneration.These approaches utilise natural and synthetic scaffolds that can deliver a range of bioactive pharmacological epigenetic modulators(HDACis,DNMTis,and ncRNAs),which are cost-effective and easily applied to stimulate pulp tissue regrowth.Unfortunately,many biological factors hinder the clinical development of regenerative therapies,including a lack of blood supply and poor infection control in the necrotic root canal system.Additional challenges include a need for clinically relevant models and manufacturing challenges such as scalability,cost concerns,and regulatory issues.This review will describe the current state of bioactive-biomaterial/scaffold-based engineering strategies to stimulate dentine-pulp regeneration,explicitly focusing on epigenetic modulators and therapeutic pharmacological inhibition.It will highlight the components of dental pulp regenerative approaches,describe their current limitations,and offer suggestions for the effective translation of novel epigenetic-laden bioactive materials for innovative therapeutics. 展开更多
关键词 EPIGENETICS Regenerative medicine Regenerative endodontics Biocompatible materials tissue engineering
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Tissue distribution of cadmium and its effect on reproduction in Spodoptera exigua
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作者 Honghua Su Menglu Wu +3 位作者 Yong Yang Yan Deng Yizhong Yang Qingming Sun 《Journal of Integrative Agriculture》 SCIE CSCD 2024年第1期195-204,共10页
Vegetable fields are often contaminated by heavy metals,and Spodoptera exigua is a major vegetable pest which is stressed by heavy metals mainly by feeding.In this study,cadmium accumulation in the tissues of S.exigua... Vegetable fields are often contaminated by heavy metals,and Spodoptera exigua is a major vegetable pest which is stressed by heavy metals mainly by feeding.In this study,cadmium accumulation in the tissues of S.exigua exposed to cadmium and its effects on the growth and development of the parents and the offspring were investigated.Under the stress of different concentrations of cadmium(0.2,3.2,and 51.2 mg kg^(-1)),the cadmium content in each tissue of S.exigua increased in a dose-dependent manner.At the larval stage,the highest cadmium accumulation was found in midgut in all three cadmium treatments,but at the adult stage,the highest cadmium content was found in fat body.In addition,the cadmium content in ovaries was much higher than in testes.When F1S.exigua was stressed by cadmium and the F_(2)generation was not fed a cadmium-containing diet,the larval survival,pupation rate,emergence rate and fecundity of the F_(2)generation were significantly reduced in the 51.2 mg kg^(-1)treatment compared to the corresponding F1generation.Even in the F_(2)generation of the 3.2 mg kg^(-1)treatment,the fecundity was significantly lower than in the parental generation.The fecundity of the only-female stressed treatment was significantly lower than that of the only-male stressed treatment at the 3.2 and 51.2 mg kg^(-1)cadmium exposure levels.When only mothers were stressed at the larval stage,the fecundity of the F_(2)generation was significantly lower than that of the F1generation in the 51.2 mg kg^(-1)treatment,and it was also significantly lower than in the 3.2 and 0.2 mg kg^(-1)treatments.The results of our study can provide useful information for forecasting the population increase trends under different heavy metal stress conditions and for the reliable environmental risk assessment of heavy metal pollution. 展开更多
关键词 heavy metal pollution CADMIUM Spodoptera exigua tissue distribution REPRODUCTION
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Interfacial delivery of carbon monoxide via smart titanium implant coating for enhanced soft tissue integration with switchable antibacterial and immunomodulatory properties
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作者 Minghao Zhou Gangfeng Li +6 位作者 Jingwei Yu Qian Zhou Kun Wang Jiaxin Kang Tengjiao Wang Peng Li Hongbo Wei 《Bioactive Materials》 SCIE CSCD 2024年第10期318-333,共16页
Soft tissue integration around titanium(Ti)implants is weaker than that around natural teeth,compromising long-term success of Ti implants.Carbon monoxide(CO)possesses distinctive therapeutic properties,rendering it a... Soft tissue integration around titanium(Ti)implants is weaker than that around natural teeth,compromising long-term success of Ti implants.Carbon monoxide(CO)possesses distinctive therapeutic properties,rendering it as a highly promising candidate for enhancing STI.However,achieving controlled CO generation at the STI interface remains challenging.Herein,a controlled CO-releasing dual-function coating was constructed on Ti surfaces.Under near-infrared(NIR)irradiation,the designed surface could actively accelerate CO generation for antibiosis against both aerobic and anaerobic bacteria.More importantly,in the absence of NIR,the slow release of CO induces macrophage polarization from pro-inflammatory phenotype towards pro-regenerative phenotype.In a rat implantation model with induced infection,the designed surface effectively controlled the bacterial infection,alleviates accompanying inflammation and modulated immune microenvironment,leading to enhanced STI.Single-cell sequencing revealed that the coating alters the cytokine profile within the soft tissue,thereby influencing cellular functions.Differentially expressed genes in macrophages are highly enriched in the PIK3-Akt pathway.Furthermore,the cellular communication between fibroblasts and macrophages was significantly enhanced through the CXCL12/CXCL14/CXCR4 and CSF1-CSF1R ligand-receptor pair.These findings indicate that our coating showed an appealing prospect for enhancing STI around Ti implants,which would ultimately contribute to the improved long-term success of Ti implants. 展开更多
关键词 Gastrotransmitters Soft tissue integration Immune microenvironment Ti implants ANTIBACTERIAL
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The marriage of immunomodulatory,angiogenic,and osteogenic capabilities in a piezoelectric hydrogel tissue engineering scafold for military medicine
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作者 Ping Wu Lin Shen +12 位作者 Hui-Fan Liu Xiang-Hui Zou Juan Zhao Yu Huang Yu-Fan Zhu Zhao-Yu Li Chao Xu Li-Hua Luo Zhi-Qiang Luo Min-Hao Wu Lin Cai Xiao-Kun Li Zhou-Guang Wang 《Military Medical Research》 SCIE CAS CSCD 2024年第3期323-344,共22页
Background:Most bone-related injuries to grassroots troops are caused by training or accidental injuries.To establish preventive measures to reduce all kinds of trauma and improve the combat effectiveness of grassroot... Background:Most bone-related injuries to grassroots troops are caused by training or accidental injuries.To establish preventive measures to reduce all kinds of trauma and improve the combat effectiveness of grassroots troops,it is imperative to develop new strategies and scafolds to promote bone regeneration.Methods:In this study,a porous piezoelectric hydrogel bone scafold was fabricated by incorporating polydopamine(PDA)-modified ceramic hydroxyapatite(PDA-hydroxyapatite,PHA)and PDA-modified barium titanate(PDABaTiO_(3),PBT)nanoparticles into a chitosan/gelatin(Cs/Gel)matrix.The physical and chemical properties of the Cs/Gel/PHA scafold with 0–10 wt%PBT were analyzed.Cell and animal experiments were performed to characterize the immunomodulatory,angiogenic,and osteogenic capabilities of the piezoelectric hydrogel scafold in vitro and in vivo.Results:The incorporation of BaTiO_(3) into the scafold improved its mechanical properties and increased self-generated electricity.Due to their endogenous piezoelectric stimulation and bioactive constituents,the prepared Cs/Gel/PHA/PBT hydrogels exhibited cytocompatibility as well as immunomodulatory,angiogenic,and osteogenic capabilities;they not only effectively induced macrophage polarization to M2 phenotype but also promoted the migration,tube formation,and angiogenic differentiation of human umbilical vein endothelial cells(HUVECs)and facilitated the migration,osteodifferentiation,and extracellular matrix(ECM)mineralization of MC3T3-E1 cells.The in vivo evaluations showed that these piezoelectric hydrogels with versatile capabilities significantly facilitated new bone formation in a rat large-sized cranial injury model.The underlying molecular mechanism can be partly attributed to the immunomodulation of the Cs/Gel/PHA/PBT hydrogels as shown via transcriptome sequencing analysis,and the PI3K/Akt signaling axis plays an important role in regulating macrophage M2 polarization.Conclusion:The piezoelectric Cs/Gel/PHA/PBT hydrogels developed here with favorable immunomodulation,angiogenesis,and osteogenesis functions may be used as a substitute in periosteum injuries,thereby offering the novel strategy of applying piezoelectric stimulation in bone tissue engineering for the enhancement of combat efectiveness in grassroots troops. 展开更多
关键词 Piezoelectric hydrogel tissue engineering scafold IMMUNOMODULATION Angiogenesis Osteogenic differentiation
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