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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Promising use of metformin in treating neurological disorders:biomarker-guided therapies 被引量：2

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作者 Allison Loan Charvi Syal +2 位作者 Margarita Lui Ling He Jing Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2024年第5期1045-1055,共11页

Neurological disorders are a diverse group of conditions that affect the nervous system and include neurodegenerative diseases(Alzheimer’s disease,multiple sclerosis,Parkinson’s disease,Huntington’s disease),cerebr... Neurological disorders are a diverse group of conditions that affect the nervous system and include neurodegenerative diseases(Alzheimer’s disease,multiple sclerosis,Parkinson’s disease,Huntington’s disease),cerebrovascular conditions(stroke),and neurodevelopmental disorders(autism spectrum disorder).Although they affect millions of individuals around the world,only a limited number of effective treatment options are available today.Since most neurological disorders express mitochondria-related metabolic perturbations,metformin,a biguanide type II antidiabetic drug,has attracted a lot of attention to be repurposed to treat neurological disorders by correcting their perturbed energy metabolism.However,controversial research emerges regarding the beneficial/detrimental effects of metformin on these neurological disorders.Given that most neurological disorders have complex etiology in their pathophysiology and are influenced by various risk factors such as aging,lifestyle,genetics,and environment,it is important to identify perturbed molecular functions that can be targeted by metformin in these neurological disorders.These molecules can then be used as biomarkers to stratify subpopulations of patients who show distinct molecular/pathological properties and can respond to metformin treatment,ultimately developing targeted therapy.In this review,we will discuss mitochondria-related metabolic perturbations and impaired molecular pathways in these neurological disorders and how these can be used as biomarkers to guide metformin-responsive treatment for the targeted therapy to treat neurological disorders. 展开更多

关键词 Alzheimer’s disease Huntington’s disease METFORMIN mitochondrial perturbation multiple sclerosis neural degenerative diseases Parkinson’s disease stroke targeted therapy

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Biomarker-guided drug therapy: personalized medicine for treating Alzheimer’s disease 被引量：2

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作者 Charvi Syal Jing Wang 《Neural Regeneration Research》 SCIE CAS CSCD 2021年第10期2010-2011,共2页

Alzheimer’s disease(AD)is a progressive neurodegenerative disorder associated with significant memory decline and cognitive impairment.AD is characterized by two classical neuropathological hal lmarks,namely the amyl... Alzheimer’s disease(AD)is a progressive neurodegenerative disorder associated with significant memory decline and cognitive impairment.AD is characterized by two classical neuropathological hal lmarks,namely the amyloid-beta(Aβ)plaques and neurofibril tangles.Currently,there are no disease-modifying treatments available for AD,except for a couple of the US Food and Drug Administration(FDA)-approved drugs to improve cognitive function by blocking N-methyl-D-aspartate receptors or cholinesterase activity(Panza et al.,2019). 展开更多

关键词 ALZHEIMER DRUGS AΒ

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Role of chondroitin sulfate proteoglycan signaling in regulating neuroinflammation following spinal cord injury 被引量：4

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作者 Scott M.Dyck Soheila Karimi-Abdolrezaee 《Neural Regeneration Research》 SCIE CAS CSCD 2018年第12期2080-2082,共3页

Spinal cord injury （SCI） elicits a robust inflammatory response that is a hallmark of the secondary injury mechanisms. Neuroinflammation is orchestrated initially by the response of resident astrocytes and microglia... Spinal cord injury （SCI） elicits a robust inflammatory response that is a hallmark of the secondary injury mechanisms. Neuroinflammation is orchestrated initially by the response of resident astrocytes and microglia to injury, which subsequently facilitates the recruitment of peripheral immune cells into the SCI lesion （Orr and Gensel, 2018）. This inflammatory response contributes to cell death and tissue degeneration through the production of pro-inflammatory cytokines and chemokines, free radicals and proteolytic enzymes. However, neuroinflammatory cells also play beneficial regulatory role in repair mechanisms after SCI by adopting a reparative and wound healing phenotype （Orr and Gensel, 2018; Tran et al., 2018）. Hence, understanding the underlying mechanisms by which immune cells are reg- ulated within the microenvironment of injury would aid in harnessing the reparative potential of inflammation following SCI. 展开更多

关键词 Role of chondroitin sulfate proteoglycan signaling in regulating neuroinflammation following spinal cord injury PTP SCI

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Nuclear accumulation of β-catenin and forkhead box O3a in colon cancer:Dangerous liaison 被引量：2

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作者 Wolfgang Link 《World Journal of Biological Chemistry》 CAS 2012年第9期175-179,共5页

The WNT/-catenin and phosphoinositide 3-kinase(PI3K/AKT) signaling cascades both have been implicated in the formation and progression of colorectal cancer.Oncogenic PI3K/AKT signaling suppresses the activity of forkh... The WNT/-catenin and phosphoinositide 3-kinase(PI3K/AKT) signaling cascades both have been implicated in the formation and progression of colorectal cancer.Oncogenic PI3K/AKT signaling suppresses the activity of forkhead box O3a(FOXO3a) transcription factor through phosphorylation leading to its nuclear exclusion.Inhibition of the PI3K/AKT signaling by PI3K or AKT inhibitors results in the translocation of FOXO3a to the nucleus,and is considered to be a promising therapeutic strategy for many cancers including colon cancer.Now,however,a new study in Nature Medicine has revealed a nuclear interaction of-catenin with FOXO3a as a promoter of metastatic progression in colon cancer.The work has important implications for the treatment of colon cancers,suggests a companion biomarker strategy to enable a personalized medicine approach,and offers an alternative therapeutic strategy to overcome resistance to PI3K and AKT inhibitors. 展开更多

关键词 Colon cancer -CATENIN FORKHEAD BOX O3a Metastasis Drug resistance PI3k/AKT INHIBITORS TANKYRASE INHIBITORS Personalized medicine Xenopatient

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Re-evaluating the role of epithelial-mesenchymal-transition in cancer progression 被引量：4

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作者 Andrew Sulaiman Zemin Yao Lisheng Wang 《The Journal of Biomedical Research》 CAS CSCD 2018年第2期81-90,共10页

Epithelial-mesenchymal transition（EMT） and mesenchymal-epithelial transition（MET） are essential for embryonic development and also important in cancer progression. In a conventional model, epithelial-like cancer c... Epithelial-mesenchymal transition（EMT） and mesenchymal-epithelial transition（MET） are essential for embryonic development and also important in cancer progression. In a conventional model, epithelial-like cancer cells transit to mesenchymal-like tumor cells with great motility via EMT transcription factors; these mesenchymallike cells migrate through the circulation system, relocate to a suitable site and then convert back to an epithelial-like phenotype to regenerate the tumor. However, recent findings challenge this conventional model and support the existence of a stable hybrid epithelial/mesenchymal（E/M） tumor population. Hybrid E/M tumor cells exhibit both epithelial and mesenchymal properties, possess great metastatic and tumorigenic capacity and are associated with poorer patient prognosis. The hybrid E/M model and associated regulatory networks represent a conceptual change regarding tumor metastasis and organ colonization. It may lead to the development of novel treatment strategies to ultimately stop cancer progression and improve disease-free survival. 展开更多

关键词 Epithelial-mesenchymal transition（EMT） mesenchymal-epithelial transition（MET） hybrid EMT/MET cancer metastasis

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Neuregulin-1:a novel regulator of glial response in spinal cord injury

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作者 Hardeep Kataria Soheila Karimi-Abdolrezaee 《Neural Regeneration Research》 SCIE CAS CSCD 2017年第10期1616-1617,共2页

Spinal cord injury （SCI） results in a dysregulated microenvi- ronment that is largely driven by the immediate and robust response of resident astrocytes and microglia （Filous and Silver, 2016）.

关键词 Neuregulin-1:a novel regulator of glial response in spinal cord injury SCI

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Injectable and rapidly expandable thrombin-decorated cryogels achieve rapid hemostasis and high survival rates in a swine model of lethal junctional hemorrhage

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作者 Syed Muntazir Andrabi S.M.Shatil Shahriar +3 位作者 Al-Murtadha Al-Gahmi Benjamin L.Wilczewski Mark A.Carlson Jingwei Xie 《Bioactive Materials》 SCIE CSCD 2024年第8期154-168,共15页

Effective therapies are urgently needed to stabilize patients with marginally compressible junctional hemorrhage long enough to get them to the hospital alive.Herein,we report injectable and rapidly expandable cryogel... Effective therapies are urgently needed to stabilize patients with marginally compressible junctional hemorrhage long enough to get them to the hospital alive.Herein,we report injectable and rapidly expandable cryogels consisting of polyacrylamide and thrombin(AT cryogels)created by cryo-polymerization for the efficient management of lethal junctional hemorrhage in swine.The produced cryogels have small pore sizes and highly interconnected porous architecture with robust mechanical strength.The cryogels exhibit rapid shape memory properties and prove to be resilient against fatigue.These cryogels also show high water/blood absorption capacity,fast blood clotting effect,and enhanced adhesion of red blood cells and platelets in vitro.Further,in vivo,hemostatic efficacy tests in a lethal swine junctional hemorrhage model suggest that treatment with AT cryogels,especially AT-2 cryogels,achieves the least blood loss and the highest survival rate(100%)compared to currently employed products such as XStat®and combat gauze.The high hemostatic performance of the cryogels may be attributed to highly interconnected porous architecture with small pore size and the use of thrombin as a pro-coagulant agent.Collectively,injectable and rapidly expandable thrombin-decorated polyacrylamide-based cryogels show significant promise as hemostatic material,offering effective management of marginally compressible junctional hemorrhages in prehospital settings. 展开更多

关键词 Polyacrylamide cryogels Blood clotting Shape memory and injectable Lethal junctional hemorrhage

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Recent advances in genome-scale engineering in Escherichia coli and their applications

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作者 Hui Gao Zhichao Qiu +4 位作者 Xuan Wang Xiyuan Zhang Yujia Zhang Junbiao Dai Zhuobin Liang 《Engineering Microbiology》 2024年第1期28-38,共11页

Owing to the rapid advancement of genome engineering technologies,the scale of genome engineering has expanded dramatically.Genome editing has progressed from one genomic alteration at a time that could only be employ... Owing to the rapid advancement of genome engineering technologies,the scale of genome engineering has expanded dramatically.Genome editing has progressed from one genomic alteration at a time that could only be employed in few species,to the simultaneous generation of multiple modifications across many genomic loci in numerous species.The development and recent advances in multiplex automated genome engineering(MAGE)-associated technologies and clustered regularly interspaced short palindromic repeats and their associated protein(CRISPR-Cas)-based approaches,together with genome-scale synthesis technologies offer unprecedented opportunities for advancing genome-scale engineering in a broader range.These approaches provide new tools to generate strains with desired phenotypes,understand the complexity of biological systems,and directly evolve a genome with novel features.Here,we review the recent major advances in genome-scale engineering tools developed for Escherichia coli,focusing on their applications in identifying essential genes,genome reduction,recoding,and beyond. 展开更多

关键词 Genome-scale engineering E.COLI RECOMBINEERING CRISPR-Cas

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Fabricating 3-dimensional human brown adipose microtissues for transplantation studies

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作者 Ou Wang Li Han +8 位作者 Haishuang Lin Mingmei Tian Shuyang Zhang Bin Duan Soonkyu Chung Chi Zhang Xiaojun Lian Yong Wang Yuguo Lei 《Bioactive Materials》 SCIE CSCD 2023年第4期518-534,共17页

Transplanting cell cultured brown adipocytes(BAs)represents a promising approach to prevent and treat obesity(OB)and its associated metabolic disorders,including type 2 diabetes mellitus(T2DM).However,transplanted BAs... Transplanting cell cultured brown adipocytes(BAs)represents a promising approach to prevent and treat obesity(OB)and its associated metabolic disorders,including type 2 diabetes mellitus(T2DM).However,transplanted BAs have a very low survival rate in vivo.The enzymatic dissociation during the harvest of fully differentiated BAs also loses significant cells.There is a critical need for novel methods that can avoid cell death during cell preparation,transplantation,and in vivo.Here,we reported that preparing BAs as injectable microtissues could overcome the problem.We found that 3D culture promoted BA differentiation and UCP-1 expression,and the optimal initial cell aggregate size was 100μm.The microtissues could be produced at large scales via 3D suspension assisted with a PEG hydrogel and could be cryopreserved.Fabricated microtissues could survive in vivo for long term.They alleviated body weight and fat gain and improved glucose tolerance and insulin sensitivity in high-fat diet(HFD)-induced OB and T2DM mice.Transplanted microtissues impacted multiple organs,secreted protein factors,and influenced the secretion of endogenous adipokines.To our best knowledge,this is the first report on fabricating human BA microtissues and showing their safety and efficacy in T2DM mice.The proposal of transplanting fabricated BA microtissues,the microtissue fabrication method,and the demonstration of efficacy in T2DM mice are all new.Our results show that engineered 3D human BA microtissues have considerable advantages in product scalability,storage,purity,safety,dosage,survival,and efficacy. 展开更多

关键词 Brown adipocyte Microtissue TRANSPLANTATION OBESITY Type 2 diabetes

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Carbon nanomaterials for cardiovascular theranostics:Promises and challenges 被引量：5

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作者 Keshav Narayan Alagarsamy Sajitha Mathan +4 位作者 Weiang Yan Alireza Rafieerad Saravanan Sekaran Hanna Manego Sanjiv Dhingra 《Bioactive Materials》 SCIE 2021年第8期2261-2280,共20页

Cardiovascular diseases(CVDs)are the leading cause of death worldwide.Heart attack and stroke cause irreversible tissue damage.The currently available treatment options are limited to“damage-control”rather than tiss... Cardiovascular diseases(CVDs)are the leading cause of death worldwide.Heart attack and stroke cause irreversible tissue damage.The currently available treatment options are limited to“damage-control”rather than tissue repair.The recent advances in nanomaterials have offered novel approaches to restore tissue function after injury.In particular,carbon nanomaterials(CNMs)have shown significant promise to bridge the gap in clinical translation of biomaterial based therapies.This family of carbon allotropes(including graphenes,carbon nanotubes and fullerenes)have unique physiochemical properties,including exceptional mechanical strength,electrical conductivity,chemical behaviour,thermal stability and optical properties.These intrinsic properties make CNMs ideal materials for use in cardiovascular theranostics.This review is focused on recent efforts in the diagnosis and treatment of heart diseases using graphenes and carbon nanotubes.The first section introduces currently available derivatives of graphenes and carbon nanotubes and discusses some of the key characteristics of these materials.The second section covers their application in drug delivery,biosensors,tissue engineering and immunomodulation with a focus on cardiovascular applications.The final section discusses current shortcomings and limitations of CNMs in cardiovascular applications and reviews ongoing efforts to address these concerns and to bring CNMs from bench to bedside. 展开更多

关键词 Carbon nanomaterials Cardiovascular disease Drug delivery Biosensors Cardiac tissue engineering IMMUNOMODULATION

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Anisotropic scaffolds for peripheral nerve and spinal cord regeneration 被引量：4

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作者 Wen Xue Wen Shi +2 位作者 Yunfan Kong Mitchell Kuss Bin Duan 《Bioactive Materials》 SCIE 2021年第11期4141-4160,共20页

The treatment of long-gap(>10 mm)peripheral nerve injury(PNI)and spinal cord injury(SCI)remains a continuous challenge due to limited native tissue regeneration capabilities.The current clinical strategy of using a... The treatment of long-gap(>10 mm)peripheral nerve injury(PNI)and spinal cord injury(SCI)remains a continuous challenge due to limited native tissue regeneration capabilities.The current clinical strategy of using autografts for PNI suffers from a source shortage,while the pharmacological treatment for SCI presents dissatisfactory results.Tissue engineering,as an alternative,is a promising approach for regenerating peripheral nerves and spinal cords.Through providing a beneficial environment,a scaffold is the primary element in tissue engineering.In particular,scaffolds with anisotropic structures resembling the native extracellular matrix(ECM)can effectively guide neural outgrowth and reconnection.In this review,the anatomy of peripheral nerves and spinal cords,as well as current clinical treatments for PNI and SCI,is first summarized.An overview of the critical components in peripheral nerve and spinal cord tissue engineering and the current status of regeneration approaches are also discussed.Recent advances in the fabrication of anisotropic surface patterns,aligned fibrous substrates,and 3D hydrogel scaffolds,as well as their in vitro and in vivo effects are highlighted.Finally,we summarize potential mechanisms underlying the anisotropic architectures in orienting axonal and glial cell growth,along with their challenges and prospects. 展开更多

关键词 Tissue engineering TOPOGRAPHY ALIGNMENT Surface pattern HYDROGEL

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3D printing of silk fibroin-based hybrid scaffold treated with platelet rich plasma for bone tissue engineering 被引量：10

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作者 Liang Wei Shaohua Wu +5 位作者 Mitchell Kuss Xiping Jiang Runjun Sun Reid Patrick Xiaohong Qin Duan Bin 《Bioactive Materials》 SCIE 2019年第1期256-260,共5页

3D printing/bioprinting are promising techniques to fabricate scaffolds with well controlled and patient-specific structures and architectures for bone tissue engineering.In this study,we developed a composite bioink ... 3D printing/bioprinting are promising techniques to fabricate scaffolds with well controlled and patient-specific structures and architectures for bone tissue engineering.In this study,we developed a composite bioink consisting of silk fibroin(SF),gelatin(GEL),hyaluronic acid(HA),and tricalcium phosphate(TCP)and 3D bioprinted the silk fibroin-based hybrid scaffolds.The 3D bioprinted scaffolds with dual crosslinking were further treated with human platelet-rich plasma(PRP)to generate PRP coated scaffolds.Live/Dead and MTT assays demonstrated that PRP treatment could obviously promote the cell growth and proliferation of human adipose derived mesenchymal stem cells(HADMSC).In addition,the treatment of PRP did not significantly affect alkaline phosphatase(ALP)activity and expression,but significantly upregulated the gene expression levels of late osteogenic markers.This study demonstrated that the 3D printing of silk fibroin-based hybrid scaffolds,in combination with PRP post-treatment,might be a more efficient strategy to promote osteogenic differentiation of adult stem cells and has significant potential to be used for bone tissue engineering. 展开更多

关键词 3D bioprinting Hybrid scaffold Coating Growth factor cocktail Tissue engineering

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3D printing of multilayered scaffolds for rotator cuff tendon regeneration 被引量：10

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作者 Xiping Jiang Shaohua Wu +5 位作者 Mitchell Kuss Yunfan Kong Wen Shi Philipp N.Streubel Tieshi Li Bin Duan 《Bioactive Materials》 SCIE 2020年第3期636-643,共8页

Repairing massive rotator cuff tendon defects remains a challenge due to the high retear rate after surgical intervention.3D printing has emerged as a promising technique that enables the fabrication of engineered tis... Repairing massive rotator cuff tendon defects remains a challenge due to the high retear rate after surgical intervention.3D printing has emerged as a promising technique that enables the fabrication of engineered tissues with heterogeneous structures and mechanical properties,as well as controllable microenvironments for tendon regeneration.In this study,we developed a new strategy for rotator cuff tendon repair by combining a 3D printed scaffold of polylactic-co-glycolic acid(PLGA)with cell-laden collagen-fibrin hydrogels.We designed and fabricated two types of scaffolds:one featuring a separate layer-by-layer structure and another with a tri-layered structure as a whole.Uniaxial tensile tests showed that both types of scaffolds had improved mechanical properties compared to single-layered PLGA scaffolds.The printed scaffold with collagen-fibrin hydrogels effectively supported the growth,proliferation,and tenogenic differentiation of human adipose-derived mesenchymal stem cells.Subcutaneous implantation of the multilayered scaffolds demonstrated their excellent in vivo biocompatibility.This study demonstrates the feasibility of 3D printing multilayered scaffolds for application in rotator cuff tendon regeneration. 展开更多

关键词 Collagen-fibrin hydrogel Tenogenic differentiation Tendon repair Tissue engineering

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Exosomes derived from differentiated human ADMSC with the Schwann cell phenotype modulate peripheral nerve-related cellular functions 被引量：6

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作者 Bo Liu Yunfan Kong +9 位作者 Wen Shi Mitchell Kuss Ke Liao Guoku Hu Peng Xiao Jagadesan Sankarasubramanian Chittibabu Guda Xinglong Wang Yuguo Lei Bin Duan 《Bioactive Materials》 SCIE 2022年第8期61-75,共15页

Peripheral nerve regeneration remains a significant clinical challenge due to the unsatisfactory functional recovery and public health burden.Exosomes,especially those derived from mesenchymal stem cells(MSCs),are pro... Peripheral nerve regeneration remains a significant clinical challenge due to the unsatisfactory functional recovery and public health burden.Exosomes,especially those derived from mesenchymal stem cells(MSCs),are promising as potential cell-free therapeutics and gene therapy vehicles for promoting neural regeneration.In this study,we reported the differentiation of human adipose derived MSCs(hADMSCs)towards the Schwann cell(SC)phenotype(hADMSC-SCs)and then isolated exosomes from hADMSCs with and without differentiation(i.e.,dExo vs uExo).We assessed and compared the effects of uExo and dExo on antioxidative,angiogenic,anti-inflammatory,and axon growth promoting properties by using various peripheral nerve-related cells.Our results demonstrated that hADMSC-SCs secreted more neurotrophic factors and other growth factors,compared to hADMSCs without differentiation.The dExo isolated from hADMSC-SCs protected rat SCs from oxidative stress and enhanced HUVEC migration and angiogenesis.Compared to uExo,dExo also had improved performances in downregulating pro-inflammatory gene expressions and cytokine secretions and promoting axonal growth of sensory neurons differentiated from human induced pluripotent stem cells.Furthermore,microRNA(miRNA)sequencing analysis revealed that exosomes and their parent cells shared some similarities in their miRNA profiles and exosomes displayed a distinct miRNA signature.Many more miRNAs were identified in dExo than in uExo.Several upregulated miRNAs,like miRNA-132-3p and miRNA-199b-5p,were highly related to neuroprotection,anti-inflammation,and angiogenesis.The dExo can effectively modulate various peripheral nerve-related cellular functions and is promising for cell-free biological therapeutics to enhance neural regeneration. 展开更多

关键词 ANTI-OXIDATION ANTI-INFLAMMATORY Axon growth Neural regeneration microRNA

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Novel fibrin-fibronectin matrix accelerates mice skin wound healing 被引量：7

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作者 Carlos Poblete Jara Ou Wang +9 位作者 Thais Paulino do Prado Ayman Ismail Frank Marco Fabian Han Li Licio A.Velloso Mark A.Carlson William Burgess Yuguo Lei William H.Velander Eliana P.Araújo 《Bioactive Materials》 SCIE 2020年第4期949-962,共14页

Plasma fibrinogen(F1)and fibronectin(pFN)polymerize to form a fibrin clot that is both a hemostatic and provisional matrix for wound healing.About 90%of plasma F1 has a homodimeric pair ofγchains(γγF1),and 10%has a... Plasma fibrinogen(F1)and fibronectin(pFN)polymerize to form a fibrin clot that is both a hemostatic and provisional matrix for wound healing.About 90%of plasma F1 has a homodimeric pair ofγchains(γγF1),and 10%has a heterodimeric pair ofγand more acidicγ′chains(γγ′F1).We have synthesized a novel fibrin matrix exclusively from a 1:1(molar ratio)complex ofγγ′F1 and pFN in the presence of highly active thrombin and recombinant Factor XIII(rFXIIIa).In this matrix,the fibrin nanofibers were decorated with pFN nanoclusters(termedγγ′F1:pFN fibrin).In contrast,fibrin made from 1:1 mixture ofγγF1 and pFN formed a sporadic distribution of“pFN droplets”(termedγγF1+pFN fibrin).Theγγ′F1:pFN fibrin enhanced the adhesion of primary human umbilical vein endothelium cells(HUVECs)relative to theγγF1+FN fibrin.Three dimensional(3D)culturing showed that theγγ′F1:pFN complex fibrin matrix enhanced the proliferation of both HUVECs and primary human fibroblasts.HUVECs in the 3Dγγ′F1:pFN fibrin exhibited a starkly enhanced vascular morphogenesis while an apoptotic growth profile was observed in theγγF1+pFN fibrin.Relative toγγF1+pFN fibrin,mouse dermal wounds that were sealed byγγ′F1:pFN fibrin exhibited accelerated and enhanced healing.This study suggests that a 3D pFN presentation on a fibrin matrix promotes wound healing. 展开更多

关键词 FIBRIN FIBRONECTIN NANOCLUSTERS Wound healing

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Bioengineering strategies for the treatment of peripheral arterial disease

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作者 Cui Li Oliver Kitzerow +6 位作者 Fujiao Nie Jingxuan Dai Xiaoyan Liu Mark A.Carlson George P.Casale Iraklis I.Pipinos Xiaowei Li 《Bioactive Materials》 SCIE 2021年第3期684-696,共13页

Peripheral arterial disease(PAD)is a progressive atherosclerotic disorder characterized by narrowing and occlusion of arteries supplying the lower extremities.Approximately 200 million people worldwide are affected by... Peripheral arterial disease(PAD)is a progressive atherosclerotic disorder characterized by narrowing and occlusion of arteries supplying the lower extremities.Approximately 200 million people worldwide are affected by PAD.The current standard of operative care is open or endovascular revascularization in which blood flow restoration is the goal.However,many patients are not appropriate candidates for these treatments and are subject to continuous ischemia of their lower limbs.Current research in the therapy of PAD involves developing modalities that induce angiogenesis,but the results of simple cell transplantation or growth factor delivery have been found to be relatively poor mainly due to difficulties in stem cell retention and survival and rapid diffusion and enzymolysis of growth factors following injection of these agents in the affected tissues.Biomaterials,including hydrogels,have the capability to protect stem cells during injection and to support cell survival.Hydrogels can also provide a sustained release of growth factors at the injection site.This review will focus on biomaterial systems currently being investigated as carriers for cell and growth factor delivery,and will also discuss biomaterials as a potential stand-alone method for the treatment of PAD.Finally,the challenges of development and use of biomaterials systems for PAD treatment will be reviewed. 展开更多

关键词 HYDROGELS Growth factors Cell transplantation Peripheral arterial disease

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Microfabricated platforms to investigate cell mechanical properties

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作者 Amir M.Esfahani Grayson Minnick +5 位作者 Jordan Rosenbohm Haiwei Zhai Xiaowei Jin Bahareh Tajvidi Safa Justin Brooks Ruiguo Yang 《Medicine in Novel Technology and Devices》 2022年第1期49-58,共10页

Mechanical stimulation has been imposed on living cells using several approaches.Most early investigations were conducted on groups of cells,utilizing techniques such as substrate deformation and flow-induced shear.To... Mechanical stimulation has been imposed on living cells using several approaches.Most early investigations were conducted on groups of cells,utilizing techniques such as substrate deformation and flow-induced shear.To investigate the properties of cells individually,many conventional techniques were utilized,such as AFM,optical traps/optical tweezers,magnetic beads,and micropipette aspiration.In specific mechanical interrogations,microelectro-mechanical systems(MEMS)have been designed to probe single cells in different interrogation modes.To exert loads on the cells,these devices often comprise piezo-electric driven actuators that attach directly to the cell or move a structure on which cells are attached.Uniaxial and biaxial pullers,micropillars,and cantilever beams are examples of MEMS devices.In this review,the methodologies to analyze single cell activity under external loads using microfabricated devices will be examined.We will focus on the mechanical interrogation in three different regimes:compression,traction,and tension,and discuss different microfabricated platforms designed for these purposes. 展开更多

关键词 BIOMEMS Single cell Mechanical properties MICRODEVICES

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Transforming layered 2D mats into multiphasic 3D nanofiber scaffolds with tailored gradient features for tissue regeneration

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作者 S.M.Shatil Shahriar Navatha Shree Polavoram +5 位作者 Syed Muntazir Andrabi Yajuan Su Donghee Lee Huy Quang Tran Samantha J.Schindler Jingwei Xie 《BMEMat(BioMedical Engineering Materials)》 2024年第1期160-179,共20页

Multiphasic scaffolds with tailored gradient features hold significant promise for tissue regeneration applications. Herein, this work reports the transformation of two-dimensional (2D) layered fiber mats into three-d... Multiphasic scaffolds with tailored gradient features hold significant promise for tissue regeneration applications. Herein, this work reports the transformation of two-dimensional (2D) layered fiber mats into three-dimensional (3D) multiphasic scaffolds using a ‘solids-of-revolution’ inspired gas-foaming expansion technology. These scaffolds feature precise control over fiber alignment, pore size, and regional structure. Manipulating nanofiber mat layers and Pluronic F127 concentrations allows further customization of pore size and fiber alignment within different scaffold regions. The cellular response to multiphasic scaffolds demonstrates that the number of cells migrated and proliferated onto the scaffolds is mainly dependent on the pore size rather than fiber alignment. In vivo subcutaneous implantation of multiphasic scaffolds to rats reveals substantial cell infiltration, neo tissue formation, collagen deposition, and new vessel formation within scaffolds, greatly surpassing the capabilities of traditional nanofiber mats. Histological examination indicates the importance of optimizing pore size and fiber alignment for the promotion of cell infiltration and tissue regeneration. Overall, these scaffolds have potential applications in tissue modeling, studying tissue-tissue interactions, interface tissue engineering, and highthroughput screening for optimized tissue regeneration. 展开更多

关键词 expansion gradients multiphasic scaffolds nanofiber mats tissue regeneration

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