NIDCR Dentist Scientist K99:Improve TMJ Fibrocartilage Regeneration Strategies

NIDCR 牙医科学家 K99：改善 TMJ 纤维软骨再生策略

• 批准号: 8880174
• 负责人: Mildred Christine Embree
• 金额: $ 24.61万
• 依托单位: COLUMBIA UNIVERSITY HEALTH SCIENCES
• 依托单位国家: 美国
• 财政年份: 2014
• 资助国家: 美国
• 起止时间: 2014-07-01 至 2019-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8880174
• 关键词: American; Animal Model; Architecture; Area; Biocompatible Materials; Biological; Biology; Biomedical Engineering; Caliber; Cells; Chronic; Clinical; Clinical Treatment; Complex; Data; Degenerative Disorder; Dentists; Development; Disease; Doctor of Philosophy; Environment; Extracellular Matrix; Faculty; Fibrocartilages; Gene Expression Profile; Genetic; Goals; Grant; Hyaline Cartilage; Injury; Joints; Knowledge; Laboratories; Maintenance; Mandibular Condyle; Mentors; Methods; Modality; Molecular; National Institute of Dental and Craniofacial Research; Natural regeneration; Nature; Operative Surgical Procedures; Oryctolagus cuniculus; Outcome; Pain; Pathology; Patients; Peer Review; Phase; Phenotype; Population; Postdoctoral Fellow; Property; Publications; Quality of life; Regulation; Rodent; Scientist; Signs and Symptoms; Stem cells; Surface; Surgical Models; Temporomandibular Joint; Temporomandibular Joint Disorders; Testing; Time; Tissue Engineering; Tissues; Training; Trauma; Treatment Cost; United States National Institutes of Health; Universities; base; career; craniofacial; design; effective therapy; experience; improved; in vivo; in vivo Model; joint injury; mature animal; member; mouse model; novel; palliative; post-doctoral training; protein expression; regenerative; regenerative therapy; research study; scaffold; stem; stem cell biology

Project Summary The temporomandibular joint (TMJ) condyle consists of fibrocartilage tissue and is substantially understudied. Patients with either trauma or chronic degeneration of TMJ fibrocartilage are severely debilitated. Currently, there are no effective treatments that regenerate permanently damaged or degenerated fibrocartilage tissue, largely due to our severe lack of knowledge in TMJ fibrocartilage biology. Few studies have specifically elucidated and defined TMJ fibrocartilage cellular constituents or assessed the regenerative properties of the TMJ. Our preliminary data demonstrate, for the first time, the presence of putative stem/progenitor cells in the TMJ condyle. To test the application of putative TMJ stem/progenitor cells for regeneration, we have established a surgical TMJ condyle replacement model in vivo. Accordingly, our long- term goals are1) to isolate and comprehensively characterize putative TMJ stem/progenitor cells; 2) determine the regenerative potential of characterized TMJ stem/progenitor cells in biomaterial scaffolds. Our overall hypothesis is the TMJ harbors stem/progenitor cells that can be harnessed in biomaterial scaffolds for TMJ regeneration. Our goal is to regenerate TMJ fibrocartilage that gradually approximates the native tissue in multiple, reiterative in vivo experiments in skeletally mature animal models. Overall, these studies are anticipated to not only to enhance our understanding of fibrocartilage biology and regeneration, but may also contribute to the development of novel regenerative therapies for fibrocartilage injuries and diseases.

项目摘要 颞下颌关节（TMJ）髁状突由纤维软骨组织组成，并且基本上是 替补演员创伤或TMJ纤维软骨慢性变性的患者严重 虚弱不堪目前，还没有有效的治疗方法，再生永久损坏或退化 纤维软骨组织，很大程度上是由于我们严重缺乏TMJ纤维软骨生物学知识。很少有研究 已经明确阐明和定义了TMJ纤维软骨细胞成分或评估了再生的 TMJ的特性。我们的初步数据表明，第一次，存在假定的 TMJ髁突中的干/祖细胞。为了测试推定的TMJ干/祖细胞在以下方面的应用： 本研究建立了颞下颌关节髁状突置换的动物模型。因此，我们的长期- 长期目标是1）分离和全面表征推定的TMJ干/祖细胞; 2）确定 TMJ干/祖细胞在生物材料支架中的再生潜力。我们的整体 一种假说是颞下颌关节含有干/祖细胞，这些干/祖细胞可以用于颞下颌关节的生物材料支架中 再生我们的目标是再生颞下颌关节纤维软骨，逐渐接近天然组织， 在发育成熟的动物模型中进行了多次重复的体内实验。总的来说，这些研究 预计不仅可以提高我们对纤维软骨生物学和再生的理解， 有助于纤维软骨损伤和疾病的新型再生疗法的发展。