2023 Cartilage Biology and Pathology Gordon Research Conference and Gordon Research Seminar

2023年软骨生物学与病理学戈登研究会议暨戈登研究研讨会

• 批准号: 10605625
• 负责人: Farshid Guilak
• 金额: $ 2.81万
• 依托单位: GORDON RESEARCH CONFERENCES
• 依托单位国家: 美国
• 财政年份: 2022
• 资助国家: 美国
• 起止时间: 2022-12-15 至 2023-11-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/10605625
• 关键词: Adult; Affect; Aging; Area; Articulation; Basic Science; Biological; Biology; Biomechanics; Biomedical Engineering; Cartilage; Cartilage Diseases; Clinical; Clinical Research; Collaborations; Complement; Dedications; Degenerative polyarthritis; Development; Discipline; Disease; Dwarfism; Economic Burden; Embryonic Development; Engineering; Environment; Epigenetic Process; Epiphysial cartilage; Failure; Friction; Functional disorder; Gene Mutation; Generations; Genetic; Growth; Health; Homeostasis; Human; Human body; Individual; Inflammatory; Injury; International; Intervertebral disc structure; Italy; Joints; Knowledge; Longevity; Malnutrition; Meniscus structure of joint; Mentors; Metabolism; Natural regeneration; Nose; Obesity; Pain Free; Participant; Pathologic Processes; Pathology; Pathway interactions; Physiologic Ossification; Play; Population; Postdoctoral Fellow; Pregnancy; Process; Productivity; Public Health; Quality of life; Renaissance; Reporting; Research; Research Personnel; Resources; Risk Factors; Role; Running; Science; Scientist; Series; Shock; Skeletal Development; Skeletal system; Structure; Surface; Talents; Technology; Thinking; Translational Research; Underrepresented Minority; Woman; absorption; articular cartilage; bone; career; cartilage degradation; cartilage development; disability; empowerment; improved; innovation; insight; joint function; malformation; meetings; neonatal death; new technology; novel therapeutics; posters; skeletal; skeletal disorder; skeletal dysplasia; skeletal tissue; socioeconomics; student participation; success; symposium; translational approach

ABSTRACT This is a request to support the 2023 Gordon Research Conference (GRC) and associated Gordon Research Seminar (GRS) on Cartilage Biology and Pathology, which will be held at the Renaissance Tuscany Il Ciocco, Lucca Italy, March 19-24, 2023. The GRC will be the tenth in a series of highly successful biennial conferences, and it will be preceded an associated GRS, a pre-meeting exclusively dedicated to and organized by trainees. The GRC and GRS will cover broad basic and translational research topics with the theme of “Cartilage biology, structure, and function: From development to regeneration”. The GRC on Cartilage Biology and Pathology owes its success to three major principles. First, it is the only conference that brings together basic-science researchers, clinicians-scientists and biomedical engineers, and covers a broad spectrum of cartilage biology, cartilage pathology and scientific disciplines relevant to cartilage research. Second, and exemplifying the GRC tradition, the conference emphasizes forward thinking, unpublished cutting- edge findings, state-of-the-art technologies and open discussions. It alternates formal presentations with poster sessions and informal discussions, and limits attendance to 200 participants to promote collegial interactions and the establishment of productive collaborations. Third, it is open to researchers at all career stages and encourages mentoring, networking, and collaborations among aspirant, young and senior investigators. This principle is emphasized with the inclusion of a GRS, which has been highly successful in the past. The GRC/GRS on Cartilage Biology and Pathology covers a broad range of topics and new technologies as cartilage is not only the earliest skeletal tissue that supports skeletal development from embryos to adulthood, but also serves an essential skeletal component of a functional adult skeletal system. In this regard, diseases that result in cartilage malformation or degeneration significantly affect the lifespan and quality of life of a large part of the population. The GRC will highlight recent advances and challenges in understanding cartilage biology and diseases. Established scientists and talented new investigators will report and discuss their most recent exciting findings according to this theme and will provide insights into the remaining challenges towards understanding the various aspects of cartilage biology, disease, and translational approaches. We expect the 2023 GRC/GRS on Cartilage Biology and Pathology to empower researchers across disciplines to make significant progress towards understanding cartilage biology and improving human health.

摘要 这是一项支持2023年戈登研究会议（GRC）和相关戈登研究的请求 研讨会（GRS）的Carbohydrates生物学和病理学，这将是在文艺复兴时期的托斯卡纳伊尔Ciocco， 卢卡，意大利，2023年3月19日至24日。GRC将是一系列非常成功的双年展中的第十届 会议，并将在相关的GRS之前，一个专门致力于和组织的会前会议， 由学员。GRC和GRS将涵盖广泛的基础和转化研究主题，主题为 “Carbohydrate biology，structure，and function：From development to regeneration”.关于Carcass 生物学和病理学的成功归功于三个主要原则。首先，它是唯一一个 一起基础科学研究人员，临床科学家和生物医学工程师，并涵盖了广泛的 软骨生物学、软骨病理学和与软骨研究相关的科学学科的范围。 其次，作为GRC传统的例证，会议强调前瞻性思维，未发表的切割- 前沿发现、最先进的技术和公开讨论。它交替正式介绍与海报 会议和非正式讨论，并将出席人数限制在200人，以促进学院互动 以及建立富有成效的合作关系。第三，它对所有职业阶段的研究人员开放， 鼓励有抱负的年轻和资深调查人员之间的指导、网络和合作。这 通过纳入GRS，强调了这一原则，这在过去非常成功。的 骨关节生物学和病理学GRC/GRS涵盖了广泛的主题和新技术， 软骨不仅是支持从胚胎到成年的骨骼发育的最早的骨骼组织， 而且也是功能性成人骨骼系统的基本骨骼成分。在这方面， 导致软骨畸形或退化的疾病会显著影响大关节的寿命和生活质量。 人口的一部分。GRC将强调了解软骨的最新进展和挑战 生物学和疾病知名科学家和才华横溢的新研究人员将报告和讨论他们最感兴趣的问题。 最近令人兴奋的发现，根据这一主题，并将提供洞察其余的挑战， 了解软骨生物学，疾病和翻译方法的各个方面。我们预计 2023年GRC/GRS关于Carcinoma生物学和病理学，使跨学科的研究人员能够 在理解软骨生物学和改善人类健康方面取得了重大进展。