The Biomaterials and Tissue Engineering GRC is a premier, international scientific conference focused on advancing the frontiers of science through the presentation of cutting-edge and unpublished research, prioritizing time for discussion after each talk and fostering informal interactions among scientists of all career stages. The conference program includes a diverse range of speakers and discussion leaders from institutions and organizations worldwide, concentrating on the latest developments in the field. The conference is five days long and held in a remote location to increase the sense of camaraderie and create scientific communities, with lasting collaborations and friendships. In addition to premier talks, the conference has designated time for poster sessions from individuals of all career stages, and afternoon free time and communal meals allow for informal networking opportunities with leaders in the field.
The first GRC on the topic of biomaterials was held in 1966. Over the past five decades, the field has grown substantially, both in numbers and in scope, leading to a vibrant, multidisciplinary community of researchers who share interests in developing materials for a wide range of medical applications. Building on this rich history, the 2023 GRC and GRS on Biomaterials and Tissue Engineering will focus on the design, function, and translation of bio-instructive materials, with a particular emphasis on material modulation of biological activity.
More than simple drug carriers or scaffolds, biomaterials have been engineered to be instructive in a variety of different ways. For example, conjugation of biomolecules and drugs to biomaterials can augment or suppress their native biological activities, in part by changing the way in which they are presented to cells and tissues. Materials-based strategies to alter bioavailability, such as immobilization, controlled release, or gradient generation, along with the precise method of bioconjugation, have also been shown to actively influence how instructive cues are presented and thereby how cells and tissues respond. Furthermore, biomaterials have also been shown to induce long lasting changes in biological systems, attaining a form of biologic memory. This GRC will highlight such cutting-edge advances to understand how material properties and material-biomolecule conjugation strategies affect biological activities, and have thereby enabled the application of instructive biomaterials in tissue engineering, regenerative medicine, immune engineering, and diagnostics, to name a few. Efforts to understand native biological activity at a molecular scale to inform biomaterial design will also be featured. However, while biomaterials offer an approach to modulate biological outcomes, it is clear that overly complex designs are inherently more difficult to translate. This GRC will also explore the multifaceted challenges associated with the clinical translation and commercialization of biomaterials.
Finally, in addition to featuring a Power Hour, speakers will be encouraged to share their personal and professional journeys to foster a more inclusive environment and facilitate discussion regarding effective time management strategies and work/life balance. This conference will also adhere to the GRC standard of holding vigorous formal and informal discussions between researchers at all career stages, and feature poster sessions and short talks selected from the submitted abstracts.
