Abstract: A device may be configured to allow individual measuring of at least one property of at least one cell, such as measuring a contraction force of a platelet. The device may include a plurality of wells. Each well may include a hydrogel layer, the hydrogel layer including a hydrogel having a top surface that includes a pattern of cell interaction regions. The wells may differ in stiffness properties of the hydrogel and/or biochemical conditions. Each cell interaction region may include a group of at least two cell interaction sites. The spacing between each cell interaction region may be greater than a spacing between the at least two cell interaction sites of each cell interaction region. In this way, cell-cell interactions may be reduced and thereby increasing number of individual cells capable of being measured.

Abstract: The present invention provides methods and compositions for tissue regeneration without cell transplantation.

Abstract: Disclosed are a series of kneadable, pliable polymers for use in forming compositions that can be used as bone wax or as a cellular scaffold. Polymers can include a polysaccharide backbone and can be biocompatible and thrombogenic. In addition, the compositions can be osteoconductive as well as biodegradable. The disclosed compositions can be used to help control bleeding from bone surfaces as well as to promote bone regeneration and fusion. The compositions can inhibit the growth of microorganisms in implantation sites and can be loaded with additional bioactive agents to further promote healing and infection prevention.