Patent application number | Description | Published |
20130041265 | METHODS AND APPARATUS FOR INTRODUCING CELLS AT A TISSUE SITE - The present invention relates to methods and devices for maintaining cellular viability and function for therapeutic purposes. The invention provides methods and devices for maintaining the proliferative and developmental potential of cellular preparations by protecting the from physical and physiological damage during storage, preparation, and delivery to a site (e.g., a tissue site). The invention also provides methods and devices for evaluating tissues and organs, and selecting appropriate sites for cellular delivery. | 02-14-2013 |
20130177972 | BIOREACTORS, SYSTEMS, AND METHODS FOR PRODUCING AND/OR ANALYZING ORGANS - Articles and methods for growing or analyzing tissues and organs using bioreactors or other devices and components are provided. In some embodiments, a bioreactor is configured to provide a growth chamber having one or more inlets, outlets, sensors, organ attachment sites, and/or organ identifiers. | 07-11-2013 |
20140124670 | ANALYTICAL METHODS - Aspects of the disclosure provide techniques for detecting differences and/or changes in biological and non-biological material using infrared imaging. Aspects of the disclosure are useful for monitoring and evaluating synthetic scaffolds and engineered tissue and organs for tissue engineering and transplantation. | 05-08-2014 |
20140141152 | METHODS AND COMPOSITIONS FOR PROMOTING THE STRUCTURAL INTEGRITY OF SCAFFOLDS FOR TISSUE ENGINEERING - Aspects of the disclosure relate to synthetic tissue or organ scaffolds and methods and compositions for promoting or maintaining their structural integrity. Aspects of the disclosure are useful to prevent scaffold damage (e.g., delamination) during or after implantation into a host. Aspects of the disclosure are useful to stabilize tissue or organ scaffolds that include electrospun fibers. | 05-22-2014 |
20150064142 | ELASTIC SCAFFOLDS FOR TISSUE GROWTH - According to some aspects, tissue scaffolds are provided that comprise one or more types of nanofibers. In some embodiments, one or more design features are incorporated into a tissue scaffold (e.g., an electrospun tissue scaffold) to control the elasticity of the scaffold in at least one direction, making the scaffold suitable for withstanding mechanical forces when implanted in the body of a subject | 03-05-2015 |
Patent application number | Description | Published |
20110087166 | LABORATORY SYRINGE PUMPS - A syringe pump which includes a pusher block is slidably mounted on bearings on one or more guide rails. The pusher block is advanced or retracted by a lead screw having an axis which is offset from the axis of the one or more guide rails which are supported at their respective ends by support blocks, wherein forward and/or trailing sides of the pusher block bearings are extended, and wherein the guide rail support blocks include recesses for accommodating the extended ends of the pusher block slide bearings. In another embodiment, the syringe pump includes quick connect-disconnect fixtures for loading and unloading syringes. Other mechanical and programmable improvements are described in the specification. | 04-14-2011 |
20120177507 | LABORATORY SYRINGE PUMPS - A syringe pump which includes a pusher block is slidably mounted on bearings on one or more guide rails. The pusher block is advanced or retracted by a lead screw having an axis which is offset from the axis of the one or more guide rails which are supported at their respective ends by support blocks, wherein forward and/or trailing sides of the pusher block bearings are extended, and wherein the guide rail support blocks include recesses for accommodating the extended ends of the pusher block slide bearings. In another embodiment, the syringe pump includes quick connect-disconnect fixtures for loading and unloading syringes. Other mechanical and programmable improvements are described in the specification. | 07-12-2012 |
20130092244 | LABORATORY SYRINGE PUMPS - A syringe pump which includes a pusher block is slidably mounted on bearings on one or more guide rails. The pusher block is advanced or retracted by a lead screw having an axis which is offset from the axis of the one or more guide rails which are supported at their respective ends by support blocks, wherein forward and/or trailing sides of the pusher block bearings are extended, and wherein the guide rail support blocks include recesses for accommodating the extended ends of the pusher block slide bearings. In another embodiment, the syringe pump includes quick connect-disconnect fixtures for loading and unloading syringes. Other mechanical, and programmable improvements are described in the specification. | 04-18-2013 |