Abstract: Soluble, self-assembling collagens derived from tissues are extensively characterized such that one can predict and customize the final collagen-fibril matrix with respect to fibril microstructure (i.e., fibril density, interfibril branching), viscoelasticity and proteolytic degradability. As shown herein these matrices template and direct the deposition of mesoporous silica at the level of individual collagen fibrils. The fibril density, silicic acid concentration, and time of exposure to silicifying solution were varied and the resulting hybrid materials were analyzed by scanning electron microscopy, energy-dispersive x-ray spectroscopy, and rheology. Microstructural properties of the collagen-fibril template are preserved in the silica surface of hybrid materials.

Abstract: Soluble, self-assembling collagens derived from tissues are extensively characterized such that one can predict and customize the final collagen-fibril matrix with respect to fibril microstructure (i.e., fibril density, interfibril branching), viscoelasticity and proteolytic degradability. As shown herein these matrices template and direct the deposition of mesoporous silica at the level of individual collagen fibrils. The fibril density, silicic acid concentration, and time of exposure to silicifying solution were varied and the resulting hybrid materials were analyzed by scanning electron microscopy, energy-dispersive x-ray spectroscopy, and rheology. Microstructural properties of the collagen-fibril template are preserved in the silica surface of hybrid materials.

Abstract: Methods are provided for the encapsulation of living cells with a silica glass layer. The methods comprise adding a sol solution to cells in buffered media, forming a sol-gel layer on the cells and then diluting the media or removing the cells from the media.

Abstract: Materials and Methods are provided for producing cell-surface directed, non-naturally occurring, bioinorganic membranes for association with the cell surfaces of living cells. The methods comprise exposing a cell to an acidic biomineralization buffer environment for cell-mediated deposition of the biomineral membrane onto the surface of the cell. The methods also comprise attaching a peptide, having a net positive charge under the acidic conditions, to the cell surface for serving as a template in directing the cell-mediated deposition of the biomineral membrane onto the surface of the cell.

Abstract: A neural probe deployment system comprising a magnetic probe, a magnetic field generator acting on the magnetic probe, a first guiding tube disposed on a first side of the magnetic field generator, wherein the magnetic probe is loaded inside the first guiding tube, and a second guiding tube disposed on a second side of the magnetic field generator, wherein activation of the magnetic field generator propels the magnetic probe from the first guiding tube through the second guiding tube, thereby deploying the magnetic probe.

Abstract: Materials and methods are provided for producing cell-surface directed, non-naturally occurring, bioinorganic membranes for association with the cell surfaces of living cells. The methods comprise exposing a cell to an acidic biomineralization buffer environment for cell-mediated deposition of the biomineral membrane onto the surface of the cell. The methods also comprise attaching a peptide, having a net positive charge under the acidic conditions, to the cell surface for serving as a template in directing the cell-mediated deposition of the biomineral membrane onto the surface of the cell.

Abstract: Methods are provided for the encapsulation of living cells with a silica glass layer. The methods comprise adding a sol solution to cells in buffered media, forming a sol-gel layer on the cells and then diluting the media or removing the cells from the media.

Abstract: A modified sol-gel material and method of making the same is provided herein. More particularly, sol-gels disclosed herein have been modified to have one or more bioactive peptides covalently bound to the surface of the sol-gel. In one embodiment the peptide presenting sol-gels are prepared as thin film coatings and in a further embodiment the sol-gels are combined with living cells. The present disclosure is also directed to a novel one vessel reaction process for preparing the sol-gel-based peptide material.

Abstract: A neural probe deployment system comprising a magnetic probe, a magnetic field generator acting on the magnetic probe, a first guiding tube disposed on a first side of the magnetic field generator, wherein the magnetic probe is loaded inside the first guiding tube, and a second guiding tube disposed on a second side of the magnetic field generator, wherein activation of the magnetic field generator propels the magnetic probe from the first guiding tube through the second guiding tube, thereby deploying the magnetic probe.

Abstract: A method of encapsulating a population of cells in a porous matrix is disclosed. The method comprises the steps of providing a silica sol mixture, aerosolizing the silica sol mixture to form a silica sol vapor, and coating the cell population with the silica sol vapor, wherein the vapor condenses to form a sol-gel matrix encapsulating the cell population.

Abstract: A modified sol-gel material and method of making the same is provided herein. More particularly, sol-gels disclosed herein have been modified to have one or more bioactive peptides covalently bound to the surface of the sol-gel. In one embodiment the peptide presenting sol-gels are prepared as thin film coatings and in a further embodiment the sol-gels are combined with living cells. The present disclosure is also directed to a novel one vessel reaction process for preparing the sol-gel-based peptide material.