Patent application number | Description | Published |
20080274979 | TREATMENT OF LEAKY OR DAMAGED TIGHT JUNCTIONS AND ENHANCING EXTRACELLULAR MATRIX - Self assembling peptides and peptidomimetics can be utilized for the treatment and support of disorders associated with leaky or damaged tight junction and weak, diseased, or injured extracellular matrix. The self-assembling materials generally have alternating hydrophilic or hydrophobic residues or hydrophobic and/or hydrophilic sections which allow the material to react or interact with the glycoproteins found in the ECM. Diseases in which treatment with these materials applied to or near the site in need of treatment include diabetic retinopathy, sepsis, burns, and certain neurodegenerative diseases such as Parkinson's and Alzheimer's. The formulations can be administered by injection, spraying, topically or by catheter or via a wound dressing or other material to which it is applied and then applied to the site in need of treatment. | 11-06-2008 |
20090111734 | COMPOSITIONS AND METHODS FOR PROMOTING HEMOSTASIS AND OTHER PHYSIOLOGICAL ACTIVITIES - Compositions that include nanoscale structured materials or precursors thereof (e.g., self-assembling peptides) are described. The compositions can include other substances (e.g., a vasoconstrictor). Also described are methods for using the compositions to promote hemostasis, to protect the skin or wounds from contamination, to decontaiminate a site upon removal of previously applied compositions that provided a protective coating, and to inhibit the movement of bodily substances other than blood. The compositions are also useful in isolating tissue, removing tissue, preserving tissue (for, e.g., subsequent transplantation or reattachment), and as bulking, stabilizing or hydrating agents. Medical devices that include the compositions (e.g., a stent or catheter), bandages or other wound dressings, sutures, and kits that include the compositions are also described. | 04-30-2009 |
20120010140 | SELF-ASSEMBLING PEPTIDES FOR REGENERATION AND REPAIR OF NEURAL TISSUE - The present invention provides methods and compositions for enhancing regeneration and/or repair of neural tissue. One method include providing a nanoscale structured material at the site of injury, wherein the nanoscale structured material provides an environment that is permissive for regeneration of neural tissue and allows axon growth from a location on one side of a site of injury or barrier to a location on the other side of the site of injury or barrier. A second method includes introducing a composition comprising self-assembling peptides into the subject at the site of injury, wherein the peptides are amphiphilic peptides that comprise substantially equal proportions of hydrophobic and hydrophilic amino acids and are complementary and structurally compatible. A variety of compositions comprising a nanoscale structured material or precursor thereof, and an additional substance such as a regeneration promoting factor, are also provided. In certain embodiments of the invention the nanoscale structured material or precursor thereof comprises self-assembling peptides. The invention further provides compositions and methods for repair of an intervertebral disc, including nucleus pulpusos repair. | 01-12-2012 |
Patent application number | Description | Published |
20110150844 | COMPOSITIONS AND METHODS FOR CONTROLLING PROLIFERATION AND DIFFERENTIATION OF CELLS - Methods and compositions for modulating cell differentiation, proliferation and morphology in vitro or in vivo are described. The methods include modifying the extracellular nanoenvironment of stem cells with a self-assembling peptide nanofiber scaffold. The extracellular nanoenvironment can be modified by changing the percentage of self-assembling peptides used to form the nanofiber scaffold, the concentration of cells in the nanofiber scaffold, the pH, or the amounts of serum. Modulating the extracellular nanoenvironment of cells in nanofiber scaffold allows for increased targeting of cell placement and therapeutic delivery, amplified by cell encapsulation and implantation. | 06-23-2011 |
20150056263 | IMPLANTABLE MESHES FOR CONTROLLING THE MOVEMENT OF FLUIDS - Meshes for use to control the movement of bodily fluids, such as blood, are described herein. The mesh can be partially or completely biodegradable or non-biodegradable. In one embodiment, the mesh is formed from one or more self-assembling peptides. The peptides can be in the form of fibers, such as nanofibers. The peptides can be assembled prior to formation of the mesh or after the mesh has been formed but before it is applied. Alternatively, the mesh can be prepared from unassembled peptides, which assemble at the time of application. The peptides can assemble upon contact with bodily fluids (e.g., blood) or can be contacted with an ionic solution to initiate assembly. | 02-26-2015 |