NuTech Spine, Inc, Patent applications |
Patent application number | Title | Published |
20150216911 | Multipotent Prenatal Stem Cells - The present invention relates to the isolation, propagation and use of prenatal stem cells. The cells are CD105 negative. In certain embodiments the cells are also SSEA-4 positive or negative, and c-kit negative. The cells may be isolated from a prenatal sample, for instance third trimester amniotic fluid or placental membrane. The cells may be combined with a biologically compatible solution or a biologically compatible matrix and utilized to treat a human subject. The invention also contemplated enriched populations of prenatal stem cells. The enriched cell population may be propagated in the appropriate culture medium and the resulting progeny cells utilized therapeutic applications. | 08-06-2015 |
20140277502 | Anterior Lumbar Fusion Method and Device - A method and devices for placing spinal implants including placing the implants completely within a spaced defined between adjacent vertebral bodies where the implants are supported by the cortical bone of the vertebral bodies. An insertion instrument places the implants in pairs with a variable-sized space placed in between. The implants are made of a biocompatible material and are particularly suited for anterior lumbar interbody fusion surgery. The spinal implants used to facilitate spinal fusion, correct deformities, stabilize and strengthen the spine. | 09-18-2014 |
20140277165 | Sacroiliac Joint Stabilization Method - A method for treating back pain by stabilizing the sacroiliac joint. The method includes fusing a sacrum bone to an ilium bone or otherwise mechanically immobilizing the sacroiliac joint by inserting at least two implants into voids formed within or between the articular surfaces of each sacroiliac joint of a patient without substantially distracting the joint. The voids are arranged within each joint at either a converging orientation or a diverging orientation. A kit containing the implants and tools required to insert the implants into the joint are also described. | 09-18-2014 |
20140274899 | Preparations Containing Hepatocyte Growth Factor and Hyaluronic Acid and Methods of Making and Using Same - Preparations containing hepatocyte growth factor (HGF) and hyaluronic acid (HA) and methods of making and using same. The HGF and HA preparations can be prepared together in solution as an injectable fluid without gelatinization, or impregnated within a porous hydrophilic matrix material with, or without, cross-linking of the HA with the matrix material. The preparations can be used as a dermal filler or to generate and promote healing of cartilage, vertebral discs, connective tissues such as tendons and ligaments and bone in vivo. | 09-18-2014 |
20130144386 | Osteoconductive Implants and Methods of Using Same - Implants for promoting bone growth and methods of using same, the implants including a perforated placental membrane sheet wrapped around an osteoconductive material composed of bone chips, bone granules, bone powders or combinations thereof, the osteoconductive material being configured for providing a scaffold upon which bone growth can occur. The placental membrane sheet acts to maintain the osteoconductive material in a cohesive, organized configuration within a site of a patient where bone growth is to be induced. The perforations in the placental membrane sheet create passageways in the exterior of the implant through which the osteoconductive material can communicate with adjacent bone surfaces which are to be fused. | 06-06-2013 |
20130138222 | Osteoconductive Implants and Methods of Using Same - Implants for promoting bone growth and methods of using same, the implants including a perforated placental membrane sheet wrapped around an osteoconductive material composed of bone chips, bone granules, bone powders or combinations thereof, the osteoconductive material being configured for providing a scaffold upon which bone growth can occur. The placental membrane sheet acts to maintain the osteoconductive material in a cohesive, organized configuration within a site of a patient where bone growth is to be induced. The perforations in the placental membrane sheet create passageways in the exterior of the implant through which the osteoconductive material can communicate with adjacent bone surfaces which are to be fused. | 05-30-2013 |
20130136773 | Expandable Placental Membrane and Methods of Making and Storing Same - A placental membrane including a plurality of slits for increasing the membrane's capacity to expand. The slits are provided through the membrane and provided in sufficient numbers across the surfaces of the membrane to produce a mesh-like pattern in the membrane. The mesh-like pattern enables the placental membrane to be stretched and therefore increased in length and width. For ease of handling and storage, the expandable placental membrane is removably adhered to a backing, rolled into a cylinder and placed within a capped vial containing a solution of amniotic fluid cells for improving the effectiveness of the membrane. | 05-30-2013 |
20130084314 | Expandable Placental Membrane and Methods of Making and Storing Same - A placental membrane including a plurality of slits for increasing the membrane's capacity to expand. The slits are provided through the membrane and provided in sufficient numbers across the surfaces of the membrane to produce a mesh-like pattern in the membrane. The mesh-like pattern enables the placental membrane to be stretched and therefore increased in length and width. For ease of handling and storage, the expandable placental membrane is removably adhered to a backing, rolled into a cylinder and placed within a capped vial containing a solution of amniotic fluid cells for improving the effectiveness of the membrane. | 04-04-2013 |