Patent application number | Description | Published |
20080248004 | Cell fractions containing cells capable of differentiating into neural cells - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 10-09-2008 |
20090280564 | METHOD FOR INDUCING DIFFERENTIATION OF MESODERMAL STEM CELLS, ES CELLS, OR IMMORTALIZED MESODERMAL STEM CELLS INTO NEURAL CELLS - Mesodermal stem cells or ES cells, prepared from the mononuclear cell fraction isolated from bone marrow fluid or umbilical blood, were found to differentiate into neural stem cells, neurons, or glial cells when cultured in a basal culture medium. In addition, the differentiation of the mesodermal stem cells or ES cells into neural cells was promoted through the addition of an ischemic brain extract to the above-mentioned basal culture medium. Furthermore, the neural cells obtained using the above-described method for inducing differentiation were revealed to have neural regeneration potency in a brain infarction model, a dementia model, a spinal cord injury model and a demyelination model. | 11-12-2009 |
20110158967 | MESENCHYMAL STEM CELL AND THE METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 06-30-2011 |
20120230961 | MESENCHYMAL STEM CELL AND THE METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 09-13-2012 |
20120237486 | MESENCHYMAL STEM CELL AND THE METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 09-20-2012 |
20120237487 | MESENCHYMAL STEM CELL AND THE METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 09-20-2012 |
20120237946 | MESENCHYMAL STEM CELL AND THE METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 09-20-2012 |
20130130382 | AUTOSERUM-CONTAINING BONE MARROW CELL CULTURE SYSTEM, AUTOSERUM-CONTAINING BONE MARROW CELL CULTURE METHOD, AND METHOD FOR PRODUCING MEDICINAL COMPOSITION COMPRISING AUTOSERUM-CONTAINING CULTURED BONE MARROW CELLS AS ACTIVE INGREDIENT - To provide an autoserum-containing bone marrow cell culture system, whereby bone marrow cells, which are collected from a subject without using an anticoagulant, are subjected to an anticoagulation treatment using a medium in a liquid-tight state, cultured and then further cultured using the serum of said subject which is prepared in a liquid-tight state; an autoserum-containing bone marrow cell culture method; and a method for producing a medicinal composition which comprises, as the active ingredient, autoserum-containing cultured bone marrow cells. [Solution] An autoserum-containing bone marrow cell culture system for culturing bone marrow cells, which are collected from a subject without using an anticoagulant, using the serum of said subject, said system comprising a bone marrow cell suspension-storing device, a collected blood-storing device, an autoserum-acquiring device, and a bone marrow cell-culturing device. | 05-23-2013 |
20130195808 | MESENCHYMAL STEM CELL AND A METHOD OF USE THEREOF - Demyelinated axons were remyelinated in the demyelinated rat model by collecting bone marrow cells from mouse bone marrow and transplanting the mononuclear cell fraction separated from these bone marrow cells. | 08-01-2013 |