Stempeutics Research Private Limited Patent applications |
Patent application number | Title | Published |
20150209742 | MULTI PLANE MIXER AND SEPARATOR (MPMS) SYSTEM - The present disclosure provides a multi plane mixer and separator (MPMS) system. The system comprises a base frame of predetermined shape configured to form a base for the MPMS system. A motor is mounted to the base frame for rotating the MPMS system. A ball joint mechanism is fixed to the motor using a link and other end of the ball joint mechanism is coupled to a fork. A container holding frame is connected to the fork using bars, wherein said container holding frame is capable of tilting up to 120° with respect to the base frame. And an MPMS container of predetermined shape detachably mounted on the container holding frame for mixing fluids of different density. | 07-30-2015 |
20110195503 | GOLD NANOPARTICLE, A COMPOSITION AND A METHOD TO PERPETUATE STEMNESS THEREOF - The present invention relates to gold nanoparticle (GNP) and a method to perpetuate stemness of stem cells comprising step of growing the stem cells in presence of gold particle or Swarna Bhasma. It also relates to compositions for perpetuating stemness of stem cells. | 08-11-2011 |
20100248229 | INVITRO HUMAN EMBRYONIC MODEL AND A METHOD THEREOF - The present invention relates to the field of stem cells particularly development of a novel human embryonic model using human embryoid bodies obtained from the human embryonic stem cell. The novel human embryonic model disclosed thus can provide a screening assay for determining the toxic activity of the compound and/or drug. | 09-30-2010 |
20100105132 | Human Mesenchymal stem cells and preparation thereof - The present invention provides a process of isolation, proliferation and/or maintenance of mesenchymal stem cells (MSCs). The invention further provides a culture medium for proliferation and/or maintenance of human mesenchymal stem cells in xeno-free conditions. The culture medium provided in the present invention proliferates and/or maintains mesenchymal stem cell expansion while maintaining a multipotent phenotype. | 04-29-2010 |
20100068805 | XENO-FREE CULTURE CONDITIONS FOR HUMAN EMBRYONIC STEM CELLS AND METHODS THEREOF - The present disclosure provides novel culture system and methods for culturing and propagating hESCs in a substantially undifferentiated state for several passages. The ability to grow such cells without differentiation has important applications for therapeutic uses of ES cells for treating human disorders using tissue transplantation and/or gene therapy techniques. In particular, the disclosure further relates to conditioned medium obtained from human germ lineage derived feeder cells (GLDF). The hESC lines are derived, cultured and propagated in substantially undifferentiated state using the conditioned media from GLDF cells of the disclosure. In particular, the disclosure relates to the xeno-free derivation, culture and propagation of hESCs using conditioned medium of GLDF cells obtained thereof. | 03-18-2010 |
20100047906 | GERM LINEAGE DERIVED FEEDER CELLS AND METHODS THEREOF - The present disclosure relates to human germ layer derived feeder cells (GLDF cells) and method of generation thereof. Further, it relates to a method for culturing and propagating human embryonic stem cells (hESCs) in a substantially undifferentiated state for several passages on the human GLDF cells. In particular, the present disclosure relates to human GLDF cells which are capable of supporting proliferation of hESCs in a substantially undifferentiated and pluripotent state for several passages. | 02-25-2010 |
20090253151 | Self-Renewing Master Adult Pluripotent Stem Cells - The present invention relates to a method for obtaining master adult pluripotent stem (MAPS) cells from adult human corneal epithelial tissues. The MAPS cells are obtained on the basis of pluripotent markers. Further the invention provides MAPS cells that are capable of self renewal and differentiation and have characteristics similar to that of human embryonic stem cells. The MAPS cells also retain the ability to differentiate into cells of different lineages. The composition comprising MAPS cells are useful for therapeutic purposes. Further, the invention provides a culture medium for proliferation of MAPS cells. | 10-08-2009 |