摘要:
The invention relates to a fibrin-based scaffold suitable for supporting a population of cells comprising mesenchymal stem cells (MSC) and/or umbilical tissue derived cells (UTC) at the site of administration for a prolonged period of time. The scaffold is capable of supporting at least 1×106 cells/ml scaffold. The invention also relates to the preparation of the scaffold and to its use. Preparation of the scaffold is carried out with a fibrinogen component comprising fibrinogen having a final concentration of higher than 17.5 mg/ml scaffold. The scaffold and the embedded MSC and/or UTC can be used for increasing vascularization and/or wound healing at the site of administration.
摘要:
Compositions and methods of using cells derived from umbilical cord tissue, to stimulate and support angiogenesis, to improve blood flow, to regenerate, repair, and improve skeletal muscle damaged by a peripheral ischemic event, and to protect skeletal muscle from ischemic damage in peripheral vascular disease patients are disclosed. In particular, methods of treating a patient having a peripheral vascular disease with umbilical derived cells and fibrin glue are disclosed.
摘要:
Compositions and methods of using cells derived from umbilical cord tissue, to stimulate and support angiogenesis, to improve blood flow, to regenerate, repair, and improve skeletal muscle damaged by a peripheral ischemic event, and to protect skeletal muscle from ischemic damage in peripheral vascular disease patients are disclosed. In particular, methods of treating a patient having a peripheral vascular disease with umbilical derived cells and fibrin glue are disclosed.
摘要:
The invention relates to a proteolytic enzyme which is capable of forming fibrin when it reacts with fibrinogen, a fibrin-glue kit and a fibrin-glue formulation comprising an enzymatically-permissive concentration of a visualization agent and to their use in methods for prevention and/or reduction of adhesions and/or methods for promotion of blood coagulation sealing or filling body surfaces.
摘要:
The present invention is directed to a reinforced absorbable multilayered hemostatic wound dressing comprising a first absorbable nonwoven fabric, a second absorbable woven or knitted fabric, thrombin and/or fibrinogen.
摘要:
The present invention is directed to a reinforced absorbable multilayered hemostatic wound dressing comprising a first absorbable nonwoven fabric, a second absorbable woven or knitted fabric, thrombin and/or fibrinogen.
摘要:
The invention relates to purification of an intact, non-degraded macromolecule from a biological mixture comprising the macromolecule in the presence of its lytic enzyme. The method comprises providing the biological mixture as a heterogeneous mixture comprising the lytic enzyme, at least partially, in soluble form and the macromolecule, at least partially, in non-soluble form; batch-wise contacting the heterogeneous mixture with an immobilized inhibitor of the lytic enzyme; increasing the solubility of the macromolecule in the mixture; and removing the immobilized inhibitor from the mixture.
摘要:
A method is described for the measurement of thrombin activity in the presence of fibrinogen, or for the measurement of the functionality of fibrinogen in the presence of thrombin.
摘要:
The invention relates to purification of an intact, non-degraded macromolecule from a biological mixture comprising the macromolecule in the presence of its lytic enzyme. The method comprises providing the biological mixture as a heterogeneous mixture comprising the lytic enzyme, at least partially, in soluble form and the macromolecule, at least partially, in non-soluble form; batch-wise contacting the heterogeneous mixture with an immobilized inhibitor of the lytic enzyme; increasing the solubility of the macromolecule in the mixture; and removing the immobilized inhibitor from the mixture.
摘要:
The invention relates to an immunoglobulin composition reduced in thrombogenic agents and to methods for its preparation. One method comprises subjecting an immunoglobulin containing solution to a negative cation exchanger chromatography at a pH in the range of higher than 3.8 to equal to or lower than 5.3. The solution can also be subjected to a negative anion exchanger chromatography at a pH in the range of 7 to 8.2.