Infusible Platelet Membrane versus Conventional Platelet Concentrate: Benefits and Disadvantages
Authors
Abstract:
Blood transfusion centers are under considerable pressure to produce platelet concentrates with a shelf life limit of 3 to 5 days. Many approaches have been investigated experimentally to produce new hemostatically active platelet products that are capable of long term storage. In this article infusible platelet membrane will be explained as a platelet substitute versus conventional liquid-stored platelet concentrates with regard to their benefits and disadvantages in transfusion medicine. This review shows that lyophilized infusible platelet membrane as a platelet substitute might offer many important benefits over common platelet concentrates with few disadvantages. Infusible platelet membrane may have efficacy, safety and acceptable tolerability without thrombogenecity, immunogenicity or toxicity. The other main benefits of this product are improved shelf life, ease of storage, high-precision dose calculation, easy reformulation, reduced viral and bacterial load, decreased refractoriness to platelet transfusion, reduced contaminating red and white blood cells, reduced side effects due to removal of undesirable effects of intracellular and extracellular proinflamatory mediators and removal of platelet-derived microparticlecs as a source of CD40/CD40L ligands, which can enhance post-transfusion reactions, achieving hemostatic response without increasing the circulating platelet count, not being removed from circulation by immune mechanisms or sepsis and not requiring blood typing. In spite of these benefits, there are still some difficulties in demonstrating its efficacy, short-term circulation and hemostatic function. Therefore, further human clinical studies will be needed to fully define the exact role of infusible platelet membrane in the management of patients with thrombocytopenia. Keywords: Infusible platelet membrane, platelet, substitute, platelet concentrates, side effects.
similar resources
infusible platelet membrane versus conventional platelet concentrate: benefits and disadvantages
blood transfusion centers are under considerable pressure to produce platelet concentrates with a shelf life limit of 3 to 5 days. many approaches have been investigated experimentally to produce new hemostatically active platelet products that are capable of long term storage. in this article infusible platelet membrane will be explained as a platelet substitute versus conventional liquid-stor...
full textFlow Cytometric Measurement of CD41/CD61, CD42b Platelet Receptors and Platelet Factor 3 Activity in Lyophilized Infusible Platelet Membrane Preparation
Background: The short life time of human platelet units has led to a chronic shortage of fresh platelets in blood transfusion centers. Many approaches have been investigated experimentally to produce new hemostatically active platelet products that are capable of long term storage. Infusible platelet membrane (IPM) prepared from fresh or outdated human platelets have been developed as an altern...
full textConversion from Platelet-Rich Plasma Platelet Production to Buffy Coat Platelet Component Production: Benefits and Limitations
Blood transfusion centers are under considerable pressure to produce platelet concentrates with high quality and safety due to the short shelf life of 3-5 days as well as possible bacterial and viral contaminations. For a variety of reasons, many Europeans have changed their methods of component production from whole blood using the North American standard platelet-rich plasma method to the buf...
full textconversion from platelet-rich plasma platelet production to buffy coat platelet component production: benefits and limitations
blood transfusion centers are under considerable pressure to produce platelet concentrates with high quality and safety due to the short shelf life of 3-5 days as well as possible bacterial and viral contaminations. for a variety of reasons, many europeans have changed their methods of component production from whole blood using the north american standard platelet-rich plasma method to the buf...
full textA Novel Platelet Concentrate: Titanium-Prepared Platelet-Rich Fibrin
We developed a new product called titanium-prepared platelet-rich fibrin (T-PRF). The T-PRF method is based on the hypothesis that titanium may be more effective in activating platelets than the silica activators used with glass tubes in Chouckroun's leukocyte- and platelet-rich fibrin (L-PRF) method. In this study, we aimed to define the structural characteristics of T-PRF and compare it with ...
full text402 INITIAL PLATELET CONCENTRATE CULTURE Margaret Cunningham
In a series of important studies Murphy and his colleagues demonstrated that the preparation and storage of platelet-rich plasma and platelet concentrates at 22°C rather than 4°C improved their life span in vivo (Murphy and Gardner, 1969; Murphy, Sayar, and Gardner, 1970). The potential clinical relevance of this finding has been confirmed by Handin and Valeri (1971), and it is likely that this...
full textMy Resources
Journal title
volume 6 issue None
pages 87- 93
publication date 2014-01
By following a journal you will be notified via email when a new issue of this journal is published.
Hosted on Doprax cloud platform doprax.com
copyright © 2015-2023