Platelet lysate

Human Platelet Lysate (or hPL) is a substitute supplement for fetal bovine serum (FBS) in experimental and clinical cell culture. It corresponds to a turbid, light-yellow liquid that is obtained from human blood platelets after freeze/thaw cycle(s). The freeze/thaw cycle causes the platelets to lyse, releasing a large quantity of growth factors necessary for cell expansion.

Process

Platelets have a life span of 5 to 9 days. Because of this, the U.S. Food and Drug Administration (FDA) expires transfuse-able platelets 5 days post-collection. Typically, hPL is produced from expired platelets that have been stored in frozen conditions no later than 7 days post-collection.

hPL is created from single or pooled donor-donated platelets isolated from whole blood or by apheresis, distributed in a standard platelet collection bag. There are some differences between hPL manufacturing protocols, but they all share the same core of being frozen at very low temperatures and thawed. This process may be repeated two or three times to cause complete platelet lysis. The resultant hPL can then undergo different manufacturing steps to achieve multiple grades of hPL.

The most common form of hPL undergoes few processing steps, producing a product made of the supernatent following the freeze/thaw process. The included clotting factors require to add heparin to the cell culture media to prevent coagulation during incubation.

Another form of hPL is one that can be used in cell culture without the need of heparin, or any anticoagulant, addition. This grade of hPL goes through further manufacturing steps to inhibit the effect the clotting factors have.

Many labs around the world are creating small amounts of hPL to suit their laboratory needs. The disadvantages of this process are: cost and consistency. When creating small batches of hPL (single or few donors pooled), the lot-to-lot consistency of the hPL becomes variable. Large-scale manufacturing by pooling many platelet donors is a necessity to mitigate the donor-to-donor variability. Consistency is a top priority for experimental designs to provide reproducible results.

Platelet lysate is commonly used for supplementation of basal media in mesenchymal stem cells culture. Prior the use, the pathogen inactivation process is recommended to prevent pathogen transmission.^[1]

Source history

In 1991, the FDA recalled two lots of FBS processed in the US. The serum had arrived from Brazil labelled as human serum and thereby evading the U.S. Department of Agriculture (USDA). The source of FBS and all serum is critical when considering the purchase of serum. The source now determines whether or not a bio therapeutic agent will receive approval by certain regulatory bodies including the USDA. The first commercially available platelet lysate used to grow clinical trial grade MSC was PLTMax® made available by Mill Creek Life Sciences in 2010.

Global sales

Human Platelet Lysate is available commercially through AventaCell BioMedical, Mill Creek Life Sciences, Compass Biomedical, Inc., Cook Regentec, Macopharma SA, iBiologics, PL BioScience GmbH, Life Science Productions Ltd(UK) and Trinova Biochem GmbH under the product lines UltraGRO, PLTMax, PLUS, Stemulate, Human Platelet Lysate, XcytePlus, PLSOLUTION, PLMATRIX and CRUX RUFA Media Supplements. Some companies provide different grades of platelet lysate including GMP versions and clinical grade for use in human clinical trials. Platelet lysate offers a true xenofree platform. Platelet lysate has been tested in various cell culture applications including use in advanced bioreactor systems.^[2]

References

↑ Iudicone P (Jan 2014). "Pathogen-free, plasma-poor platelet lysate and expansion of human mesenchymal stem cells..". J Transl Med. 12. doi:10.1186/1479-5876-12-28. PMC 3918216. PMID 24467837.
↑ Platelet lysate consisting of a natural repair proteome supports human mesenchymal stem cell proliferation and chromosomal stability. Cell Transplant Cell Transplant 2011 19;20(6):797-811. Epub 2010 Nov 19. http://www.bioprocessintl.com/manufacturing/cell-therapies/expansion-human-mesenchymal-stem-cells-using-microcarriers-human-platelet-lysate/

Transfusion medicine

General concepts	Apheresis (plasmapheresis, plateletpheresis, leukapheresis) Blood transfusion Coombs test (direct and indirect) Cross-matching Exchange transfusion International Society of Blood Transfusion Intraoperative blood salvage ISBT 128 Transfusion reactions

Blood group systems / blood types	ABO Chido-Rodgers Colton Cromer Diego Dombrock Duffy Er FORS Gerbich GIL GLOB Hh Ii Indian JR JMH Kell (Xk) Kidd Knops Lan Lewis Lutheran LW MNS OK P Raph Rh and RHAG Scianna T-Tn Vel Xg Yt Other

Blood products / blood donation	Whole blood Platelets Red blood cells Plasma / Fresh frozen plasma / PF24 (Cryoprecipitate + Cryosupernatant) Blood substitutes

The main cell types in blood

Cellular/
HSCs

Myeloid/
CFU-GEMM

CFU-GM

CFU-G:
Granulocytes

CFU-M:
Monocytes/
MPS

Macrophages	Histiocytes Kupffer cells Alveolar macrophage Microglia Osteoclasts Epithelioid cells giant cells Langhans giant cells, Foreign-body giant cell Touton giant cells

CFU-DL	Dendritic cells Langerhans cell

Common

Myelomonocyte

CFU-Baso

Granulocytes
- Basophil

CFU-Eos

Granulocytes
- Eosinophil

MEP

CFU-Meg	Megakaryoblast Promegakaryocyte Megakaryocyte Platelets

CFU-E	Reticulocyte Normoblast

CFU-Mast

Mast cell precursors

Noncellular

Plasma

This article is issued from Wikipedia - version of the 12/2/2016. The text is available under the Creative Commons Attribution/Share Alike but additional terms may apply for the media files.

Platelet lysate

Process

Source history

Global sales

See also

References