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Special Review Series: Platelet Blood Banking and Transfusion

Frozen and cold-stored platelets: reconsidered platelet products

Teresa Jimenez-Marco1 Fundació Banc De Sang I Teixits De Les Illes Balears, Majorca, Spain;2 Institut d’Investigació Sanitària Illes Balears (Idisba), Majorca, SpainView further author information
,
Azucena Castrillo3 Axencia Galega De Sangue, Órganos E Tecidos. Santiago De Compostela, A Coruña, SpainView further author information
,
Fernando Hierro-Riu4 Serveis Cientificotècnics Universitat De Les Illes Balears, Majorca, SpainView further author information
,
Vicente Vicente5 Servicio De Hematología Y Oncología Médica, Hospital Universitario Morales Meseguer, Centro Regional De Hemodonación, Universidad De Murcia, IMIB-Arrixaca, Murcia, SpainView further author information
&
José Rivera5 Servicio De Hematología Y Oncología Médica, Hospital Universitario Morales Meseguer, Centro Regional De Hemodonación, Universidad De Murcia, IMIB-Arrixaca, Murcia, SpainCorrespondence[email protected]
View further author information
Pages 27-34 | Received 06 Apr 2021, Accepted 03 Aug 2021, Published online: 22 Aug 2021

References

  • Hegde S, Akbar H, Zheng Y, Cancelas JA. Towards increasing shelf life and haemostatic potency of stored platelet concentrates. Curr Opin Hematol 2018;25:500–508. Epub 2018/ 10/04.
  • Prodger CF, Rampotas A, Estcourt LJ, Stanworth SJ, Murphy MF. Platelet transfusion: alloimmunization and refractoriness. Semin Hematol 2020;57:92–99. Epub 2020/ 09/08.
  • Storch EK, Custer BS, Jacobs MR, Menitove JE, Mintz PD. Review of current transfusion therapy and blood banking practices. Blood Rev 2019;38:100593. Epub 2019/ 08/14.
  • Al-Riyami AZ, Jug R, La Rocca U, Keshavarz H, Landry D, Shehata N, Stanworth SJ, Nahirniak S. Quality of evidence-based guidelines for platelet transfusion and use: a systematic review. Transfusion 2021;61:948–958. Epub 2021/ 01/24.
  • Guide to the preparation, use and quality assurance of blood components: Council of Europe. Available from https://www.edqm.eu/en/blood-guide (accessed July 29, 2021)
  • Stubbs JR, Homer MJ, Silverman T, Cap AP. The current state of the platelet supply in the US and proposed options to decrease the risk of critical shortages. Transfusion 2021;61:303–312. Epub 2020/ 10/25.
  • Cap AP. Platelet storage: a license to chill! Transfusion 2016;56:13–16. Epub 2016/ 01/13.
  • Wagner SJ. Guest editorial: the resurgence of cold stored platelets. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2019;58:6. Epub 2019/ 01/07.
  • Kelly K, Cancelas JA, Szczepiorkowski ZM, Dumont DF, Rugg N, Dumont LJ. Frozen platelets-development and future directions. Transfus Med Rev 2020;34:286–293. Epub 2020/ 12/16.
  • Mack JP, Miles J, Stolla M. Cold-stored platelets: Review of studies in humans. Transfus Med Rev 2020;34:221–226. Epub 2020/ 10/12.
  • Milford EM, Reade MC. Comprehensive review of platelet storage methods for use in the treatment of active hemorrhage. Transfusion 2016;56:S140–148. Epub 2016/ 04/23.
  • Ness PM. Platelet transfusions: are we ready to chill out? Br J Haematol 2017;178:7–8. Epub 2017/ 06/15.
  • Klein E, Toch R, Farber S, Freeman G, Fiorentino R. Hemostasis in thrombocytopenic bleeding following infusion of stored, frozen platelets. Blood 1956;11:693–699. Epub 1956/ 08/01.
  • Stefanini M, Kistner SA. Platelets, platelet factors and platelet substitutes in the management of thrombocytopenic states. Bibl Haematol 1958;7:378–381. Epub 1958/ 01/01.
  • Valeri CR. Hemostatic effectiveness of liquid-preserved and previously frozen human platelets. N Engl J Med 1974;290:353–358. Epub 1974/ 02/14.
  • Valeri CR, Ragno G, Khuri S. Freezing human platelets with 6 percent dimethyl sulfoxide with removal of the supernatant solution before freezing and storage at -80oC without postthaw processing. Transfusion 2005;45(12):1890–1898. Epub 2005/ 12/24. doi:https://doi.org/10.1111/j.1537-2995.2005.00647.x
  • Six KR, Compernolle V, Feys HB. Platelet biochemistry and morphology after cryopreservation. Int J Mol Sci 2020;21: Epub 2020/ 02/07.
  • Kelly K, Dumont LJ. Frozen platelets. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2019;58:23–29. Epub 2019/ 01/08.
  • Cohn CS, Dumont LJ, Lozano M, Marks DC, Johnson L, Ismay S, Bondar N, T’Sas F, Yokoyama APH, Kutner JM, et al. Vox sanguinis international forum on platelet cryopreservation. Vox Sang 2017;112(7):e69–e85. Epub 2017/ 09/21. doi:https://doi.org/10.1111/vox.12532
  • Rivera J, Lozano ML, Vicente V. In vitro changes of platelet parameters: lessons from blood banking. Methods Mol Biol 2004;273:57–72. Epub 2004/ 08/17.
  • Ng MSY, Tung JP, Fraser JF. Platelet storage lesions: What more do we know now? Transfus Med Rev 2018; Epub 2018/ 05/13.
  • Holme S, Moroff G, Murphy S. A multi-laboratory evaluation of in vitro platelet assays: the tests for extent of shape change and response to hypotonic shock. Biomedical excellence for safer transfusion working party of the international society of blood transfusion. Transfusion 1998;38:31–40. Epub 1998/ 03/03.
  • Shrivastava M. The platelet storage lesion. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2009;41:105–113. Epub 2009/ 08/18.
  • Plaza EM, Cespedes P, Fernandez H, Sanchez-Guiu MI, Egea JM, Vicente V, Lozano ML, Rivera J. Quality assessment of buffy-coat-derived leucodepleted platelet concentrates in PAS-plasma, prepared by the OrbiSac or TACSI automated system. Vox Sang 2014;106:38–44. Epub 2013/ 07/31.
  • Rivera J, Sanchez-Roig MJ, Rosillo MC, Moraleda JM, Vicente V. Stability of glycoproteins Ib/IX and IIb/IIIa during preparation and storage of platelet concentrates: detection by binding assays with epitope-defined monoclonal antibodies and physiological ligands. Vox Sang 1994;67:166–171. Epub 1994/ 01/01.
  • Crimmins D, Flanagan P, Charlewood R, Ruggiero K. In vitro comparison between gamma-irradiated cryopreserved and Day 7 liquid-stored buffy coat-derived platelet components. Transfusion 2016;56:2799–2807. Epub 2016/ 08/17.
  • Johnson L, Coorey CP, Marks DC. The hemostatic activity of cryopreserved platelets is mediated by phosphatidylserine-expressing platelets and platelet microparticles. Transfusion 2014;54:1917–1926. Epub 2014/ 02/18.
  • Johnson L, Tan S, Jenkins E, Wood B, Marks DC. Characterization of biologic response modifiers in the supernatant of conventional, refrigerated, and cryopreserved platelets. Transfusion 2018;58:927–937. Epub 2018/ 01/14.
  • Johnson L, Tan S, Wood B, Davis A, Marks DC. Refrigeration and cryopreservation of platelets differentially affect platelet metabolism and function: a comparison with conventional platelet storage conditions. Transfusion 2016;56:1807–1818. Epub 2016/ 05/10.
  • McLean C, McMillan L, Petrik J, Fraser AR, Morrison A. Cryopreserved platelets and their suitability in being re-suspended in additive solution. Vox Sang 2020;115(8):676–685. Epub 2020/ 09/24. doi:https://doi.org/10.1111/vox.12993
  • Slichter SJ, Jones M, Ransom J, Gettinger I, Jones MK, Christoffel T, Pellham E, Bailey SL, Corson J, Bolgiano D. Review of in vivo studies of dimethyl sulfoxide cryopreserved platelets. Transfus Med Rev 2014;28:212–225. Epub 2014/ 12/03.
  • Cid J, Escolar G, Galan A, Lopez-Vilchez I, Molina P, Diaz-Ricart M, Lozano M, Dumont LJ. In vitro evaluation of the hemostatic effectiveness of cryopreserved platelets. Transfusion 2016;56:580–586. Epub 2015/ 10/10.
  • Six KR, Delabie W, Devreese KMJ, Johnson L, Marks DC, Dumont LJ, Compernolle V, Feys HB. Comparison between manufacturing sites shows differential adhesion, activation, and GPIbalpha expression of cryopreserved platelets. Transfusion 2018;58:2645–2656. Epub 2018/ 10/13.
  • Hoffmeister KM, Felbinger TW, Falet H, Denis CV, Bergmeier W, Mayadas TN, von Andrian UH, Wagner DD, Stossel TP, Hartwig JH. The clearance mechanism of chilled blood platelets. Cell 2003;112:87–97. Epub 2003/ 01/16.
  • Wang Y, Chen W, Zhang W, Lee-Sundlov MM, Casari C, Berndt MC, Lanza F, Bergmeier W, Hoffmeister KM, Zhang XF, et al. Desialylation of O-glycans on glycoprotein Ibalpha drives receptor signaling and platelet clearance. Haematologica 2021;106:220–229. Epub 2020/ 01/25.
  • White JG, Krivit W. An ultrastructural basis for the shape changes induced in platelets by chilling. Blood 1967;30:625–635. Epub 1967/ 11/01.
  • Reddoch KM, Pidcoke HF, Montgomery RK, Fedyk CG, Aden JK, Ramasubramanian AK, Cap AP. Hemostatic function of apheresis platelets stored at 4 degrees C and 22 degrees C. Shock 2014;41:54–61. Epub 2013/ 10/31.
  • Reddoch-Cardenas KM, Bynum JA, Meledeo MA, Nair PM, Wu X, Darlington DN, Ramasubramanian AK, Cap AP. Cold-stored platelets: a product with function optimized for hemorrhage control. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2019;58:16–22. Epub 2019/ 02/02.
  • Six KR, Devloo R, Compernolle V, Feys HB. Impact of cold storage on platelets treated with Intercept pathogen inactivation. Transfusion 2019;59:2662–2671. Epub 2019/ 06/13.
  • Lee-Sundlov MM, Stowell SR, Hoffmeister KM. Multifaceted role of glycosylation in transfusion medicine, platelets, and red blood cells. Journal of Thrombosis and Haemostasis: JTH 2020;18:1535–1547. Epub 2020/ 05/01.
  • Barnard MR, MacGregor H, Ragno G, Pivacek LE, Khuri SF, Michelson AD, Valeri CR. Fresh, liquid-preserved, and cryopreserved platelets: adhesive surface receptors and membrane procoagulant activity. Transfusion 1999;39:880–888. Epub 1999/ 09/30.
  • Waters L, Padula MP, Marks DC, Johnson L. Cryopreserved platelets demonstrate reduced activation responses and impaired signaling after agonist stimulation. Transfusion 2017;57:2845–2857. Epub 2017/ 09/15.
  • Johnson L, Raynel S, Seghatchian J, Marks DC. Platelet microparticles in cryopreserved platelets: potential mediators of haemostasis. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2015;53:146–152. Epub 2015/ 11/10.
  • Tegegn TZ, De Paoli SH, Orecna M, Elhelu OK, Woodle SA, Tarandovskiy ID, Ovanesov MV, Simak J. Characterization of procoagulant extracellular vesicles and platelet membrane disintegration in DMSO-cryopreserved platelets. Journal of Extracellular Vesicles 2016;5:30422. Epub 2016/ 05/07.
  • Raynel S, Padula MP, Marks DC, Johnson L. Cryopreservation alters the membrane and cytoskeletal protein profile of platelet microparticles. Transfusion 2015;55:2422–2432. Epub 2015/ 06/06.
  • Sinauridze EI, Kireev DA, Popenko NY, Pichugin AV, Panteleev MA, Krymskaya OV, Ataullakhanov FI. Platelet microparticle membranes have 50- to 100-fold higher specific procoagulant activity than activated platelets. Thromb Haemost 2007;97:425–434. Epub 2007/ 03/06.
  • Spector JI, Yarmala JA, Marchionni LD, Emerson CP, Valeri CR. Viability and function of platelets frozen at 2 to 3 C per minute with 4 or 5 per cent DMSO and stored at −80 C for 8 months. Transfusion 1977;17:8–15. Epub 1977/ 01/01.
  • Valeri CR, Feingold H, Marchionni LD. A simple method for freezing human platelets using 6 per cent dimethylsulfoxide and storage at −80 degrees C. Blood 1974;43:131–136. Epub 1974/ 01/01.
  • Vecchione JJ, Melaragno AJ, Hollander A, Defina S, Emerson CP, Valeri CR. Circulation and function of human platelets isolated from units of CPDA-1, CPDA-2, and CPDA-3 anticoagulated blood and frozen with DMSO. Transfusion 1982;22:206–209. Epub 1982/ 05/01.
  • Schiffer CA, Aisner J, Wiernik PH. Frozen autologous platelet transfusion for patients with leukemia. N Engl J Med 1978;299:7–12. Epub 1978/ 07/06.
  • Schiffer CA, Buchholz DH, Aisner J, Wolff JH, Wiernik PH. Frozen autologous platelets in the supportive care of patients with leukemia. Transfusion 1976;16:321–329. Epub 1976/ 07/01.
  • Schiffer CA, Aisner J, Dutcher JP. Platelet cryopreservation using dimethyl sulfoxide. Ann N Y Acad Sci 1983;411:161–169. Epub 1983/ 01/01.
  • Gerber B, Alberio L, Rochat S, Stenner F, Manz MG, Buser A, Schanz U, Stussi G. Safety and efficacy of cryopreserved autologous platelet concentrates in HLA-alloimmunized patients with hematologic malignancies. Transfusion 2016;56(10):2426–2437. Epub 2016/ 06/25. doi:https://doi.org/10.1111/trf.13690
  • Slichter SJ, Dumont LJ, Cancelas JA, Jones M, Gernsheimer TB, Szczepiorkowski ZM, Dunbar NM, Prakash G, Medlin S, Rugg N, et al. Safety and efficacy of cryopreserved platelets in bleeding patients with thrombocytopenia. Transfusion 2018;58(9):2129–2138. Epub 2018/ 09/12. doi:https://doi.org/10.1111/trf.14780
  • Napolitano M, Mancuso S, Raso S, LoCoco L, Arfo PS, De Francisci G, Dieli F, Caccamo N, Reina A, Dolce A, et al. Buffy coat-derived platelets cryopreserved using a new method: results from a pivotal clinical trial on thrombocytopenic patients with acute leukaemia. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2019;58:102666. Epub 2019/ 11/23.
  • Khuri SF, Healey N, MacGregor H, Barnard MR, Szymanski IO, Birjiniuk V, Michelson AD, Gagnon DR, Valeri CR. Comparison of the effects of transfusions of cryopreserved and liquid-preserved platelets on hemostasis and blood loss after cardiopulmonary bypass. J Thorac Cardiovasc Surg 1999;117:172–183. discussion 183-174. Epub 1998/ 12/31.
  • Reade MC, Marks DC, Bellomo R, Deans R, Faulke DJ, Fraser JF, Gattas DJ, Holley AD, Irving DO, Johnson L, et al. A randomized, controlled pilot clinical trial of cryopreserved platelets for perioperative surgical bleeding: the CLIP-I trial (Editorial, p. 2759). Transfusion 2019;59:2794–2804. Epub 2019/ 07/11.
  • Noorman F, van Dongen TT, Plat MJ, Badloe JF, Hess JR, Hoencamp R. Transfusion: −80 degrees C frozen blood products are safe and effective in military casualty care. PloS One 2016;11:e0168401. Epub 2016/ 12/14.
  • Bohonek M, Kutac D, Landova L, Koranova M, Sladkova E, Staskova E, Voldrich M, Tyll T. The use of cryopreserved platelets in the treatment of polytraumatic patients and patients with massive bleeding. Transfusion 2019;59:1474–1478. Epub 2019/ 04/14.
  • Becker GA, Tuccelli M, Kunicki T, Chalos MK, Aster RH. Studies of platelet concentrates stored at 22 C nad 4 C. Transfusion 1973;13:61–68. Epub 1973/ 03/01.
  • Murphy S, Gardner FH. Effect of storage temperature on maintenance of platelet viability–deleterious effect of refrigerated storage. N Engl J Med 1969;280:1094–1098. Epub 1969/ 05/15.
  • Slichter SJ, Harker LA. Preparation and storage of platelet concentrates. II. Storage variables influencing platelet viability and function. Br J Haematol 1976;34:403–419. Epub 1976/ 11/01.
  • Grozovsky R, Giannini S, Falet H, Hoffmeister KM. Novel mechanisms of platelet clearance and thrombopoietin regulation. Curr Opin Hematol 2015;22:445–451. Epub 2015/ 07/15.
  • Rumjantseva V, Grewal PK, Wandall HH, Josefsson EC, Sorensen AL, Larson G, Marth JD, Hartwig JH, Hoffmeister KM. Dual roles for hepatic lectin receptors in the clearance of chilled platelets. Nat Med 2009;15(11):1273–1280. Epub 2009/ 09/29. doi:https://doi.org/10.1038/nm.2030
  • Chen W, Druzak SA, Wang Y, Josephson CD, Hoffmeister KM, Ware J, Li R. Refrigeration-induced binding of von willebrand factor facilitates fast clearance of refrigerated platelets. Arterioscler Thromb Vasc Biol 2017;37(12):2271–2279. Epub 2017/ 11/04. doi:https://doi.org/10.1161/ATVBAHA.117.310062
  • Chen W, Voos KM, Josephson CD, Li R. Short-acting anti-vwf (von willebrand factor) aptamer improves the recovery, survival, and hemostatic functions of refrigerated platelets. Arterioscler Thromb Vasc Biol 2019;39:2028–2037. Epub 2019/ 07/19.
  • Wandall HH, Hoffmeister KM, Sorensen AL, Rumjantseva V, Clausen H, Hartwig JH, Slichter SJ. Galactosylation does not prevent the rapid clearance of long-term, 4 degrees C-stored platelets. Blood 2008;111:3249–3256. Epub 2007/ 12/22.
  • Quach ME, Chen W, Li R. Mechanisms of platelet clearance and translation to improve platelet storage. Blood 2018;131:1512–1521. Epub 2018/ 02/25.
  • McArthur K, Chappaz S, Kile BT. Apoptosis in megakaryocytes and platelets: the life and death of a lineage. Blood 2018;131:605–610. Epub 2017/ 12/21.
  • Vostal JG, Gelderman MP, Skripchenko A, Xu F, Li Y, Ryan J, Cheng C, Whitley P, Wellington M, Sawyer S, et al. Temperature cycling during platelet cold storage improves in vivo recovery and survival in healthy volunteers. Transfusion 2018;58:25–33. Epub 2017/ 11/10.
  • Getz TM. Physiology of cold-stored platelets. Transfusion and Apheresis Science: Official Journal of the World Apheresis Association: Official Journal of the European Society for Haemapheresis 2019;58:12–15. Epub 2019/ 01/15.
  • Vostal JG, Mondoro TH. Liquid cold storage of platelets: a revitalized possible alternative for limiting bacterial contamination of platelet products. Transfus Med Rev 1997;11:286–295. Epub 1997/ 11/05.
  • Hoffmeister KM, Falet H, Toker A, Barkalow KL, Stossel TP, Hartwig JH. Mechanisms of cold-induced platelet actin assembly. J Biol Chem 2001;276:24751–24759. Epub 2001/ 05/01.
  • Johnson L, Vekariya S, Wood B, Tan S, Roan C, Marks DC. Refrigeration of apheresis platelets in platelet additive solution (PAS-E) supports in vitro platelet quality to maximize the shelf-life. Transfusion 2021;61:S58–S67. Epub 2021/ 07/17.
  • D’Alessandro A, Thomas KA, Stefanoni D, Gamboni F, Shea SM, Reisz JA, Spinella PC. Metabolic phenotypes of standard and cold-stored platelets. Transfusion 2020;60:S96–S106. Epub 2019/ 12/28.
  • Sandgren P, Shanwell A, Gulliksson H. Storage of buffy coat-derived platelets in additive solutions: in vitro effects of storage at 4oC. Transfusion 2006;46(5):828–834. Epub 2006/ 05/12. doi:https://doi.org/10.1111/j.1537-2995.2006.00803.x
  • Wood B, Padula MP, Marks DC, Johnson L. Refrigerated storage of platelets initiates changes in platelet surface marker expression and localization of intracellular proteins. Transfusion 2016;56:2548–2559. Epub 2016/ 07/28.
  • Nair PM, Pandya SG, Dallo SF, Reddoch KM, Montgomery RK, Pidcoke HF, Cap AP, Ramasubramanian AK. Platelets stored at 4 degrees C contribute to superior clot properties compared to current standard-of-care through fibrin-crosslinking. Br J Haematol 2017;178:119–129. Epub 2017/ 06/06.
  • Wagner SJ, Getz TM, Thompson-Montgomery D, Turgeon A. Preliminary characterization of the properties of cold-stored apheresis platelets suspended in PAS-III with and without an 8-hour room temperature hold. Transfusion 2020;60:2489–2493. Epub 2020/ 08/01.
  • Marini I, Aurich K, Jouni R, Nowak-Harnau S, Hartwich O, Greinacher A, Thiele T, Bakchoul T. Cold storage of platelets in additive solution: the impact of residual plasma in apheresis platelet concentrates. Haematologica 2019;104:207–214. Epub 2018/ 08/18.
  • Levy JH, Neal MD, Herman JH. Bacterial contamination of platelets for transfusion: strategies for prevention. Crit Care 2018;22:271. Epub 2018/ 10/28.
  • Ketter PM, Kamucheka R, Arulanandam B, Akers K, Cap AP. Platelet enhancement of bacterial growth during room temperature storage: mitigation through refrigeration. Transfusion 2019;59:1479–1489. Epub 2019/ 04/14.
  • Cap AP, Reddoch-Cardenas KM. Can’t get platelets to your bleeding patients? Just chill … the solution is in your refrigerator! Transfusion Clinique Et Biologique: Journal De La Societe Francaise De Transfusion Sanguine 2018;25:217–219. Epub 2018/ 07/24.
  • Dutton RP, Mackenzie CF, Scalea TM. Hypotensive resuscitation during active hemorrhage: impact on in-hospital mortality. J Trauma 2002;52:1141–1146. Epub 2002/ 06/05.
  • Pidcoke HF, Spinella PC, Ramasubramanian AK, Strandenes G, Hervig T, Ness PM, Cap AP. Refrigerated platelets for the treatment of acute bleeding: a review of the literature and reexamination of current standards. Shock 2014;41(Suppl Supplement 1):51–53. Epub 2014/ 03/26. doi:https://doi.org/10.1097/SHK.0000000000000078
  • FDA Action Makes Blood product more accessible to warfighters in combat. September 11, 2019 FDA. Available from https://www.fda.gov/media/130671/download
  • FDA grants South Texas Blood & Tissue Center first license for new process that triples shelf life of critically needed platelets Feb. 28, 2020: FDA. Available from https://www.globenewswire.com/news-release/2020/02/28/1992715/0/en/FDA-grants-South-Texas-Blood-Tissue-Center-first-license-for-new-process-that-triples-shelf-life-of-critically-needed-platelets.html
  • Warner MA, Kurian EB, Hammel SA, Van Buskirk CM, Kor DJ, Stubbs JR. Transition from room temperature to cold-stored platelets for the preservation of blood inventories during the COVID-19 pandemic. Transfusion 2021;61:72–77. Epub 2020/ 10/09.
  • Wood B, Johnson L, Hyland RA, Marks DC. Maximising platelet availability by delaying cold storage. Vox Sang 2018; Epub 2018/ 04/11.
  • Filip DJ, Aster RH. Relative hemostatic effectiveness of human platelets stored at 4 degrees and 22 degrees C. J Lab Clin Med 1978;91:618–624. Epub 1978/ 04/01.
  • Cohn SM, Jimenez JC, Khoury L, Perez JM, Panzo M. Inability to reverse aspirin and clopidogrel-induced platelet dysfunction with platelet infusion. Cureus 2019;11:e3889. Epub 2019/ 03/27.
  • Strandenes G, Sivertsen J, Bjerkvig CK, Fosse TK, Cap AP, Del Junco DJ, Kristoffersen EK, Haaverstad R, Kvalheim V, Braathen H, et al. A pilot trial of platelets stored cold versus at room temperature for complex cardiothoracic surgery. Anesthesiology 2020;133:1173–1183. Epub 2020/ 09/10.
  • Stolla M, Bailey SL, Fang L, Fitzpatrick L, Gettinger I, Pellham E, Christoffel T. Effects of storage time prolongation on in vivo and in vitro characteristics of 4 degrees C-stored platelets. Transfusion 2020;60:613–621. Epub 2020/ 02/06.
  • Johnson L, Waters L, Green S, Wood B, Marks DC. Freezing expired platelets does not compromise in vitro quality: an opportunity to maximize inventory potential. Transfusion 2020;60:454–459. Epub 2019/ 11/30.
  • Braathen H, Sivertsen J, Lunde THF, Kristoffersen EK, Assmus J, Hervig TA, Strandenes G, Apelseth TO. In vitro quality and platelet function of cold and delayed cold storage of apheresis platelet concentrates in platelet additive solution for 21 days. Transfusion 2019;59:2652–2661. Epub 2019/ 06/01.
  • Johnson L, Vekariya S, Tan S, Padula MP, Marks DC. Extended storage of thawed platelets: refrigeration supports postthaw quality for 10 days. Transfusion 2020;60:2969–2981. Epub 2020/ 10/22.
  • Agey A, Reddoch-Cardenas K, McIntosh C, Sharma U, Cantu C, Cap A, Bynum J. Effects of Intercept pathogen reduction treatment on extended cold storage of apheresis platelets. Transfusion 2021;61:167–177. Epub 2020/ 12/10.
  • Jimenez-Marco T, Ballester-Servera C, Quetglas-Oliver M, Morell-Garcia D, Torres-Reverte N, Bautista-Gili AM, Serra-Ramon N, Girona-Llobera E. Cryopreservation of platelets treated with riboflavin and UV light and stored at −80 degrees C for 1 year. Transfusion 2021; Epub 2021/ 03/12.
  • Johnson L, Cameron M, Waters L, Padula MP, Marks DC. The impact of refrigerated storage of UVC pathogen inactivated platelet concentrates on in vitro platelet quality parameters. Vox Sang 2019;114:47–56. Epub 2018/ 12/01.
  • Meinke S, Wikman A, Gryfelt G, Hultenby K, Uhlin M, Hoglund P, Sandgren P. Cryopreservation of buffy coat-derived platelet concentrates photochemically treated with amotosalen and UVA light. Transfusion 2018;58:2657–2668. Epub 2018/ 10/04.
  • Tynngard N, Wikman A, Uhlin M, Sandgren P. Haemostatic responsiveness and release of biological response modifiers following cryopreservation of platelets treated with amotosalen and ultraviolet A light. Blood Transfusion = Trasfusione Del Sangue 2020;18:191–199. Epub 2019/ 08/14.
  • Waters L, Padula MP, Marks DC, Johnson L. Cryopreservation of UVC pathogen-inactivated platelets. Transfusion 2019;59:2093–2102. Epub 2019/ 02/23.

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