115
Views
0
CrossRef citations to date
0
Altmetric
Original Research

Duration of Storage Reduced Erythrocytes Profiles and Plasmodium Viability in Donor Blood

, , & ORCID Icon
Pages 87-99 | Published online: 22 Feb 2021

References

  • Getaneh A, Mohammedaman M. Asymptomatic malaria infection and associated factors among blood donors attending Arba Minch blood bank, Southwest Ethiopia. Ethiop J Health Sci. 2017;28(3):315–335. doi:10.4314/ejhs.v28i3.9
  • O’Brien SF, Delage G, Seed CR, et al. The epidemiology of imported malaria and transfusion policy in 5 non-endemic countries. Transfus Med Rev. 2015;29(3):162–171. doi:10.1016/j.tmrv.2015.03.004
  • Indonesian Government Regulation No.7 of 2011 about Blood Services
  • Queen E, Ifeanyi OE, Chinedum OK. The effect of storage on full blood count in different anticoagulants. IOSR J Dental Med Sci. 2014;13(9):128–131.
  • Antonelou MH, Kriebardis AG, Stamoulis KE, Economou-Petersen E, Margaritis LH, Papassideri IS. Red blood cell aging markers during storage in citrate-phosphate-dextrose-saline-adenine-glucose-mannitol. Transfusion. 2010;50(2):376–389. doi:10.1111/j.1537-2995.2009.02449
  • Paul AS, Egan ES, Duraisingh MT. Host-parasite interactions that guide red blood cell invasion by malaria parasites. Curr Opin Hematol. 2015;22:220–226.
  • Nubila T, Ukaejiofo EO, Nubila NI, et al. Hematological profile of apparently healthy blood donors at a tertiary hospital in Enugu, southeast Nigeria: a pilot study. Niger J Exp Clin Biosci. 2014;2:33–36.
  • Kementerian Kesehatan Republik Indonesia. Pertemuan Monitoring Dan Evaluasi Eliminasi. Subdit Malaria – Ditjen: P2P; 2017.
  • Sons JW. Bio-preservation of RBCs for in vitro Plasmodium falciparum culture. Br J Haematol. 2016;175(4):733–747. doi:10.1111/bjh.13882
  • Chattopadhyay R, Majam VF, Kumar S. Survival of Plasmodium falciparum in human blood during refrigeration. Transfusion. 2011;51:630–635.
  • Gregory B, Dan A, Leonid L, Alexander G. Is it possible to reverse the storage-induced lesion of red blood cells? Front Physiol. 2018;9:914. doi:10.3389/fphys.2018.00914
  • Remy KE, Sun J, Wang D, et al. Transfusion of recently donated (fresh) red blood cells (RBCs) does not improve survival in comparison with current practice, while safety of the oldest stored units is yet to be established: a meta-analysis. Vox Sang. 2016;111(1):43–54. doi:10.1002/14651858.CD009330.pub2
  • Pawan KM, Prabhanshu K, Pranjal C. Biomarkers of oxidative stress in erythrocytes as a function of human age. World J Methodol. 2015;5(4):216–222. doi:10.5662/wjm.v5.i4.216
  • Francesca R. The potential adverse effects of hemolysis. Blood Transfus. 2017;15(3):218–221.
  • Marion K, Jake B. The mechanics of malaria parasite invasion of the human erythrocyte – towards a reassessment of the host cell contribution. Cell Microbiol. 2016;18(3):319–329.
  • Antwi-Baffour S, Adjei JK, Agyemang-Yeboah F, et al. Proteomic analysis of micro-particles isolated from malaria positive blood samples. Proteome Sci. 2016;15:5.
  • Cora MC, King D, Betz LJ, Wilson R, Travios GS. Art factual changes in Sprague-Dawley Rat hematologic parameters after storage of samples at 3°C and 21°C. Am Assoc Lab Anim Sci. 2012;51(5):616–621.
  • Lindstrom NM, Moore DM, Zimmerman K, Smith SA. Hematologic assessment in pet rats, mice, hamsters, and gerbils: blood sample collection and blood cell identification. Vet Clin North Am Exot Anim Pract. 2015;18(1):21–32.
  • Kissling S, Legallais C, Pruijm M, et al. A new prescription model for regional citrate anticoagulation in therapeutic plasma exchanges. BMJ Nephrol. 2017;18(1):81. doi:10.1186/s12882-017-0494-9
  • Verma M, Dahiya K, Malik M, Sehgal PK, Devi R. Soni A and Ghalaut VG. Effect of blood storage on complete biochemistry. J Blood Disord Transfus. 2015;6:6. doi:10.4172/2155-9864.1000359
  • Erman H, Aksu U, Belce A, et al. Aydın S and Çakatay U. Gender and chronological age affect erythrocyte membrane oxidative indices in citrate phosphate dextrose adenine-formula 1 (CPDA-1) blood bank storage condition. Gen Physiol Biophys. 2016;35:343–351. doi:10.4149/gpb_2016001
  • Rahbari M, Diederich K, Becker K, Krauth-Siegel RL, Jortzik E. Detection of thiol-based redox switch processes in parasites—Facts and future. Biol Chem. 2015;396(5):445–463. doi:10.1515/hsz-2014-0279
  • Amna MA, Sven CV, Afnan SA, et al. Whole blood storage in CPDA1 blood bag alters erythrocyte membrane proteome. Oxid Med Cell Longev. 2018;1–12. doi:10.1155/2018/6375379
  • Tatsuro Y, Michel P, Angelo D. Red blood cell storage lesion: causes and potential clinical consequences. Blood Transfus. 2019;17(1):26–52. doi:10.2450/2019.0217-18
  • Flatt JV, Bawazir WM, Bruce LJ. The involvement of cation leaks in the storage lesion of red blood cell. Front Physiol. 2014;214(5):1–10. doi:10.3389/fphys.2014.00214
  • Joseph MR, Joy GM, Enika N. The pathophysiology of extracellular hemoglobin associated with enhanced oxidative reactions. Front Physiol. 2015;5:500. doi:10.3389/fphys.2014.00500
  • Birgit V, Thibault G, Don AL, et al. In silico mining for antimalarial structure-activity knowledge and discovery of novel antimalarial curcuminoids. Molecules. 2016;21(7):853. doi:10.3390/molecules21070853
  • Sparrow RL. Time to revisit red blood cell additive solutions and storage conditions a role for “omics” analyses. Blood Transfus. 2012;10(Suppl2):s7–s11. doi:10.2450/2012.003S
  • Ginsburg H, Atamna H. The redox status of malaria-infected erythrocytes: an overview with an emphasis on unresolved Problems. 1997;1(1):5–13.
  • Egée S, Bouyer G, Thomas SLY. Permeabilization of host cell membrane. Encyclopedia Malaria. 2015;1–14. doi:10.1007/978-1-4614-8757-9_38-1
  • Kirk K. Channels and transporters as drug targets in the Plasmodium-infected erythrocyte. Acta Trop. 2004;89:285–298.
  • Dickerman BK, Elsworth B, Cobbold SA, et al. Identification of inhibitors that dually target the new permeability pathway and dihydroorotate dehydrogenase in the blood stage of Plasmodium falciparum. Sci Rep. 2016;6:37502. doi:10.1038/srep37502
  • Adamu J, Jigam AA. Effects of malaria infection on some haematological and biochemical parameters in the general population and pregnant malaria patients attending two district hospitals in Niger State, Nigeria. Glob J Infect Dis Clin Res. 2019.
  • Desai SA, Krogstad DJ, McCleskey EW. A nutrient-permeable channel on the intraerythrocytic malaria parasite. Nature. 1993;362:643–645.
  • Goldberg DE, Zimmerberg J. Hardly Vacuous: the Parasitophorous Vacuolar Membrane of Malaria Parasites. Trends Parasitol. 2020;36.2:138–146. doi:10.1016/j.pt.2019.11.006
  • Kanti BP, Syed IR. Biomarkers of oxidative stress in red blood cells. Biomed Pap Med Fac Univ Palacky Olomouc Czech Repub. 2011;155(2):131–136.
  • Lauer SA, Rathod PK, Ghori N, Haidar K. A membrane network for nutrient import in red cells infected with the malaria parasite. Science. 1997;1122-1125.
  • María G, María C, Vicente-Ayuso AMB, et al. Red blood cell storage time and transfusion: current practice, concerns and future perspectives. Blood Transfus. 2017;15(3):222–231. doi:10.2450/2017.0345-16
  • Canavese M, Spaccapelo R. Protective or pathogenic effect of vascular endothelial growth factor (VEGF) as potential biomarker in cerebral malaria. Pathog Glob Health. 2014;108(2):67–75. doi:10.1179/2047773214Y.0000000130
  • Dunst J, Kamena F, Matuscewski K. Cytokine and chemokine in cerebral malaria pathogenesis. Front Cell Infect Microbiol. 2017;7:324.
  • Chaudhary R, Katharia R. Oxidative injury as contributory factor for red cells storage lesion during twenty eight days os storage. Blood Transfus. 2012;10(1):59–62. doi:10.2450/2011.0107-10
  • Keohane EM. Intrinsic Defects Leading to Increased Erythrocyte Destruction. In: Keohane EM, Smith LJ, Walenga JM, editors. Rodak's Hematology: Clinical Principles and Applications. 5th ed. Missouri: Elsevier Saunders; 2016:367–389.