Volume 16, Issue 3 (Autumn 2019)
Sci J Iran Blood Transfus Organ 2019, 16(3): 161-171 |
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Jahanshahi Ghajar ُ, Deyhim M, Sotoudehnejad Nematollahi F, Rafiee M. Red blood cells storage lesion: the effect of blood donation time on biochemical parameters. Sci J Iran Blood Transfus Organ 2019; 16 (3) :161-171
URL: http://bloodjournal.ir/article-1-1243-en.html
URL: http://bloodjournal.ir/article-1-1243-en.html
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Red blood cells storage lesion: the effect of blood
donation time on biochemical parameters
Jahanshahi Ghajar S.1, Deyhim M.R.2, Sotoudehnejad Nematollahi F.3, Rafiei M.H.2
1Science and Research Branch, Islamic Azad University, Tehran, Iran
2Blood Transfusion Research Center, High Institute for Research and Education in Transfusion Medicine, Tehran, Iran
3Faculty of Basic Sciences, Islamic Azad University, Tehran, Iran
Abstract
Background and Objectives
There is a circadian rhythm and diurnal variation in the redox capacity in blood plasma and there is a decrease in antioxidant capacity (TAC) during the RBCs storage in blood banking. So it is possible that donated blood, based on donation time, has a different antioxidant capacity and as a result a different biochemical response during storage. This study attempts to uncover this issue.
Materials and Methods
In this experimental study, Twenty RBC units were collected from two donor groups in the morning (8-11am) and evening (5-8pm) and were stored for 3 to 42 days at 4 to 8 degrees Celsius. Glucose, Sodium, potassium, lactate, lactate dehydrogenase (LDH), pH, malondialdehyde (MDA), and total antioxidant capacity were measured by a commercial kit. Nitrate/nitrite was measured by Griess method.
Results
The levels of nitrate/nitrite, MDA, and LDH in the evening group increased significantly when compared to the morning group (p < 0.05). However, a decreasing trend in TAC, pH, Glucose, and sodium levels (p < 0.05) versus an increasing trend in potassium, lactate, LDH, and MDA was seen in both groups during storage (p < 0.05).
Conclusions
This study showed that oxidative damage in donated blood in the evening was higher than in the morning during storage, which may reduce RBC survival. Therefore, more studies are required with more sample sizes to examine the effect of donation time on the RBC storage lesion.
Key words: Blood Donation, Blood Banking, Circadian Rhythm
Received: 31 Dec 2018
Accepted: 2 Jun 2019
Correspondence: Rafiei MH., PhD in Clinical Biochemistry. Assistant Professor of Blood Transfusion Research Center, High Institute for Research and Education in Transfusion Medicine.
P.O.Box: 14665-1157, Tehran, Iran. Tel: (+9821) 82052230; Fax: (+9821) 88601555
E-mail: hessam.rafiee@yahoo.com
Full-Text: (2385 Views)
References:
- Tinmouth A, Chin-Yee I. The clinical consequences of the red cell storage lesion. Transfus Med Rev 2001; 15(2): 91-107.
- Sabzehkar F, Yaghoobi M, Pakzad R, Charkhat-Gorgij E, Shirzaie K, Salehiniya H. Effect of education on the knowledge of health care workers about blood products, blood administration, and transfusion complicationss. Sci J Iran Blood Transfus Organ 2015; 11(4): 337-42. [Article in Farsi]
- Teimuri Naghadeh H, Karimi G, Rostamian A, Kiadaliri K, Behzad J, Vafaei Shooshtari M, et al. Assessment of cold chain equipment and the study of effective factors in storage of blood and blood components in mazandaran and gilan provinces. Sci J Iran Blood Transfus Organ 2011; 7(4): 235-41. [Article in Farsi]
- Adams F, Bellairs G, Bird A, Oguntibeju O. Biochemical storage lesions occurring in nonirradiated and irradiated red blood cells: a brief review. BioMed Res Int 2015; 2015: 968302.
- Bode AP. Platelet activation may explain the storage lesion in platelet concentrates. Blood Cells 1990; 16(1): 109-25.
- Yoshida T, Prudent M, D'alessandro A. Red blood cell storage lesion: causes and potential clinical consequences. Blood Transfus 2019; 17(1): 27-52.
- D’Alessandro A, Liumbruno G, Grazzini G, and Zolla L. Red blood cell storage: the story so far. Blood Transfus 2010; 8(2): 82-8.
- Chaudhary R, Katharia R. Oxidative injury as contributory factor for red cells storage lesion during twenty eight days of storage. Blood Transfus 2012; 10(1): 59-62.
- Hashemi Tayer A, Amirizadeh N, Mghsodlu M, Nikogoftar M, Deyhim MR, and Ahmadinejad M. Evaluation of Blood Storage Lesions in Leuko-depleted Red Blood Cell Units. Iran J Ped Hematol Oncol 2017; 7(3): 171-9.
- Barzegar S, Nadali F, Pourfathollah AA, Abbaspour AR, Farokhinia S, Shiravand Y. Oxidative stress changes in blood bags in consecutive weeks after donation. Sci J Iran Blood Transfus Organ 2016; 13(1): 11-8. [Article in Farsi]
- Deyhim MR, Nabavi Z, Jalili MA, Maghsoudloo M, Khoshnaghsh F. Alternation in Erythrocyte Enzyme Antioxidant Activity during Blood Storage. Iranian Journal of Blood and Cancer 2014; 6(2): 69-74.
- Wilking M, Ndiaye M, Mukhtar H, Ahmad N. Circadian Rhythm Connections to Oxidative Stress: Implications for Human Health. Antioxid Redox Signal 2013; 19(2): 192-208.
- Milev NB, Reddy AB. Circadian redox oscillations and metabolism. Trends Endocrinol Metab 2015; 26(8):
430-7. - O’Neill JS, Reddy AB. Circadian Clocks in Human Red Blood Cells. Nature 2011; 469(7331): 498-503.
- Radha E, Hill TD, Rao GH, White JG. Glutathione levels in human platelets display a circadian rhythm in vitro. Thromb Res 1985; 40(6): 823-31.
- Morera-Fumero AL, Abreu-Gonzalez P, Henry-Benitez M, Fernandez-Lopez L, Diaz-Mesa E, Cejas-Mendez MR, et al. Day/Night and Summer/Winter Changes in Serum Total Antioxidant Capacity. Med Chem 2018; 14(3): 225-9.
- Zawilska JB, Skene DJ, Arendt J. Physiology and pharmacology of melatonin in relation to biological rhythms. Pharmacol Rep 2009; 61: 383-410.
- Omidkhoda A, Hedayati B, Kafi-Abad SA. The effect of whole blood storage time on quality of RBCs. Scientific Journal of Iranian Blood Transfusion Organization. Sci J Iran Blood Transfus Organ 2015, 11(1): 56-63. [Article in Farsi]
- Mukherjee S, Marwaha N, Prasad R, Sharma RR, Thakral B. Serial assessment of biochemical parameters of red cell preparations to evaluate safety for neonatal transfusions. Indian J Med Res 2010; 132: 715-20.
- Ogunro PS, Ogungbamigbe TO, Muhibi MA.The influence of storage period on the antioxidants level of red blood cells and the plasma before transfusion. Afr J Med Med Sci 2010; 39(2): 99-104.
- Marjani A, Abolvahab Moradi, Araz Berdie Ghourcaie. Alterations in Plasma Lipid Peroxidation and Erythrocyte Superoxide Dismutase and Glutathione Peroxidase Enzyme Activities During Storage of Blood. Asian J Biochem 2007; 2(2): 118-23.
- Ghezelbash B, Azarkeivan A, Pourfathollah AA, Deyhim M, Hajati E, Goodarzi A. Comparative Evaluation of Biochemical and Hematological Parameters of Pre-Storage Leukoreduction during RBC Storage. Int J Hematol Oncol Stem Cell Res 2018; 12(1): 35-42.
- Liu C, Zhao WX, Christ GJ, Gladwin MT, Kim-Shapiro DB. Nitric Oxide Scavenging by Red Blood Cell Microparticles. Free Radic Biol Med 2013; 65: 1164-73.
- Stapley R, Owusu BY, Brandon A, Cusick M, Rodriguez C, Marques MB, et al. Erythrocyte storage increases rates of NO and nitrite scavenging: implications for transfusion-related toxicity. Biochem J 2012; 446(3): 499-508.
- Aslan R, Sekeroğlu MR, Tarakçioğlu M, Köylü H. Investigation of malondialdehyde formation and antioxidant enzyme activity in stored blood. Haematologia (Budap). 1997; 28(4): 233-7.
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Sci J Iran Blood Transfus Organ 2019;16 (3): 161-171 |
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Original Article
|
Red blood cells storage lesion: the effect of blood
donation time on biochemical parameters
Jahanshahi Ghajar S.1, Deyhim M.R.2, Sotoudehnejad Nematollahi F.3, Rafiei M.H.2
1Science and Research Branch, Islamic Azad University, Tehran, Iran
2Blood Transfusion Research Center, High Institute for Research and Education in Transfusion Medicine, Tehran, Iran
3Faculty of Basic Sciences, Islamic Azad University, Tehran, Iran
Abstract
Background and Objectives
There is a circadian rhythm and diurnal variation in the redox capacity in blood plasma and there is a decrease in antioxidant capacity (TAC) during the RBCs storage in blood banking. So it is possible that donated blood, based on donation time, has a different antioxidant capacity and as a result a different biochemical response during storage. This study attempts to uncover this issue.
Materials and Methods
In this experimental study, Twenty RBC units were collected from two donor groups in the morning (8-11am) and evening (5-8pm) and were stored for 3 to 42 days at 4 to 8 degrees Celsius. Glucose, Sodium, potassium, lactate, lactate dehydrogenase (LDH), pH, malondialdehyde (MDA), and total antioxidant capacity were measured by a commercial kit. Nitrate/nitrite was measured by Griess method.
Results
The levels of nitrate/nitrite, MDA, and LDH in the evening group increased significantly when compared to the morning group (p < 0.05). However, a decreasing trend in TAC, pH, Glucose, and sodium levels (p < 0.05) versus an increasing trend in potassium, lactate, LDH, and MDA was seen in both groups during storage (p < 0.05).
Conclusions
This study showed that oxidative damage in donated blood in the evening was higher than in the morning during storage, which may reduce RBC survival. Therefore, more studies are required with more sample sizes to examine the effect of donation time on the RBC storage lesion.
Key words: Blood Donation, Blood Banking, Circadian Rhythm
Received: 31 Dec 2018
Accepted: 2 Jun 2019
Correspondence: Rafiei MH., PhD in Clinical Biochemistry. Assistant Professor of Blood Transfusion Research Center, High Institute for Research and Education in Transfusion Medicine.
P.O.Box: 14665-1157, Tehran, Iran. Tel: (+9821) 82052230; Fax: (+9821) 88601555
E-mail: hessam.rafiee@yahoo.com
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