A Prospective Study on Red Blood Cell Transfusion Related Hyperkalemia in Critically Ill Patients

Raza, Shahzad; Baig, Mahadi Ali; Chang, Christopher; Dabas, Ridhima; Akhtar, Mallika; Khan, Abdullah; Nemani, Krishna; Alani, Rahima; Majumder, Omran; Gazizova, Natalya; Biswas, Shaluk; Patel, Priyeshkumar; Al-Hilli, Jaffar A.; Shad, Yasar; Berger, Barbara J.; Zaman, Mohammad

doi:10.14740/jocmr2123w

Cited by 31 publications

(23 citation statements)

References 14 publications

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“…Several observational studies have demonstrated that the rise in the potassium level in stored units has devastating effects on blood recipients. 22 , 23 Some blood recipients do not benefit from blood transfusion since their bodies may need to resort to the more extreme effects of hyperkalemia 23 – 25 and others could lose the battle. 23 , 26 It is not clear why there is increased lysis in such units; however, studies suggest a reduction in ATP, 2,3-diphosphoglycerate and increase in lactate with subsequent fall in pH with the resulting cell membrane rigidity as the culprits.…”

Section: Discussionmentioning

confidence: 99%

Biochemical changes in stored donor units: implications on the efficacy of blood transfusion

Oyet¹,

Okongo²,

Onyuthi³

et al. 2018

JBM

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BackgroundBlood transfusion with allogeneic blood products is a common medical intervention to treat anemia or prepare patients for surgical procedures. Generally, the blood units are secured and stored prior to expected transfusion. During storage, a number of biochemical changes occur (generally known as storage lesion), which can affect the efficacy of blood transfusion. The aim of the study was to evaluate the biochemical changes that occur in blood units during storage and to project the impact of these changes on transfusion.MethodsThe study protocol was approved by the Faculty of Medicine Research Ethics committee of Mbarara University of Science and Technology. A total of 200 blood recipients were categorized into two study arms: group I received fresh blood (n=100) and group II received old blood (n=100), who were formally consented and recruited consecutively. A total of 2 mL of venous blood was collected from each participant in EDTA tubes before transfusion (for pre-transfusion hemoglobin [Hb] estimation) and after transfusion (for post-transfusion Hb estimation). Each crossmatched unit was sampled to collect plasma for pH, lactate and potassium assays. Data were analyzed with STATA version 12.0.ResultsA total of 200 blood transfusion recipients aged 1–60 years were enrolled in the study. Up to 60% of the participants were females. The pH of the stored blood dropped from 7.4 to 7.2 in the first 3 days to ~7.0 by day 11 and to <7.0 by day 35 (p=0.03). The average rise in lactate level was 25 g/dL in blood stored for 0 to 11 days and 32.4 g/dL in blood stored for 21–35 days. The highest increase was encountered in blood stored beyond 28 days: 40–57 g/dL by 35 days (p=0.001). Potassium levels equally increased from ~4.6 mmol/L in the first 5 days of storage to ~14.3 mmol/L by 11 days. From the third week of blood storage and beyond, there was exponential increase in potassium levels, with the highest record in blood units stored from 30 to 35 days (p=0.068).ConclusionWhole blood stored for >14 days has reduced efficacy with increased markers of red cell storage lesion such as increased potassium level, lactate and fall in pH. These lesions increase the length of hospital stay.

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Section: Discussionmentioning

confidence: 99%

Biochemical changes in stored donor units: implications on the efficacy of blood transfusion

Oyet¹,

Okongo²,

Onyuthi³

et al. 2018

JBM

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“…Indeed, a prospective study showed that potassium levels increase more pronounced in patients who receive blood stored for more than 12 d[10]. In fact, potassium is gradually released from red blood cells of the stored blood, resulting in an extracellular potassium concentration that by 21 d can reach up to 30 mEq/L in whole blood and up to 90 mEq/L in PRBCs[9].…”

Section: Discussionmentioning

confidence: 99%

Severe hyperkalemia following blood transfusions: Is there a link?

Rizos

Milionis

Elisaf

2017

WJN

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Patients with gastrointestinal bleeding often require large volume blood transfusion. Among the various side effects of blood transfusion, the increase of potassium levels is a serious one which is often overlooked. We report a case of severe hyperkalemia in a patient with gastric bleeding after large volume transfusion of packed red blood cells. The patient had hyperkalemia at baseline associated with his receiving medication as well as acute renal failure following hypovolemia. The baseline hyperkalemia was further aggravated after massive transfusions of packed red blood cells in a short period of time. The associated pathogenetic mechanisms resulting in the increase of potassium levels are presented. A number of risk factors which increase the risk of hyperkalemia after blood transfusion are discussed. Moreover, appropriate management strategies for the prevention of blood transfusion associated hyperkalemia are also presented. Physicians should always keep in mind the possibility of hyperkalemia in cases of blood transfusion.

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“…Other correlated studies increased the level of potassium with an increase in storage time and the preservative solution in the collection bag 33-35) . There is evidence of the occurrence of hyperkalemia and even heart attacks when there are transfusions with CH after long storage periods 33 - 35 . The concentrations of potassium in the stored blood increase about 1 milliequivalent (mEq) per day 9 .…”

Section: Discussionmentioning

confidence: 99%

Infusion pumps and red blood cell damage in transfusion therapy: an integrative revision of the academic literature

Wilson

Peterlini

2016

Rev. Latino-Am. Enfermagem

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Objectives: to obtain information from scientific literature concerning infusion pumps used in administering erythrocyte (red blood cells) and to evaluate the implications in the practical use of this equipment by nurses when conducting transfusions.Method: an integrative revision of the following scientific databases: Pubmed/Medline, Scopus, the Virtual Library for Health, SciELO, Web of Science and Cochrane. The following descriptors were used: "infusion pumps", "blood transfusion", "transfused erythrocyte" and "hemolyis". There were no restrictions on the scope of the initial data and it was finalized in December 2014. 17 articles were identified in accordance with the inclusion and exclusion criteria. Results: all of the publications included in the studies were experimental in vitro and covered the use of infusion pumps in transfusion therapy. A summary of the data was presented in a synoptic chart and an analysis of it generated the following categories: cellular damage and the infusion mechanism. Conclusion: infusion pumps can be harmful to erythrocytes based on the infusion mechanism that is used, as the linear peristaltic pump is more likely to cause hemolysis. Cellular damage is related to the plasmatic liberation of markers that largely dominate free hemoglobin and potassium. We reiterate the need for further research and technological investments to guide the development of protocols that promote safe practices and that can contribute to future clinical studies.

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A Prospective Study on Red Blood Cell Transfusion Related Hyperkalemia in Critically Ill Patients

Cited by 31 publications

References 14 publications

Biochemical changes in stored donor units: implications on the efficacy of blood transfusion

Biochemical changes in stored donor units: implications on the efficacy of blood transfusion

Severe hyperkalemia following blood transfusions: Is there a link?

Infusion pumps and red blood cell damage in transfusion therapy: an integrative revision of the academic literature

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