Potential to revolutionize transfusion safety in Africa
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Pathogen-reduced blood may cut transfusion-transmitted malaria

A method for reducing pathogens present in whole blood used for transfusions may reduce the incidence of malaria transmission, and also provide clinical support for patients with severe anemia or hemorrhage, according to the results of a prospective study published April 22 in the Lancet.

“This study is the first to show pathogen reduction treatment of whole blood for transfusion resulted in reduced transmission of a blood-borne infectious parasite in a region hyperendemic for malaria,” wrote Dr. Jean-Pierre Allain of the department of hematology at the University of Cambridge (England) and his coauthors.

Courtesy NIAID

The investigators examined the safety and efficacy of the Mirasol pathogen reduction technology system in the African Investigation of the Mirasol System (AIMS) trial. Between March 12, 2014, and November 7, 2014, 227 adults from Ghana with blood group O+ were admitted to the Komfo Anokye Teaching Hospital in Kumasi, and enrolled in this prospective, randomized, parallel-group, double-blind, controlled study of transfusion-transmission of malaria. The patients underwent up to two whole blood transfusions with either pathogen-reduced whole blood (treated), or whole blood prepared and transfused by standard local practice (untreated), within 3 days following randomization. (Lancet. 2016 Apr 23;387:1753-61).

Of the patients completing the study protocol and included in the subsequent primary endpoint analysis, 65 nonparasitemic patients were exposed to parasitemic whole blood (28 treated and 37 untreated) and compared with 99 nonparasitemic control patients who received nonparasitemic whole blood (55 treated and 44 untreated), reported Dr. Allain.

The investigators found that the incidence of transfusion-transmitted malaria was significantly lower for the nonparasitemic patients receiving parasitemic whole blood, than for the nonparasitemic control patients who received nonparasitemic whole blood. Of the 65 patients transfused with parasitemic whole blood, 1 of the 28 treated patients (4%) and 8 of the 37 untreated patients (22%) were found to have contracted transfusion-transmitted malaria. Additionally, the safety profiles of the patients receiving treated or untreated whole blood did not differ and no transfusion-related fatalities occurred.

In developing countries, blood supplies are often contaminated by infectious agents, and blood banking systems cannot afford the newest nucleic acid detection technologies for blood-borne pathogens, the investigators wrote. They suggested that technologies designed to reduce pathogens present in whole blood may be of clinical benefit to both individual patients and health care systems. The use of such methods could result not only in better patient outcomes, but also in greater stability in blood supplies, as well as an associated decrease in treatment costs attributable to reductions in preventable infections.

Funding for this project was provided by Terumo BCT, which produces the Mirasol system. All but one of the coauthors disclosed financial ties to the funding source.

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The results from the study by Dr. Allain and his associates should prompt efforts to introduce pathogen-reducing technologies for whole blood, red blood cells, or both.

Hope for this anticipated progress in pathogen reduction technology should be growing based on the two pathogen reduction technology systems in development, one of which was used in the study by Dr. Allain and his colleagues (Mirasol; Terumo BCT, Lakewood, Colo.). This method uses riboflavin (vitamin B2) and ultraviolet light to inactivate pathogens in whole blood. The other method (Intercept; Cerus, Concord, Calif.) uses a chemical compound, S-303, and glutathione in the red blood cell product.

The risk that blood recipients in Africa must accept, especially children, would be considered an intolerable risk in developed countries, and pathogen reduction technology that preserves the clinical benefits of transfusion could revolutionize transfusion safety where it is most needed.

Dr. Sheila O’Brien is director of National Epidemiology and Surveillance at Canadian Blood Services and adjunct faculty at the University of Ottawa. She reported having no conflicts of interest. These remarks are adapted from her editorial accompanying the article (Lancet. 2016 Apr 23;387:1701-3).

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The results from the study by Dr. Allain and his associates should prompt efforts to introduce pathogen-reducing technologies for whole blood, red blood cells, or both.

Hope for this anticipated progress in pathogen reduction technology should be growing based on the two pathogen reduction technology systems in development, one of which was used in the study by Dr. Allain and his colleagues (Mirasol; Terumo BCT, Lakewood, Colo.). This method uses riboflavin (vitamin B2) and ultraviolet light to inactivate pathogens in whole blood. The other method (Intercept; Cerus, Concord, Calif.) uses a chemical compound, S-303, and glutathione in the red blood cell product.

The risk that blood recipients in Africa must accept, especially children, would be considered an intolerable risk in developed countries, and pathogen reduction technology that preserves the clinical benefits of transfusion could revolutionize transfusion safety where it is most needed.

Dr. Sheila O’Brien is director of National Epidemiology and Surveillance at Canadian Blood Services and adjunct faculty at the University of Ottawa. She reported having no conflicts of interest. These remarks are adapted from her editorial accompanying the article (Lancet. 2016 Apr 23;387:1701-3).

Body

The results from the study by Dr. Allain and his associates should prompt efforts to introduce pathogen-reducing technologies for whole blood, red blood cells, or both.

Hope for this anticipated progress in pathogen reduction technology should be growing based on the two pathogen reduction technology systems in development, one of which was used in the study by Dr. Allain and his colleagues (Mirasol; Terumo BCT, Lakewood, Colo.). This method uses riboflavin (vitamin B2) and ultraviolet light to inactivate pathogens in whole blood. The other method (Intercept; Cerus, Concord, Calif.) uses a chemical compound, S-303, and glutathione in the red blood cell product.

The risk that blood recipients in Africa must accept, especially children, would be considered an intolerable risk in developed countries, and pathogen reduction technology that preserves the clinical benefits of transfusion could revolutionize transfusion safety where it is most needed.

Dr. Sheila O’Brien is director of National Epidemiology and Surveillance at Canadian Blood Services and adjunct faculty at the University of Ottawa. She reported having no conflicts of interest. These remarks are adapted from her editorial accompanying the article (Lancet. 2016 Apr 23;387:1701-3).

Title
Potential to revolutionize transfusion safety in Africa
Potential to revolutionize transfusion safety in Africa

A method for reducing pathogens present in whole blood used for transfusions may reduce the incidence of malaria transmission, and also provide clinical support for patients with severe anemia or hemorrhage, according to the results of a prospective study published April 22 in the Lancet.

“This study is the first to show pathogen reduction treatment of whole blood for transfusion resulted in reduced transmission of a blood-borne infectious parasite in a region hyperendemic for malaria,” wrote Dr. Jean-Pierre Allain of the department of hematology at the University of Cambridge (England) and his coauthors.

Courtesy NIAID

The investigators examined the safety and efficacy of the Mirasol pathogen reduction technology system in the African Investigation of the Mirasol System (AIMS) trial. Between March 12, 2014, and November 7, 2014, 227 adults from Ghana with blood group O+ were admitted to the Komfo Anokye Teaching Hospital in Kumasi, and enrolled in this prospective, randomized, parallel-group, double-blind, controlled study of transfusion-transmission of malaria. The patients underwent up to two whole blood transfusions with either pathogen-reduced whole blood (treated), or whole blood prepared and transfused by standard local practice (untreated), within 3 days following randomization. (Lancet. 2016 Apr 23;387:1753-61).

Of the patients completing the study protocol and included in the subsequent primary endpoint analysis, 65 nonparasitemic patients were exposed to parasitemic whole blood (28 treated and 37 untreated) and compared with 99 nonparasitemic control patients who received nonparasitemic whole blood (55 treated and 44 untreated), reported Dr. Allain.

The investigators found that the incidence of transfusion-transmitted malaria was significantly lower for the nonparasitemic patients receiving parasitemic whole blood, than for the nonparasitemic control patients who received nonparasitemic whole blood. Of the 65 patients transfused with parasitemic whole blood, 1 of the 28 treated patients (4%) and 8 of the 37 untreated patients (22%) were found to have contracted transfusion-transmitted malaria. Additionally, the safety profiles of the patients receiving treated or untreated whole blood did not differ and no transfusion-related fatalities occurred.

In developing countries, blood supplies are often contaminated by infectious agents, and blood banking systems cannot afford the newest nucleic acid detection technologies for blood-borne pathogens, the investigators wrote. They suggested that technologies designed to reduce pathogens present in whole blood may be of clinical benefit to both individual patients and health care systems. The use of such methods could result not only in better patient outcomes, but also in greater stability in blood supplies, as well as an associated decrease in treatment costs attributable to reductions in preventable infections.

Funding for this project was provided by Terumo BCT, which produces the Mirasol system. All but one of the coauthors disclosed financial ties to the funding source.

A method for reducing pathogens present in whole blood used for transfusions may reduce the incidence of malaria transmission, and also provide clinical support for patients with severe anemia or hemorrhage, according to the results of a prospective study published April 22 in the Lancet.

“This study is the first to show pathogen reduction treatment of whole blood for transfusion resulted in reduced transmission of a blood-borne infectious parasite in a region hyperendemic for malaria,” wrote Dr. Jean-Pierre Allain of the department of hematology at the University of Cambridge (England) and his coauthors.

Courtesy NIAID

The investigators examined the safety and efficacy of the Mirasol pathogen reduction technology system in the African Investigation of the Mirasol System (AIMS) trial. Between March 12, 2014, and November 7, 2014, 227 adults from Ghana with blood group O+ were admitted to the Komfo Anokye Teaching Hospital in Kumasi, and enrolled in this prospective, randomized, parallel-group, double-blind, controlled study of transfusion-transmission of malaria. The patients underwent up to two whole blood transfusions with either pathogen-reduced whole blood (treated), or whole blood prepared and transfused by standard local practice (untreated), within 3 days following randomization. (Lancet. 2016 Apr 23;387:1753-61).

Of the patients completing the study protocol and included in the subsequent primary endpoint analysis, 65 nonparasitemic patients were exposed to parasitemic whole blood (28 treated and 37 untreated) and compared with 99 nonparasitemic control patients who received nonparasitemic whole blood (55 treated and 44 untreated), reported Dr. Allain.

The investigators found that the incidence of transfusion-transmitted malaria was significantly lower for the nonparasitemic patients receiving parasitemic whole blood, than for the nonparasitemic control patients who received nonparasitemic whole blood. Of the 65 patients transfused with parasitemic whole blood, 1 of the 28 treated patients (4%) and 8 of the 37 untreated patients (22%) were found to have contracted transfusion-transmitted malaria. Additionally, the safety profiles of the patients receiving treated or untreated whole blood did not differ and no transfusion-related fatalities occurred.

In developing countries, blood supplies are often contaminated by infectious agents, and blood banking systems cannot afford the newest nucleic acid detection technologies for blood-borne pathogens, the investigators wrote. They suggested that technologies designed to reduce pathogens present in whole blood may be of clinical benefit to both individual patients and health care systems. The use of such methods could result not only in better patient outcomes, but also in greater stability in blood supplies, as well as an associated decrease in treatment costs attributable to reductions in preventable infections.

Funding for this project was provided by Terumo BCT, which produces the Mirasol system. All but one of the coauthors disclosed financial ties to the funding source.

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Pathogen-reduced blood may cut transfusion-transmitted malaria
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Pathogen-reduced blood may cut transfusion-transmitted malaria
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malaria, blood transfusion
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malaria, blood transfusion
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FROM THE LANCET

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Key clinical point: The incidence of transfusion-transmitted malaria can be reduced by treating whole blood with a pathogen reduction system.

Major finding: Patients receiving pathogen-reduced whole blood had a lower incidence of transfusion-transmitted malaria (4%) than those who received standard treatment (22%).

Data source: Patients with anemia from a single center in Ghana being supported with whole blood transfusion.

Disclosures: Funding for this project was provided by Terumo BCT, which produces the Mirasol system. All but one of the coauthors disclosed ties to the funding source.