International review of blood donation nucleic acid amplification testing

Helen M. Faddy; Carla Osiowy; Brian Custer; Michael Busch; Susan L. Stramer; Opeyemi Adesina; Thijs van de Laar; Wai Chiu Tsoi; Claire Styles; Phil Kiely; Angelo Margaritis; So Yong Kwon; Yan Qiu; Xuelian Deng; Antoine Lewin; Signe Winther Jørgensen; Christian Erikstrup; David Juhl; Silvia Sauleda; Bernardo Armando Camacho Rodriguez; Lisbeth Jennifer Catherine Soto Coral; Paula Andrea Gaviria García; Sineenart Oota; Sheila F. O'Brien; Silvano Wendel; Emma Castro; Laura Navarro Pérez; Heli Harvala; Katy Davison; Claire Reynolds; Lisa Jarvis; Piotr Grabarczyk; Aneta Kopacz; Magdalena Łętowska; Niamh O'Flaherty; Fiona Young; Padraig Williams; Lisa Burke; Sze Sze Chua; An Muylaert; Isabel Page; Ann Jones; Christoph Niederhauser; Marion Vermeulen; Syria Laperche; Pierre Gallian; Salam Sawadogo; Masahiro Satake; Ahmad Gharehbaghian; Marcelo Addas-Carvalho; Sebastián Blanco; Sandra V. Gallego; Axel Seltsam; Marijke Weber-Schehl; Arwa Z. Al-Riyami; Khuloud Al Maamari; Fatma Ba Alawi; Hem Chandra Pandey; Dora Mbanya; Rochele Azevedo França; Richard Charlewood

doi:10.1111/vox.13592

International review of blood donation nucleic acid amplification testing

Helen M. Faddy^*, Carla Osiowy, Brian Custer, Michael Busch, Susan L. Stramer, Opeyemi Adesina, Thijs van de Laar, Wai Chiu Tsoi, Claire Styles, Phil Kiely, Angelo Margaritis, So Yong Kwon, Yan Qiu, Xuelian Deng, Antoine Lewin, Signe Winther Jørgensen, Christian Erikstrup, David Juhl, Silvia Sauleda, Bernardo Armando Camacho RodriguezLisbeth Jennifer Catherine Soto Coral, Paula Andrea Gaviria García, Sineenart Oota, Sheila F. O'Brien, Silvano Wendel, Emma Castro, Laura Navarro Pérez, Heli Harvala, Katy Davison, Claire Reynolds, Lisa Jarvis, Piotr Grabarczyk, Aneta Kopacz, Magdalena Łętowska, Niamh O'Flaherty, Fiona Young, Padraig Williams, Lisa Burke, Sze Sze Chua, An Muylaert, Isabel Page, Ann Jones, Christoph Niederhauser, Marion Vermeulen, Syria Laperche, Pierre Gallian, Salam Sawadogo, Masahiro Satake, Ahmad Gharehbaghian, Marcelo Addas-Carvalho, Sebastián Blanco, Sandra V. Gallego, Axel Seltsam, Marijke Weber-Schehl, Arwa Z. Al-Riyami, Khuloud Al Maamari, Fatma Ba Alawi, Hem Chandra Pandey, Dora Mbanya, Rochele Azevedo França, Richard Charlewood

^*المؤلف المقابل لهذا العمل

نتاج البحث: المساهمة في مجلة › Article › مراجعة النظراء

1 اقتباس (Scopus)

ملخص

Background and Objectives: Nucleic acid amplification testing (NAT), in blood services context, is used for the detection of viral and parasite nucleic acids to reduce transfusion-transmitted infections. This project reviewed NAT for screening blood donations globally. Materials and Methods: A survey on NAT usage, developed by the International Society of Blood Transfusion Working Party on Transfusion-transmitted Infectious Diseases (ISBT WP-TTID), was distributed through ISBT WP-TTID members. Data were analysed using descriptive statistics. Results: Forty-three responses were received from 32 countries. Increased adoption of blood donation viral screening by NAT was observed over the past decade. NAT-positive donations were detected for all viruses tested in 2019 (proportion of donations positive by NAT were 0.0099% for human immunodeficiency virus [HIV], 0.0063% for hepatitis C virus [HCV], 0.0247% for hepatitis B virus [HBV], 0.0323% for hepatitis E virus [HEV], 0.0014% for West Nile virus [WNV] and 0.00005% for Zika virus [ZIKV]). Globally, over 3100 NAT-positive donations were identified as NAT yield or solely by NAT in 2019 and over 22,000 since the introduction of NAT, with HBV accounting for over half. NAT-positivity rate was higher in first-time donors for all viruses tested except WNV. During 2019, a small number of participants performed NAT for parasites (Trypanosoma cruzi, Babesia spp., Plasmodium spp.). Conclusion: This survey captures current use of blood donation NAT globally. There has been increased NAT usage over the last decade. It is clear that NAT contributes to improving blood transfusion safety globally; however, there is a need to overcome economic barriers for regions/countries not performing NAT.

اللغة الأصلية	English
الصفحات (من إلى)	315-325
عدد الصفحات	11
دورية	Vox Sanguinis
مستوى الصوت	119
رقم الإصدار	4
المعرِّفات الرقمية للأشياء	https://doi.org/10.1111/vox.13592
حالة النشر	Published - فبراير 23 2024

ASJC Scopus subject areas

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أهداف الأمم المتحدة للتنمية المستدامة

يساهم هذا المخرج في تحقيق أهداف الأمم المتحدة للتنمية المستدامة التالية (SDGs)

الوصول إلى المستند

10.1111/vox.13592

الملفات والروابط الأخرى

قم بذكر هذا

Faddy, H. M., Osiowy, C., Custer, B., Busch, M., Stramer, S. L., Adesina, O., van de Laar, T., Tsoi, W. C., Styles, C., Kiely, P., Margaritis, A., Kwon, S. Y., Qiu, Y., Deng, X., Lewin, A., Jørgensen, S. W., Erikstrup, C., Juhl, D., Sauleda, S., ... Charlewood, R. (2024). International review of blood donation nucleic acid amplification testing. Vox Sanguinis, 119(4), 315-325. https://doi.org/10.1111/vox.13592

Faddy, HM, Osiowy, C, Custer, B, Busch, M, Stramer, SL, Adesina, O, van de Laar, T, Tsoi, WC, Styles, C, Kiely, P, Margaritis, A, Kwon, SY, Qiu, Y, Deng, X, Lewin, A, Jørgensen, SW, Erikstrup, C, Juhl, D, Sauleda, S, Camacho Rodriguez, BA, Coral, LJCS, Gaviria García, PA, Oota, S, O'Brien, SF, Wendel, S, Castro, E, Navarro Pérez, L, Harvala, H, Davison, K, Reynolds, C, Jarvis, L, Grabarczyk, P, Kopacz, A, Łętowska, M, O'Flaherty, N, Young, F, Williams, P, Burke, L, Chua, SS, Muylaert, A, Page, I, Jones, A, Niederhauser, C, Vermeulen, M, Laperche, S, Gallian, P, Sawadogo, S, Satake, M, Gharehbaghian, A, Addas-Carvalho, M, Blanco, S, Gallego, SV, Seltsam, A, Weber-Schehl, M, Al-Riyami, AZ , Al Maamari, K, Alawi, FB, Pandey, HC, Mbanya, D, França, RA & Charlewood, R 2024, 'International review of blood donation nucleic acid amplification testing', Vox Sanguinis, المجلد 119, رقم 4, الصفحات 315-325. https://doi.org/10.1111/vox.13592

@article{2e9846868c644120a8cc57c594b82b56,

title = "International review of blood donation nucleic acid amplification testing",

abstract = "Background and Objectives: Nucleic acid amplification testing (NAT), in blood services context, is used for the detection of viral and parasite nucleic acids to reduce transfusion-transmitted infections. This project reviewed NAT for screening blood donations globally. Materials and Methods: A survey on NAT usage, developed by the International Society of Blood Transfusion Working Party on Transfusion-transmitted Infectious Diseases (ISBT WP-TTID), was distributed through ISBT WP-TTID members. Data were analysed using descriptive statistics. Results: Forty-three responses were received from 32 countries. Increased adoption of blood donation viral screening by NAT was observed over the past decade. NAT-positive donations were detected for all viruses tested in 2019 (proportion of donations positive by NAT were 0.0099% for human immunodeficiency virus [HIV], 0.0063% for hepatitis C virus [HCV], 0.0247% for hepatitis B virus [HBV], 0.0323% for hepatitis E virus [HEV], 0.0014% for West Nile virus [WNV] and 0.00005% for Zika virus [ZIKV]). Globally, over 3100 NAT-positive donations were identified as NAT yield or solely by NAT in 2019 and over 22,000 since the introduction of NAT, with HBV accounting for over half. NAT-positivity rate was higher in first-time donors for all viruses tested except WNV. During 2019, a small number of participants performed NAT for parasites (Trypanosoma cruzi, Babesia spp., Plasmodium spp.). Conclusion: This survey captures current use of blood donation NAT globally. There has been increased NAT usage over the last decade. It is clear that NAT contributes to improving blood transfusion safety globally; however, there is a need to overcome economic barriers for regions/countries not performing NAT.",

keywords = "blood, NAT, safety, transfusion, TTI, virus, Hepatitis B/diagnosis, Humans, Zika Virus, Zika Virus Infection, Nucleic Acid Amplification Techniques, Nucleic Acids, Transfusion Reaction, Blood Donation, Blood Donors, Hepatitis B virus/genetics",

author = "Faddy, {Helen M.} and Carla Osiowy and Brian Custer and Michael Busch and Stramer, {Susan L.} and Opeyemi Adesina and {van de Laar}, Thijs and Tsoi, {Wai Chiu} and Claire Styles and Phil Kiely and Angelo Margaritis and Kwon, {So Yong} and Yan Qiu and Xuelian Deng and Antoine Lewin and J{\o}rgensen, {Signe Winther} and Christian Erikstrup and David Juhl and Silvia Sauleda and {Camacho Rodriguez}, {Bernardo Armando} and Coral, {Lisbeth Jennifer Catherine Soto} and {Gaviria Garc{\'i}a}, {Paula Andrea} and Sineenart Oota and O'Brien, {Sheila F.} and Silvano Wendel and Emma Castro and {Navarro P{\'e}rez}, Laura and Heli Harvala and Katy Davison and Claire Reynolds and Lisa Jarvis and Piotr Grabarczyk and Aneta Kopacz and Magdalena {\L}{\c e}towska and Niamh O'Flaherty and Fiona Young and Padraig Williams and Lisa Burke and Chua, {Sze Sze} and An Muylaert and Isabel Page and Ann Jones and Christoph Niederhauser and Marion Vermeulen and Syria Laperche and Pierre Gallian and Salam Sawadogo and Masahiro Satake and Ahmad Gharehbaghian and Marcelo Addas-Carvalho and Sebasti{\'a}n Blanco and Gallego, {Sandra V.} and Axel Seltsam and Marijke Weber-Schehl and Al-Riyami, {Arwa Z.} and {Al Maamari}, Khuloud and Alawi, {Fatma Ba} and Pandey, {Hem Chandra} and Dora Mbanya and Fran{\c c}a, {Rochele Azevedo} and Richard Charlewood",

note = "{\textcopyright} 2024 The Authors. Vox Sanguinis published by John Wiley & Sons Ltd on behalf of International Society of Blood Transfusion.",

year = "2024",

month = feb,

day = "23",

doi = "10.1111/vox.13592",

language = "English",

volume = "119",

pages = "315--325",

journal = "Vox Sanguinis",

issn = "0042-9007",

publisher = "Wiley-Blackwell",

number = "4",

}

TY - JOUR

T1 - International review of blood donation nucleic acid amplification testing

AU - Faddy, Helen M.

AU - Osiowy, Carla

AU - Custer, Brian

AU - Busch, Michael

AU - Stramer, Susan L.

AU - Adesina, Opeyemi

AU - van de Laar, Thijs

AU - Tsoi, Wai Chiu

AU - Styles, Claire

AU - Kiely, Phil

AU - Margaritis, Angelo

AU - Kwon, So Yong

AU - Qiu, Yan

AU - Deng, Xuelian

AU - Lewin, Antoine

AU - Jørgensen, Signe Winther

AU - Erikstrup, Christian

AU - Juhl, David

AU - Sauleda, Silvia

AU - Camacho Rodriguez, Bernardo Armando

AU - Coral, Lisbeth Jennifer Catherine Soto

AU - Gaviria García, Paula Andrea

AU - Oota, Sineenart

AU - O'Brien, Sheila F.

AU - Wendel, Silvano

AU - Castro, Emma

AU - Navarro Pérez, Laura

AU - Harvala, Heli

AU - Davison, Katy

AU - Reynolds, Claire

AU - Jarvis, Lisa

AU - Grabarczyk, Piotr

AU - Kopacz, Aneta

AU - Łętowska, Magdalena

AU - O'Flaherty, Niamh

AU - Young, Fiona

AU - Williams, Padraig

AU - Burke, Lisa

AU - Chua, Sze Sze

AU - Muylaert, An

AU - Page, Isabel

AU - Jones, Ann

AU - Niederhauser, Christoph

AU - Vermeulen, Marion

AU - Laperche, Syria

AU - Gallian, Pierre

AU - Sawadogo, Salam

AU - Satake, Masahiro

AU - Gharehbaghian, Ahmad

AU - Addas-Carvalho, Marcelo

AU - Blanco, Sebastián

AU - Gallego, Sandra V.

AU - Seltsam, Axel

AU - Weber-Schehl, Marijke

AU - Al-Riyami, Arwa Z.

AU - Al Maamari, Khuloud

AU - Alawi, Fatma Ba

AU - Pandey, Hem Chandra

AU - Mbanya, Dora

AU - França, Rochele Azevedo

AU - Charlewood, Richard

PY - 2024/2/23

Y1 - 2024/2/23

N2 - Background and Objectives: Nucleic acid amplification testing (NAT), in blood services context, is used for the detection of viral and parasite nucleic acids to reduce transfusion-transmitted infections. This project reviewed NAT for screening blood donations globally. Materials and Methods: A survey on NAT usage, developed by the International Society of Blood Transfusion Working Party on Transfusion-transmitted Infectious Diseases (ISBT WP-TTID), was distributed through ISBT WP-TTID members. Data were analysed using descriptive statistics. Results: Forty-three responses were received from 32 countries. Increased adoption of blood donation viral screening by NAT was observed over the past decade. NAT-positive donations were detected for all viruses tested in 2019 (proportion of donations positive by NAT were 0.0099% for human immunodeficiency virus [HIV], 0.0063% for hepatitis C virus [HCV], 0.0247% for hepatitis B virus [HBV], 0.0323% for hepatitis E virus [HEV], 0.0014% for West Nile virus [WNV] and 0.00005% for Zika virus [ZIKV]). Globally, over 3100 NAT-positive donations were identified as NAT yield or solely by NAT in 2019 and over 22,000 since the introduction of NAT, with HBV accounting for over half. NAT-positivity rate was higher in first-time donors for all viruses tested except WNV. During 2019, a small number of participants performed NAT for parasites (Trypanosoma cruzi, Babesia spp., Plasmodium spp.). Conclusion: This survey captures current use of blood donation NAT globally. There has been increased NAT usage over the last decade. It is clear that NAT contributes to improving blood transfusion safety globally; however, there is a need to overcome economic barriers for regions/countries not performing NAT.

AB - Background and Objectives: Nucleic acid amplification testing (NAT), in blood services context, is used for the detection of viral and parasite nucleic acids to reduce transfusion-transmitted infections. This project reviewed NAT for screening blood donations globally. Materials and Methods: A survey on NAT usage, developed by the International Society of Blood Transfusion Working Party on Transfusion-transmitted Infectious Diseases (ISBT WP-TTID), was distributed through ISBT WP-TTID members. Data were analysed using descriptive statistics. Results: Forty-three responses were received from 32 countries. Increased adoption of blood donation viral screening by NAT was observed over the past decade. NAT-positive donations were detected for all viruses tested in 2019 (proportion of donations positive by NAT were 0.0099% for human immunodeficiency virus [HIV], 0.0063% for hepatitis C virus [HCV], 0.0247% for hepatitis B virus [HBV], 0.0323% for hepatitis E virus [HEV], 0.0014% for West Nile virus [WNV] and 0.00005% for Zika virus [ZIKV]). Globally, over 3100 NAT-positive donations were identified as NAT yield or solely by NAT in 2019 and over 22,000 since the introduction of NAT, with HBV accounting for over half. NAT-positivity rate was higher in first-time donors for all viruses tested except WNV. During 2019, a small number of participants performed NAT for parasites (Trypanosoma cruzi, Babesia spp., Plasmodium spp.). Conclusion: This survey captures current use of blood donation NAT globally. There has been increased NAT usage over the last decade. It is clear that NAT contributes to improving blood transfusion safety globally; however, there is a need to overcome economic barriers for regions/countries not performing NAT.

KW - blood

KW - NAT

KW - safety

KW - transfusion

KW - TTI

KW - virus

KW - Hepatitis B/diagnosis

KW - Humans

KW - Zika Virus

KW - Zika Virus Infection

KW - Nucleic Acid Amplification Techniques

KW - Nucleic Acids

KW - Transfusion Reaction

KW - Blood Donation

KW - Blood Donors

KW - Hepatitis B virus/genetics

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DO - 10.1111/vox.13592

M3 - Article

C2 - 38390819

AN - SCOPUS:85186410780

SN - 0042-9007

VL - 119

SP - 315

EP - 325

JO - Vox Sanguinis

JF - Vox Sanguinis

IS - 4

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