Quality and safety requirements for sustainable phage therapy products

Jean Paul Pirnay; Bob G. Blasdel; Laurent Bretaudeau; Angus Buckling; Nina Chanishvili; Jason R. Clark; Sofia Corte-Real; Laurent Debarbieux; Alain Dublanchet; Daniel De Vos; Jérôme Gabard; Miguel Garcia; Marina Goderdzishvili; Andrzej Górski; John Hardcastle; Isabelle Huys; Elizabeth Kutter; Rob Lavigne; Maia Merabishvili; Ewa Olchawa; Kaarle J. Parikka; Olivier Patey; Flavie Pouilot; Gregory Resch; Christine Rohde; Jacques Scheres; Mikael Skurnik; Mario Vaneechoutte; Luc Van Parys; Gilbert Verbeken; Martin Zizi; Guy Van Den Eede

doi:10.1007/s11095-014-1617-7

Quality and safety requirements for sustainable phage therapy products

Jean Paul Pirnay
, Bob G. Blasdel
, Laurent Bretaudeau
, Angus Buckling
, Nina Chanishvili
, Jason R. Clark
, Sofia Corte-Real
, Laurent Debarbieux
, Alain Dublanchet
, Daniel De Vos
, Jérôme Gabard
, Miguel Garcia
, Marina Goderdzishvili
, Andrzej Górski
, John Hardcastle
, Isabelle Huys
, Elizabeth Kutter
, Rob Lavigne
, Maia Merabishvili
, Ewa Olchawa

Kaarle J. Parikka, Olivier Patey, Flavie Pouilot, Gregory Resch, Christine Rohde, Jacques Scheres, Mikael Skurnik, Mario Vaneechoutte, Luc Van Parys, Gilbert Verbeken, Martin Zizi, Guy Van Den Eede

Laboratory for Molecular and Cellular Technology

KU Leuven
CLEAN CELLS SAS
University of Exeter
George Eliava Institute of Bacteriophage, Microbiology and Virology
Daresbury Science and Innovation Campus
TechnoPhage SA Edifício Egas Moniz
Institut Pasteur, Paris
Centre Hospitalier Intercommunal de Villeneuve-Saint-Georges
Military Hospital Queen Astrid
Pherecydes Pharma
Polish Academy of Sciences
Medical University of Warsaw
Evergreen State College
University of Ghent
Instytut Biotechnologii Surowic i Szczepionek Biomed S. A.
Défense belge
Vrije Universiteit Brussel
University of Lausanne
Leibniz Institute DSMZ - German Collection of Microorganisms and Cell Cultures
National Institute of Public Health NIZP
European Centre for Disease Prevention and Control
Haartman Institute
Helsinki University Central Hospital Laboratory Diagnostics
Inst. for Syst., Info., and Safely

Résultats de recherche: Contribution à un journal › Article de revue › Revue par des pairs

230 Citations (Scopus)

Résumé

The worldwide antibiotic crisis has led to a renewed interest in phage therapy. Since time immemorial phages control bacterial populations on Earth. Potent lytic phages against bacterial pathogens can be isolated from the environment or selected from a collection in a matter of days. In addition, phages have the capacity to rapidly overcome bacterial resistances, which will inevitably emerge. To maximally exploit these advantage phages have over conventional drugs such as antibiotics, it is important that sustainable phage products are not submitted to the conventional long medicinal product development and licensing pathway. There is a need for an adapted framework, including realistic production and quality and safety requirements, that allowsa timely supplying of phage therapy products for 'personalized therapy' or for public health or medical emergencies. This paper enumerates all phage therapy product related quality and safety risks known to the authors, as well as the tests that can be performed to minimize these risks, only to the extent needed to protect the patients and to allow and advance responsible phage therapy and research.

langue originale	Anglais
Pages (de - à)	2173-2179
Nombre de pages	7
journal	Pharmaceutical Research
Volume	32
Numéro de publication	7
Les DOIs	https://doi.org/10.1007/s11095-014-1617-7
état	Publié - 30 juil. 2015

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10.1007/s11095-014-1617-7

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Pirnay, J. P., Blasdel, B. G., Bretaudeau, L., Buckling, A., Chanishvili, N., Clark, J. R., Corte-Real, S., Debarbieux, L., Dublanchet, A., De Vos, D., Gabard, J., Garcia, M., Goderdzishvili, M., Górski, A., Hardcastle, J., Huys, I., Kutter, E., Lavigne, R., Merabishvili, M., ... Van Den Eede, G. (2015). Quality and safety requirements for sustainable phage therapy products. Pharmaceutical Research, 32(7), 2173-2179. https://doi.org/10.1007/s11095-014-1617-7

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title = "Quality and safety requirements for sustainable phage therapy products",

abstract = "The worldwide antibiotic crisis has led to a renewed interest in phage therapy. Since time immemorial phages control bacterial populations on Earth. Potent lytic phages against bacterial pathogens can be isolated from the environment or selected from a collection in a matter of days. In addition, phages have the capacity to rapidly overcome bacterial resistances, which will inevitably emerge. To maximally exploit these advantage phages have over conventional drugs such as antibiotics, it is important that sustainable phage products are not submitted to the conventional long medicinal product development and licensing pathway. There is a need for an adapted framework, including realistic production and quality and safety requirements, that allowsa timely supplying of phage therapy products for 'personalized therapy' or for public health or medical emergencies. This paper enumerates all phage therapy product related quality and safety risks known to the authors, as well as the tests that can be performed to minimize these risks, only to the extent needed to protect the patients and to allow and advance responsible phage therapy and research.",

keywords = "antibiotic resistance, medicinal product, phage therapy, production, quality and safety",

author = "Pirnay, \{Jean Paul\} and Blasdel, \{Bob G.\} and Laurent Bretaudeau and Angus Buckling and Nina Chanishvili and Clark, \{Jason R.\} and Sofia Corte-Real and Laurent Debarbieux and Alain Dublanchet and \{De Vos\}, Daniel and J{\'e}r{\^o}me Gabard and Miguel Garcia and Marina Goderdzishvili and Andrzej G{\'o}rski and John Hardcastle and Isabelle Huys and Elizabeth Kutter and Rob Lavigne and Maia Merabishvili and Ewa Olchawa and Parikka, \{Kaarle J.\} and Olivier Patey and Flavie Pouilot and Gregory Resch and Christine Rohde and Jacques Scheres and Mikael Skurnik and Mario Vaneechoutte and \{Van Parys\}, Luc and Gilbert Verbeken and Martin Zizi and \{Van Den Eede\}, Guy",

note = "Publisher Copyright: {\textcopyright} 2015 The Author(s).",

year = "2015",

month = jul,

day = "30",

doi = "10.1007/s11095-014-1617-7",

language = "English",

volume = "32",

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Pirnay, JP, Blasdel, BG, Bretaudeau, L, Buckling, A, Chanishvili, N, Clark, JR, Corte-Real, S, Debarbieux, L, Dublanchet, A, De Vos, D, Gabard, J, Garcia, M, Goderdzishvili, M, Górski, A, Hardcastle, J, Huys, I, Kutter, E, Lavigne, R, Merabishvili, M, Olchawa, E, Parikka, KJ, Patey, O, Pouilot, F, Resch, G, Rohde, C, Scheres, J, Skurnik, M, Vaneechoutte, M, Van Parys, L, Verbeken, G, Zizi, M & Van Den Eede, G 2015, 'Quality and safety requirements for sustainable phage therapy products', Pharmaceutical Research, VOL. 32, Numéro 7, p. 2173-2179. https://doi.org/10.1007/s11095-014-1617-7

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AU - Pirnay, Jean Paul

AU - Blasdel, Bob G.

AU - Bretaudeau, Laurent

AU - Buckling, Angus

AU - Chanishvili, Nina

AU - Clark, Jason R.

AU - Corte-Real, Sofia

AU - Debarbieux, Laurent

AU - Dublanchet, Alain

AU - De Vos, Daniel

AU - Gabard, Jérôme

AU - Garcia, Miguel

AU - Goderdzishvili, Marina

AU - Górski, Andrzej

AU - Hardcastle, John

AU - Huys, Isabelle

AU - Kutter, Elizabeth

AU - Lavigne, Rob

AU - Merabishvili, Maia

AU - Olchawa, Ewa

AU - Parikka, Kaarle J.

AU - Patey, Olivier

AU - Pouilot, Flavie

AU - Resch, Gregory

AU - Rohde, Christine

AU - Scheres, Jacques

AU - Skurnik, Mikael

AU - Vaneechoutte, Mario

AU - Van Parys, Luc

AU - Verbeken, Gilbert

AU - Zizi, Martin

AU - Van Den Eede, Guy

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N2 - The worldwide antibiotic crisis has led to a renewed interest in phage therapy. Since time immemorial phages control bacterial populations on Earth. Potent lytic phages against bacterial pathogens can be isolated from the environment or selected from a collection in a matter of days. In addition, phages have the capacity to rapidly overcome bacterial resistances, which will inevitably emerge. To maximally exploit these advantage phages have over conventional drugs such as antibiotics, it is important that sustainable phage products are not submitted to the conventional long medicinal product development and licensing pathway. There is a need for an adapted framework, including realistic production and quality and safety requirements, that allowsa timely supplying of phage therapy products for 'personalized therapy' or for public health or medical emergencies. This paper enumerates all phage therapy product related quality and safety risks known to the authors, as well as the tests that can be performed to minimize these risks, only to the extent needed to protect the patients and to allow and advance responsible phage therapy and research.

AB - The worldwide antibiotic crisis has led to a renewed interest in phage therapy. Since time immemorial phages control bacterial populations on Earth. Potent lytic phages against bacterial pathogens can be isolated from the environment or selected from a collection in a matter of days. In addition, phages have the capacity to rapidly overcome bacterial resistances, which will inevitably emerge. To maximally exploit these advantage phages have over conventional drugs such as antibiotics, it is important that sustainable phage products are not submitted to the conventional long medicinal product development and licensing pathway. There is a need for an adapted framework, including realistic production and quality and safety requirements, that allowsa timely supplying of phage therapy products for 'personalized therapy' or for public health or medical emergencies. This paper enumerates all phage therapy product related quality and safety risks known to the authors, as well as the tests that can be performed to minimize these risks, only to the extent needed to protect the patients and to allow and advance responsible phage therapy and research.

KW - antibiotic resistance

KW - medicinal product

KW - phage therapy

KW - production

KW - quality and safety

UR - https://www.scopus.com/pages/publications/84930179600

U2 - 10.1007/s11095-014-1617-7

DO - 10.1007/s11095-014-1617-7

M3 - Review article

C2 - 25585954

AN - SCOPUS:84930179600

SN - 0724-8741

VL - 32

SP - 2173

EP - 2179

JO - Pharmaceutical Research

JF - Pharmaceutical Research

IS - 7

ER -

Quality and safety requirements for sustainable phage therapy products

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