Your search keyword '"Jean-Paul, Pirnay"' showing total 189 results

1. Case report: Personalized triple phage-antibiotic combination therapy to rescue necrotizing fasciitis caused by Panton-Valentine leukocidin-producing MRSA in a 12-year-old boy

Author

Brieuc Van Nieuwenhuyse, Mathilde Balcaen, Olga Chatzis, Astrid Haenecour, Emilien Derycke, Thierry Detaille, Stéphan Clément de Cléty, Cécile Boulanger, Leïla Belkhir, Jean-Cyr Yombi, Julien De Greef, Olivier Cornu, Pierre-Louis Docquier, Audrey Lentini, Renaud Menten, Hector Rodriguez-Villalobos, Alexia Verroken, Sarah Djebara, Maya Merabishvili, Johann Griselain, Jean-Paul Pirnay, Laurent Houtekie, and Dimitri Van der Linden

Subjects

MRSA, Panton and Valentine leukocidin (PVL), bacteriophage, phage therapy, necrotizing fasciitis, pediatric intensive care unit, Microbiology, QR1-502

Abstract

Maximal standard-of-care (SOC) management could not stop the life-threatening progression of a necrotizing fasciitis induced by Panton-Valentine Leukocidin-producing Methicillin-Resistant Staphylococcus aureus (MRSA) in a 12-year-old boy. Multi-route phage therapy was initiated along with antibiotics against Staphylococcus aureus, Pseudomonas aeruginosa and Stenotrophomonas maltophilia, eventually leading to full recovery with no reported adverse events.

Published

2024

2. Case report: Local bacteriophage therapy for fracture-related infection with polymicrobial multi-resistant bacteria: hydrogel application and postoperative phage analysis through metagenomic sequencing

Author

Volker Alt, André Gessner, Maya Merabishvili, Florian Hitzenbichler, Gopala Krishna Mannala, David Peterhoff, Nike Walter, Jean-Paul Pirnay, Andreas Hiergeist, and Markus Rupp

Subjects

bacteriophage, fracture-related infection, metagenomic, Masquelet, hydrogel, Medicine (General), R5-920

Abstract

Fracture-related infections can be challenging, particularly with concomitant severe bone defects and multi-resistant microorganisms. We present a case of a 42-year-old patient with a fracture-related infection following a war injury from a gunshot, resulting in a 12-cm subtrochanteric segmental bone defect and the detection of four different multi-resistant Gram-negative bacteria. Due to antibiotic drug resistance, treatment with bacteriophages was considered. Phage susceptibility testing revealed the activity of a commercially available bacteriophage cocktail (Intesti bacteriophage, Eliava Institute, Tbilisi, Georgia). This phage cocktail was included in a modified two-stage Masquelet technique. During the first intervention, the bone was debrided and samples for microbiological and phage testing were harvested. The indwelling intramedullary rod was removed, and the bone defect was filled with a PMMA spacer loaded with colistin and the bone stabilized with a plate. During the second procedure, the PMMA spacer was removed and a silver-coated angular stable plate was implanted. The bone defect was filled with a fibular autograft and allograft cancellous bone chips. At the end of the procedure, the Intesti bacteriophage cocktail was injected into a DAC hydrogel and this bacteriophage hydrogel composite was then put onto the angular stable plate. Postoperatively the wound fluid was collected over 72 h, and high-throughput metagenomic sequencing was performed. This showed a time-dependent release of the bacteriophages in the wound fluid, with a relatively high concentration after 12 h, decreasing to DNA copies of 0 after 72 h. Furthermore, we have assessed the release of phages from DAC gel and the effect of DAC gel on the phages in vitro. The results showed a stable and rapid release of phages from the DAC gel (~1×103 PFU/mL). The clinical course of the patient showed no relapse of the infection with good bone consolidation of the bone defect after 1 year without the need for any surgical revision. To the best of our knowledge, this is the first case that shows the detection of bacteriophage DNA copies by high-throughput metagenomics sequencing in a patient with a complex fracture-related infection. Successful treatment of this case encourages further investigation of bacteriophage therapy in patients with complex bone and joint infections.

Published

2024

3. Exploiting phage-antibiotic synergies to disrupt Pseudomonas aeruginosa PAO1 biofilms in the context of orthopedic infections

Author

Steven De Soir, Hortence Parée, Nur Hidayatul Nazirah Kamarudin, Jeroen Wagemans, Rob Lavigne, Annabel Braem, Maya Merabishvili, Daniel De Vos, Jean-Paul Pirnay, and Françoise Van Bambeke

Subjects

bacteriophage therapy, antibiotics, Pseudomonas aeruginosa, biofilms, Microbiology, QR1-502

Abstract

ABSTRACT In recent years, bacteriophages (or phages) have reentered the spotlight as alternative or adjuvant therapeutic agents to antibiotics. Their efficacy in more recalcitrant forms of infections like biofilms, frequently encountered in the orthopedic setting, remains less characterized. The present study aimed at evaluating the activity of phage-antibiotic combinations against Pseudomonas aeruginosa biofilms. A large collection of phages was de novo isolated from a wide variety of environmental sources. Three phages with a large host range against a.o. clinical orthopedic isolates, PSP2 (Yuavirus), PSP3 (Pbunavirus), and PSP30 (Bruynoghevirus), were selected for phage-antibiotic synergy assays on mature P. aeruginosa PAO1 biofilms. Phages were combined with ciprofloxacin, meropenem, and ceftazidime, all used as standard of care in bone-related infections. Significant reductions in both cell counts and biomass were observed for all phage-antibiotic combinations. The highest reduction in viable cell counts was observed for PSP3 and PSP2 in combination with ceftazidime [4.58 and 4.30 log10 Colony Forming Units (CFU)/well], followed by all phage combinations with ciprofloxacin (up to 3.56 log10 CFU/well). The highest reduction in biomass was obtained by combining PSP3 with ciprofloxacin (29.8%). Metabolic assays confirmed these findings with reductions in biofilm respiratory rate of up to 65%. Scanning electron microscopy imaging of PAO1 biofilms grown on titanium coupons and treated by ciprofloxacin and PSP30 confirmed the efficacy of the combined treatment with PSP30 and ciprofloxacin. This study highlights the synergetic effects of phage-antibiotic combinations on P. aeruginosa biofilms, thereby offering a promising approach to combat biofilm-associated infections. IMPORTANCE Biofilm-related infections are among the most difficult-to-treat infections in all fields of medicine due to their antibiotic tolerance and persistent character. In the field of orthopedics, these biofilms often lead to therapeutic failure of medical implantable devices and urgently need novel treatment strategies. This forthcoming article aims to explore the dynamic interplay between newly isolated bacteriophages and routinely used antibiotics and clearly indicates synergetic patterns when used as a dual treatment modality. Biofilms were drastically more reduced when both active agents were combined, thereby providing additional evidence that phage-antibiotic combinations lead to synergism and could potentially improve clinical outcome for affected patients.

Published

2024

4. Stability of magistral phage preparations before therapeutic application in patients with chronic rhinosinusitis, sepsis, pulmonary, and musculoskeletal infections

Author

Saartje Uyttebroek, Laura Bessems, Willem-Jan Metsemakers, Yves Debaveye, Laura Van Gerven, Lieven Dupont, Melissa Depypere, Jeroen Wagemans, Rob Lavigne, Maya Merabishvili, Jean-Paul Pirnay, David Devolder, Isabel Spriet, and Jolien Onsea

Subjects

bacteriophages, phages, phage therapy, stability, formulation, Microbiology, QR1-502

Abstract

ABSTRACT Bacteriophages have (re)gained popularity as an adjunct antibacterial therapy. On top of the self-amplifying character of phages, their titer can be influenced by several factors which could lead to reduced titers after preparation and storage. The stability of phage preparations, used for the treatment of chronic rhinosinusitis (CRS), sepsis, pulmonary, and musculoskeletal infections, was investigated. Staphylococcus aureus phage ISP and Pseudomonas aeruginosa phages PNM, 14-1 and PT07 were evaluated. These phages were magistrally prepared by diluting active pharmaceutical products and storing them in different polypropylene/polycarbonate syringes at 4°C. Titers were monitored for 7–21 days using the double-agar overlay method. For 7 days, titers remained stable. Afterwards, the phage titer reduced for all phages with an average reduction of 0.78 log (P < 0.0001) plaque-forming units (PFUs)/mL after 14 days and 1 log PFU/mL after 21 days (P < 0.0001). PT07 titers dropped below the predefined threshold after 2 days in polycarbonate syringes. In addition, the stability after irrigation using a nasal douche (CRS) and infusion through a catheter (sepsis) was assessed. No changes were observed after using these devices with a mean change in titer of −0.07 log PFU/mL (P = 0.9062) and −0.03 log PFU/mL (P = 0.7350), respectively. In conclusion, a decreased titer after storage of a phage solution can lead to administration of subtherapeutic concentrations. In our experiments, we demonstrated that liquid phage solutions can be stored in syringes at 4°C for 5–7 days. PT07 appeared to be less stable, especially in polycarbonate syringes. Irrigation using a nasal douche or infusion through a catheter does not impact phage titer. IMPORTANCE As antimicrobial resistance becomes more prevalent, the application of (bacterio)phage therapy as an alternative treatment for difficult-to-treat infections is (re)gaining popularity. Over the past decade, numerous promising case reports and series have been published demonstrating the therapeutic potential of phage therapy. However, important questions remain regarding the optimal treatment protocol and, unlike for medicinal products, there are currently no predefined quality standards for the stability of phage preparations. Phage titers can be influenced by several factors which could lead to reduced titers after preparation and storage and, ultimately, subtherapeutic applications. Determining the stability of different phages in different recipients according to the route of administration is therefore one of the first important steps in establishing a standardized protocol for phage therapy.

Published

2023

5. Use of the Naturally Occurring Bacteriophage Grouping Model for the Design of Potent Therapeutic Cocktails

Author

Tea Glonti, Michael Goossens, Christel Cochez, Sabrina Green, Sayali Gorivale, Jeroen Wagemans, Rob Lavigne, and Jean-Paul Pirnay

Subjects

phage cocktails, phage synergy, phage proto-cooperation, phage lytic activity, phage-resistant mutants, phage antagonism, Therapeutics. Pharmacology, RM1-950

Abstract

The specificity of phages and their ability to evolve and overcome bacterial resistance make them potentially useful as adjuncts in the treatment of antibiotic-resistant bacterial infections. The goal of this study was to mimic a natural grouping of phages of interest and to evaluate the nature of their proliferation dynamics with bacteria. We have, for the first time, transferred naturally occurring phage groups directly from their sources of isolation to in vitro and identified 13 P. aeruginosa and 11 K. pneumoniae phages of 18 different genera, whose host range was grouped as 1.2–17%, 28–48% and 60–87%, using a large collection of P. aeruginosa (n = 102) and K. pneumoniae (n = 155) strains carrying different virulence factors and phage binding receptors. We introduced the interpretation model curve for phage liquid culturing, which allows easy and quick analysis of bacterial and phage co-proliferation and growth of phage-resistant mutants (PRM) based on qualitative and partially quantitative evaluations. We assayed phage lytic activities both individually and in 14 different cocktails on planktonic bacterial cultures, including three resistotypes of P. aeruginosa (PAO1, PA14 and PA7) and seven K. pneumoniae strains of different capsular serotypes. Based on the results, the natural phage cocktails designed and tested in this study largely performed well and inhibited PRM growth either synergistically or in proto-cooperation. This study contributes to the knowledge of phage behavior in cocktails and the formulation of therapeutic phage preparations. The paper also provides a detailed description of the methods of working with phages.

Published

2024

6. Bacteriophage-antibiotic combination therapy against extensively drug-resistant Pseudomonas aeruginosa infection to allow liver transplantation in a toddler

Author

Brieuc Van Nieuwenhuyse, Dimitri Van der Linden, Olga Chatzis, Cédric Lood, Jeroen Wagemans, Rob Lavigne, Kaat Schroven, Jan Paeshuyse, Catherine de Magnée, Etienne Sokal, Xavier Stéphenne, Isabelle Scheers, Hector Rodriguez-Villalobos, Sarah Djebara, Maya Merabishvili, Patrick Soentjens, and Jean-Paul Pirnay

Subjects

Science

Abstract

In this study, authors use combinatory bacteriophage-antibiotic therapy, as treatment for extensively drug-resistant Pseudomonas aeruginosa infection in a toddler post liver transplantation. They report on the clinical and microbiological improvement, and present their investigation on how bacterial phage resistance did not result in therapeutic failure.

Published

2022

7. Case report: Analysis of phage therapy failure in a patient with a Pseudomonas aeruginosa prosthetic vascular graft infection

Author

Lucia Blasco, Inmaculada López-Hernández, Miguel Rodríguez-Fernández, Javier Pérez-Florido, Carlos S. Casimiro-Soriguer, Sarah Djebara, Maya Merabishvili, Jean-Paul Pirnay, Jesús Rodríguez-Baño, María Tomás, and Luis Eduardo López Cortés

Subjects

phage, phage therapy, antibiotic resistance, Pseudomonas aeruginosa, bypass, prosthetic vascular graft infection, Medicine (General), R5-920

Abstract

Clinical case of a patient with a Pseudomonas aeruginosa multidrug-resistant prosthetic vascular graft infection which was treated with a cocktail of phages (PT07, 14/01, and PNM) in combination with ceftazidime-avibactam (CZA). After the application of the phage treatment and in absence of antimicrobial therapy, a new P. aeruginosa bloodstream infection (BSI) with a septic residual limb metastasis occurred, now involving a wild-type strain being susceptible to ß-lactams and quinolones. Clinical strains were analyzed by microbiology and whole genome sequencing techniques. In relation with phage administration, the clinical isolates of P. aeruginosa before phage therapy (HE2011471) and post phage therapy (HE2105886) showed a clonal relationship but with important genomic changes which could be involved in the resistance to this therapy. Finally, phenotypic studies showed a decrease in Minimum Inhibitory Concentration (MIC) to ß-lactams and quinolones as well as an increase of the biofilm production and phage resistant mutants in the clinical isolate of P. aeruginosa post phage therapy.

Published

2023

8. Combination of pre-adapted bacteriophage therapy and antibiotics for treatment of fracture-related infection due to pandrug-resistant Klebsiella pneumoniae

Author

Anaïs Eskenazi, Cédric Lood, Julia Wubbolts, Maya Hites, Nana Balarjishvili, Lika Leshkasheli, Lia Askilashvili, Leila Kvachadze, Vera van Noort, Jeroen Wagemans, Marc Jayankura, Nina Chanishvili, Mark de Boer, Peter Nibbering, Mzia Kutateladze, Rob Lavigne, Maya Merabishvili, and Jean-Paul Pirnay

Subjects

Science

Abstract

In this case study of a patient with fracture-related pandrug-resistant Klebsiella pneumoniae infection after long-term antibiotic therapy, the authors use a combination therapy of pre-adapted bacteriophage and antibiotics resulting in clinical, microbiological and radiological improvement.

Published

2022

9. Determination of phage susceptibility as a clinical diagnostic tool: A routine perspective

Author

Valéry Daubie, Houssein Chalhoub, Bob Blasdel, Hafid Dahma, Maya Merabishvili, Tea Glonti, Nathalie De Vos, Johan Quintens, Jean-Paul Pirnay, Marie Hallin, and Olivier Vandenberg

Subjects

phage (bacteriophage), susceptibility, clinical microbiology, diagnosis, personalized medicine, Microbiology, QR1-502

Abstract

As the global burden of disease caused by multidrug resistant bacteria is a major source of concern, credible clinical alternatives to antibiotic therapy, such as personalized phage therapy, are actively explored. Although phage therapy has been used for more than a century, the issue of an easy to implement diagnostic tool for determining phage susceptibility that meets current routine clinical needs is still open. In this Review, we summarize the existing methods used for determining phage activity on bacteria, including the three reference methods: the spot test, the double agar overlay plaque assay, and the Appelmans method. The first two methods rely on the principle of challenging the overnight growth of a lawn of bacteria in an agar matrix to a known relative phage to bacteria concentration and represent good screening tools to determine if the tested phage can be used for a “passive” and or “active” treatment. Beside these methods, several techniques, based on “real-time” growth kinetics assays (GKA) have been developed or are under development. They all monitor the growth of clinical isolates in the presence of phages, but use various detection methods, from classical optical density to more sophisticated techniques such as computer-assisted imagery, flow-cytometry, quantitative real-time polymerase chain reaction (qPCR) or metabolic indicators. Practical considerations as well as information provided about phage activity are reviewed for each technique. Finally, we also discuss the analytical and interpretative requirements for the implementation of a phage susceptibility testing tool in routine clinical microbiology.

Published

2022

10. Successful Bacteriophage-Antibiotic Combination Therapy against Multidrug-Resistant Pseudomonas aeruginosa Left Ventricular Assist Device Driveline Infection

Author

Karlis Racenis, Janis Lacis, Dace Rezevska, Laima Mukane, Aija Vilde, Ints Putnins, Sarah Djebara, Maya Merabishvili, Jean-Paul Pirnay, Marika Kalnina, Aivars Petersons, Peteris Stradins, Sandis Maurins, and Juta Kroica

Subjects

phage therapy, biofilm, LVAD infection, phage resistance, multidrug resistance, case report, Microbiology, QR1-502

Abstract

There is considerable interest in the use of bacteriophages (phages) to treat Pseudomonas aeruginosa infections associated with left ventricular assist devices (LVADs). These infections are often challenging to manage due to high rates of multidrug resistance and biofilm formation, which could potentially be overcome with the use of phages. We report a case of a 54-year-old man with relapsing multidrug-resistant P. aeruginosa LVAD driveline infection, who was treated with a combination of two lytic antipseudomonal phages administered intravenously and locally. Treatment was combined with LVAD driveline repositioning and systemic antibiotic administration, resulting in a successful outcome with clinical cure and eradication of the targeted bacteria. However, laboratory in vitro models showed that phages alone could not eradicate biofilms but could prevent biofilm formation. Phage-resistant bacterial strains evolved in biofilm models and showed decreased susceptibility to the phages used. Further studies are needed to understand the complexity of phage resistance and the interaction of phages and antibiotics. Our results indicate that the combination of phages, antibiotics, and surgical intervention can have great potential in treating LVAD-associated infections. More than 21 months post-treatment, our patient remains cured of the infection.

Published

2023

11. Foundation of the Belgian Society for Viruses of Microbes and Meeting Report of Its Inaugural Symposium

Author

Agnieszka Latka, Abram Aertsen, Dimitri Boeckaerts, Bob Blasdel, Pieter-Jan Ceyssens, Abel Garcia-Pino, Annika Gillis, Rob Lavigne, Gipsi Lima-Mendez, Jelle Matthijnssens, Jolien Onsea, Eveline Peeters, Jean-Paul Pirnay, Damien Thiry, Dieter Vandenheuvel, Els Van Mechelen, Jolien Venneman, Gilbert Verbeken, Jeroen Wagemans, and Yves Briers

Subjects

Belgian Society for Viruses of Microbes, bacteriophages, triple helix model, Microbiology, QR1-502

Abstract

The Belgian Society for Viruses of Microbes (BSVoM) was founded on 9 June 2022 to capture and enhance the collaborative spirit among the expanding community of microbial virus researchers in Belgium. The sixteen founders are affiliated to fourteen different research entities across academia, industry and government. Its inaugural symposium was held on 23 September 2022 in the Thermotechnical Institute at KU Leuven. The meeting program covered three thematic sessions launched by international keynote speakers: (1) virus–host interactions, (2) viral ecology, evolution and diversity and (3) present and future applications. During the one-day symposium, four invited keynote lectures, ten selected talks and eight student pitches were given along with 41 presented posters. The meeting hosted 155 participants from twelve countries.

Published

2023

12. Eudragit® FS Microparticles Containing Bacteriophages, Prepared by Spray-Drying for Oral Administration

Author

Emilie Tabare, Tiffany Dauchot, Christel Cochez, Tea Glonti, Céline Antoine, Fanny Laforêt, Jean-Paul Pirnay, Véronique Delcenserie, Damien Thiry, and Jonathan Goole

Subjects

bacteriophage, colon-targeting, spray-drying, Eudragit® FS, tablets, capsules, Pharmacy and materia medica, RS1-441

Abstract

Phage therapy is recognized to be a promising alternative to fight antibiotic-resistant infections. In the quest for oral dosage forms containing bacteriophages, the utilization of colonic-release Eudragit® derivatives has shown potential in shielding bacteriophages from the challenges encountered within the gastrointestinal tract, such as fluctuating pH levels and the presence of digestive enzymes. Consequently, this study aimed to develop targeted oral delivery systems for bacteriophages, specifically focusing on colon delivery and employing Eudragit® FS30D as the excipient. The bacteriophage model used was LUZ19. An optimized formulation was established to not only preserve the activity of LUZ19 during the manufacturing process but also ensure its protection from highly acidic conditions. Flowability assessments were conducted for both capsule filling and tableting processes. Furthermore, the viability of the bacteriophages remained unaffected by the tableting process. Additionally, the release of LUZ19 from the developed system was evaluated using the Simulator of the Human Intestinal Microbial Ecosystem (SHIME®) model. Finally, stability studies demonstrated that the powder remained stable for at least 6 months when stored at +5 °C.

Published

2023

13. Characterization of a Bacteriophage GEC_vB_Bfr_UZM3 Active against Bacteroides fragilis

Author

Nata Bakuradze, Maia Merabishvili, Ia Kusradze, Pieter-Jan Ceyssens, Jolien Onsea, Willem-Jan Metsemakers, Nino Grdzelishvili, Guliko Natroshvili, Tamar Tatrishvili, Davit Lazvliashvili, Nunu Mitskevich, Jean-Paul Pirnay, and Nina Chanishvili

Subjects

Bacteroides fragilis, phage therapy, bacteriophage, Microbiology, QR1-502

Abstract

Bacteroides fragilis is a commensal gut bacterium that is associated with a number of blood and tissue infections. It has not yet been recognized as one of the drug-resistant human pathogens, but cases of the refractory infections, caused by strains that are not susceptible to the common antibiotic regimes established for B. fragilis, have been more frequently reported. Bacteriophages (phages) were found to be a successful antibacterial alternative to antibiotic therapy in many cases of multidrug-resistant (MDR) bacterial infections. We have characterized the bacteriophage GEC_vB_Bfr_UZM3 (UZM3), which was used for the treatment of a patient with a chronic osteomyelitis caused by a B. fragilis mixed infection. Studied biological and morphological properties of UZM3 showed that it seems to represent a strictly lytic phage belonging to a siphovirus morphotype. It is characterized by high stability at body temperature and in pH environments for about 6 h. Whole genome sequencing analysis of the phage UZM3 showed that it does not harbor any known virulence genes and can be considered as a potential therapeutic phage to be used against B. fragilis infections.

Published

2023

14. Parallel evolution of Pseudomonas aeruginosa phage resistance and virulence loss in response to phage treatment in vivo and in vitro

Author

Meaghan Castledine, Daniel Padfield, Pawel Sierocinski, Jesica Soria Pascual, Adam Hughes, Lotta Mäkinen, Ville-Petri Friman, Jean-Paul Pirnay, Maya Merabishvili, Daniel de Vos, and Angus Buckling

Subjects

Pseudomonas aeruginosa, bacteriophage, phage therapy, virulence, trade - offs, experimental evolution, Medicine, Science, Biology (General), QH301-705.5

Abstract

With rising antibiotic resistance, there has been increasing interest in treating pathogenic bacteria with bacteriophages (phage therapy). One limitation of phage therapy is the ease at which bacteria can evolve resistance. Negative effects of resistance may be mitigated when resistance results in reduced bacterial growth and virulence, or when phage coevolves to overcome resistance. Resistance evolution and its consequences are contingent on the bacteria-phage combination and their environmental context, making therapeutic outcomes hard to predict. One solution might be to conduct ‘in vitro evolutionary simulations’ using bacteria-phage combinations from the therapeutic context. Overall, our aim was to investigate parallels between in vitro experiments and in vivo dynamics in a human participant. Evolutionary dynamics were similar, with high levels of resistance evolving quickly with limited evidence of phage evolution. Resistant bacteria—evolved in vitro and in vivo—had lower virulence. In vivo, this was linked to lower growth rates of resistant isolates, whereas in vitro phage resistant isolates evolved greater biofilm production. Population sequencing suggests resistance resulted from selection on de novo mutations rather than sorting of existing variants. These results highlight the speed at which phage resistance can evolve in vivo, and how in vitro experiments may give useful insights for clinical evolutionary outcomes.

Published

2022

15. Bacteriophage Therapy for the Prevention and Treatment of Fracture-Related Infection Caused by Staphylococcus aureus: a Preclinical Study

Author

Jolien Onsea, Virginia Post, Tim Buchholz, Hella Schwegler, Stephan Zeiter, Jeroen Wagemans, Jean-Paul Pirnay, Maya Merabishvili, Matteo D’Este, Stijn G. Rotman, Andrej Trampuz, Michael H. J. Verhofstad, William T. Obremskey, Rob Lavigne, R. Geoff Richards, T. Fintan Moriarty, and Willem-Jan Metsemakers

Subjects

bacteriophages, Staphylococcus aureus, fracture-related infection, implant, rabbit, Microbiology, QR1-502

Abstract

ABSTRACT Although several studies have shown promising clinical outcomes of phage therapy in patients with orthopedic device-related infections, questions remain regarding the optimal application protocol, systemic effects, and the impact of the immune response. This study provides a proof-of-concept of phage therapy in a clinically relevant rabbit model of fracture-related infection (FRI) caused by Staphylococcus aureus. In a prevention setting, phage in saline (without any biomaterial-based carrier) was highly effective in the prevention of FRI, compared to systemic antibiotic prophylaxis alone. In the subsequent study involving treatment of established infection, daily administration of phage in saline through a subcutaneous access tube was compared to a single intraoperative application of a phage-loaded hydrogel and a control group receiving antibiotics only. In this setting, although a possible trend of bacterial load reduction on the implant was observed with the phage-loaded hydrogel, no superior effect of phage therapy was found compared to antibiotic treatment alone. The application of phage in saline through a subcutaneous access tube was, however, complicated by superinfection and the development of neutralizing antibodies. The latter was not found in the animals that received the phage-loaded hydrogel, which may indicate that encapsulation of phages into a carrier such as a hydrogel limits their exposure to the adaptive immune system. These studies show phage therapy can be useful in targeting orthopedic device-related infection, however, further research and improvements of these application methods are required for this complex clinical setting. IMPORTANCE Because of the growing spread of antimicrobial resistance, the use of alternative prevention and treatment strategies is gaining interest. Although the therapeutic potential of bacteriophages has been demonstrated in a number of case reports and series over the past decade, many unanswered questions remain regarding the optimal application protocol. Furthermore, a major concern during phage therapy is the induction of phage neutralizing antibodies. This study aimed at providing a proof-of-concept of phage therapy in a clinically relevant rabbit model of fracture-related infection caused by Staphylococcus aureus. Phage therapy was applied as prophylaxis in a first phase, and as treatment of an established infection in a second phase. The development of phage neutralizing antibodies was evaluated in the treatment study. This study demonstrates that phage therapy can be useful in targeting orthopedic device-related infection, especially as prophylaxis; however, further research and improvements of these application methods are required.

Published

2021

16. Isolation and Characterization of Lytic Pseudomonas aeruginosa Bacteriophages Isolated from Sewage Samples from Tunisia

Author

Ismahen Akremi, Maya Merabishvili, Mouna Jlidi, Adel Haj Brahim, Manel Ben Ali, Anis Karoui, Rob Lavigne, Jeroen Wagemans, Jean-Paul Pirnay, and Mamdouh Ben Ali

Subjects

bacteriophages, Pseudomonas aeruginosa, multidrug resistance, phage therapy, Microbiology, QR1-502

Abstract

Bacteriophages could be a useful adjunct to antibiotics for the treatment of multidrug-resistant Pseudomonas aeruginosa infections. In this study, lytic P. aeruginosa myoviruses PsCh, PsIn, Ps25, and Ps12on-D were isolated from Tunisian sewage samples. Phage Ps12on-D displayed an adsorption time of ~10 min, a short latency period (~10 min), and a large burst size (~115 PFU per infected cell) under standard growth conditions. All phages were active at broad temperature (4 °C to 50 °C) and pH (3.0 to 11.0) ranges and were able to lyse a wide variety of P. aeruginosa strains isolated from clinical and environmental samples worldwide. Illumina sequencing revealed double-stranded DNA genomes ranging from 87,887 and 92,710 bp with high sequence identity to Pseudomonas phage PAK_P1. All four phages based on sequence analysis were assigned to the Pakpunavirus genus. The presented characterization and preclinical assessment are part of an effort to establish phage therapy treatment as an alternative strategy for the management of multidrug-resistant P. aeruginosa infections in Tunisia.

Published

2022

17. Genomics of an endemic cystic fibrosis Burkholderia multivorans strain reveals low within-patient evolution but high between-patient diversity.

Author

Cédric Lood, Charlotte Peeters, Quentin Lamy-Besnier, Jeroen Wagemans, Daniel De Vos, Marijke Proesmans, Jean-Paul Pirnay, Fedoua Echahidi, Denis Piérard, Matthieu Thimmesch, Anca Boeras, Katrien Lagrou, Evelien De Canck, Elke De Wachter, Vera van Noort, Rob Lavigne, and Peter Vandamme

Subjects

Immunologic diseases. Allergy, RC581-607, Biology (General), QH301-705.5

Abstract

Burkholderia multivorans is a member of the Burkholderia cepacia complex (Bcc), notorious for its pathogenicity in persons with cystic fibrosis. Epidemiological surveillance suggests that patients predominantly acquire B. multivorans from environmental sources, with rare cases of patient-to-patient transmission. Here we report on the genomic analysis of thirteen isolates from an endemic B. multivorans strain infecting four cystic fibrosis patients treated in different pediatric cystic fibrosis centers in Belgium, with no evidence of cross-infection. All isolates share an identical sequence type (ST-742) but whole genome analysis shows that they exhibit peculiar patterns of genomic diversity between patients. By combining short and long reads sequencing technologies, we highlight key differences in terms of small nucleotide polymorphisms indicative of low rates of adaptive evolution within patient, and well-defined, hundred kbps-long segments of high enrichment in mutations between patients. In addition, we observed large structural genomic variations amongst the isolates which revealed different plasmid contents, active roles for transposase IS3 and IS5 in the deactivation of genes, and mobile prophage elements. Our study shows limited within-patient B. multivorans evolution and high between-patient strain diversity, indicating that an environmental microdiverse reservoir must be present for this endemic strain, in which active diversification is taking place. Furthermore, our analysis also reveals a set of 30 parallel adaptations across multiple patients, indicating that the specific genomic background of a given strain may dictate the route of adaptation within the cystic fibrosis lung.

Published

2021

18. In Vitro Techniques and Measurements of Phage Characteristics That Are Important for Phage Therapy Success

Author

Tea Glonti and Jean-Paul Pirnay

Subjects

phage isolation, phage selection, phage virulence, phage activity, phage therapy, Microbiology, QR1-502

Abstract

Validated methods for phage selection, host range expansion, and lytic activity determination are indispensable for maximizing phage therapy outcomes. In this review, we describe some relevant methods, highlighting their advantages and disadvantages, and categorize them as preliminary or confirmatory methods where appropriate. Experimental conditions, such as the composition and consistency of culture media, have an impact on bacterial growth and, consequently, phage propagation and the selection of phage-resistant mutants. The phages require different experimental conditions to be tested to fully reveal their characteristics and phage therapy potential in view of their future use in therapy. Phage lytic activity or virulence should be considered as a result of the phage, its host, and intracellular/environmental factors, including the ability of a phage to recognize receptors on the bacterial cell surface. In vitro quantitative and qualitative measurements of phage characteristics, further validated by in vivo experiments, could be incorporated into one system or mathematical model/formula, which could predict a potential successful outcome of clinical applications.

Published

2022

19. Extended-Spectrum β-Lactamases in Human Isolates of Multidrug-Resistant Non-typhoidal Salmonella enterica

Author

Anahit M. Sedrakyan, Zhanna A. Ktsoyan, Karine A. Arakelova, Magdalina K. Zakharyan, Alvard I. Hovhannisyan, Zaruhi U. Gevorgyan, Armine A. Mnatsakanyan, Elene G. Kakabadze, Khatuna B. Makalatia, Nina A. Chanishvili, Jean-Paul Pirnay, Arsen A. Arakelyan, and Rustam I. Aminov

Subjects

non-typhoidal Salmonella, antimicrobial resistance, extended-spectrum β-lactamases, WGS, antimicrobial resistance genes, Microbiology, QR1-502

Abstract

A total of 291 non-duplicate isolates of non-typhoidal Salmonella (NTS) were collected from the fecal samples of patients with salmonellosis in Armenia and Georgia during 1996–2016. The isolates were tested for resistance to antimicrobials, including extended-spectrum β-lactamases (ESBL). The high prevalence of multidrug-resistance (MDR) and ESBL-producer phenotypes was detected among Salmonella enterica subsp. enterica serovar Typhimurium (S. Typhimurium) isolates collected from patients in Armenia between 1996 and 2016. A total of 36 MDR NTS isolates were subjected to whole genome sequencing (WGS) to determine the genetic background of antimicrobial resistance (AMR) and mobile genetic elements. All ESBL-producing S. Typhimurium isolates belonged to the same sequence type (ST328). The ESBL-producer phenotype was associated with plasmid-encoded CTX-M-5 production. A range of other plasmids was associated with resistance to other antimicrobials, including the MDR phenotype.

Published

2020

20. The Unique Role That WHO Could Play in Implementing Phage Therapy to Combat the Global Antibiotic Resistance Crisis

Author

Alan Fauconnier, Tobi E. Nagel, Charlotte Fauconnier, Gilbert Verbeken, Daniel De Vos, Maia Merabishvili, and Jean-Paul Pirnay

Subjects

phage therapy, World Health Organization, low and middle-income countries, regulatory framework, local production, GMP, Microbiology, QR1-502

Published

2020

21. Phage Therapy in the Year 2035

Author

Jean-Paul Pirnay

Subjects

infectious diseases, antibiotic resistance, antimicrobial resistance, phage therapy, synthetic biology, artificial intelligence, Microbiology, QR1-502

Abstract

The emergence of multidrug resistant bacteria in both community- and hospital-acquired infections is recognized as a major public health threat. Phage therapy is increasingly mediatized and researched as an additional tool for combatting antibiotic resistant infections. However, phages exhibit a number of properties that differ from antibiotics and hamper their development as pharmaceutical products and their application in therapy. This paper advocates a paradigm shift in the development and application of infectious disease therapeutics to cater for personalized phage therapy, which could be realized by the year 2035. More specifically, it presents a sustainable and ethical supply chain of instant synthetic phages, based on a community effort, supported and steered by public health organizations, and managed by a platform combining Artificial Intelligence (AI) and Distributed Ledger (DL) Technology.

Published

2020

22. In Vitro and In Vivo Assessments of Two Newly Isolated Bacteriophages against an ST13 Urinary Tract Infection Klebsiella pneumoniae

Author

Fanny Laforêt, Céline Antoine, Bob Blasdel Reuter, Johann Detilleux, Jean-Paul Pirnay, Sylvain Brisse, Abdoulaye Fall, Jean-Noël Duprez, Véronique Delcenserie, and Damien Thiry

Subjects

bacteriophage, phage therapy, Klebsiella pneumoniae, ST13, K3, urinary tract infection, Microbiology, QR1-502

Abstract

Antibiotic resistance represents a major public health concern requiring new alternatives including phage therapy. Klebsiella pneumoniae belongs to the ESKAPE bacteria and can cause urinary tract infections (UTIs). The aims of this study were to isolate and characterize new bacteriophages against a K. pneumoniae strain isolated from UTIs and to assess their efficacy in vitro and in vivo in a Galleria (G.) mellonella larvae model. For this purpose, two bacteriophages were newly isolated against an ST13 K. pneumoniae strain isolated from a UTI and identified as K3 capsular types by wzi gene PCR. Genomic analysis showed that these bacteriophages, named vB_KpnP_K3-ULINTkp1 and vB_KpnP_K3-ULINTkp2, belong to the Drulisvirus genus. Bacteriophage vB_KpnP_K3-ULINTkp1 had the narrowest host spectrum (targeting only K3), while vB_KpnP_K3-ULINTkp2 also infected other Klebsiella types. Short adsorption times and latent periods were observed for both bacteriophages. In vivo experiments showed their ability to replicate in G. mellonella larvae and to decrease host bacterial titers. Moreover, both bacteriophages improved the survival of the infected larvae. In conclusion, these two bacteriophages had different in vitro properties and showed in vivo efficacy in a G. mellonella model with a better efficiency for vB_KpnP_K3-ULINTkp2.

Published

2022

23. Screening of Anorectal and Oropharyngeal Samples Fails to Detect Bacteriophages Infecting Neisseria gonorrhoeae

Author

Jolein Gyonne Elise Laumen, Saïd Abdellati, Sheeba Santhini Manoharan-Basil, Christophe Van Dijck, Dorien Van den Bossche, Irith De Baetselier, Tessa de Block, Surbhi Malhotra-Kumar, Patrick Soentjes, Jean-Paul Pirnay, Chris Kenyon, and Maia Merabishvili

Subjects

Neisseria gonorrhoeae, bacteriophage screening, antimicrobial resistance, phage therapy, human anorectal swabs, human oropharyngeal swabs, Therapeutics. Pharmacology, RM1-950

Abstract

There are real concerns that Neisseria gonorrhoeae may become untreatable in the near future due to the rapid emergence of antimicrobial resistance. Alternative therapies are thus urgently required. Bacteriophages active against N. gonorrhoeae could play an important role as an antibiotic-sparing therapy. To the best of our knowledge, no bacteriophages active against N. gonorrhoeae have ever been found. The aim of this study was to screen for bacteriophages able to lyse N. gonorrhoeae in oropharyngeal and anorectal swabs of 74 men who have sex with men attending a sexual health clinic in Antwerp, Belgium. We screened 210 swabs but were unable to identify an anti-gonococcal bacteriophage. This is the first report of a pilot screening that systematically searched for anti-gonococcal phages directly from clinical swabs. Further studies may consider screening for phages at other anatomical sites (e.g., stool samples, urine) or in environmental settings (e.g., toilet sewage water of sex clubs or sexually transmitted infection clinics) where N. gonorrhoeae can be found.

Published

2022

24. Phage Therapy

Author

Joana Azeredo, Jean-Paul Pirnay, Diana Pires, Mzia Kutateladze, Krystyna Dabrowska, Rob Lavigne, and Bob G Blasdel

Subjects

phage therapy, bacteriophage, antibiotic resistance, Medicine (General), R5-920

Abstract

Phage therapy refers to the use of bacteriophages (phages - bacterial viruses) as therapeutic agents against infectious bacterial diseases. This therapeutic approach emerged in the beginning of the 20th century but was progressively replaced by the use of antibiotics in most parts of the world after the second world war. More recently however, the alarming rise of multidrug-resistant bacteria and the consequent need for antibiotic alternatives has renewed interest in phages as antimicrobial agents. Several scientific, technological and regulatory advances have supported the credibility of a second revolution in phage therapy. Nevertheless, phage therapy still faces many challenges that include: i) the need to increase phage collections from reference phage banks; ii) the development of efficient phage screening methods for the fast identification of the therapeutic phage(s); iii) the establishment of efficient phage therapy strategies to tackle infectious biofilms; iv) the validation of feasible phage production protocols that assure quality and safety of phage preparations; and (v) the guarantee of stability of phage preparations during manufacturing, storage and transport. Moreover, current maladapted regulatory structures represent a significant hurdle for potential commercialization of phage therapeutics. This article describes the past and current status of phage therapy and presents the most recent advances in this domain.

Published

2021

25. In Vitro Evaluation of the Therapeutic Potential of Phage VA7 against Enterotoxigenic Bacteroides fragilis Infection

Author

Nata Bakuradze, Maya Merabishvili, Khatuna Makalatia, Elene Kakabadze, Nino Grdzelishvili, Jeroen Wagemans, Cedric Lood, Irakli Chachua, Mario Vaneechoutte, Rob Lavigne, Jean-Paul Pirnay, Ivane Abiatari, and Nina Chanishvili

Subjects

bacteriophages, phage therapy, enterotoxigenic Bacteroides fragilis, ETBF, in vitro model, colorectal carcinoma, Microbiology, QR1-502

Abstract

Since the beginning of the 20th century, bacteriophages (phages), i.e., viruses that infect bacteria, have been used as antimicrobial agents for treating various infections. Phage preparations targeting a number of bacterial pathogens are still in use in the post-Soviet states and are experiencing a revival in the Western world. However, phages have never been used to treat diseases caused by Bacteroides fragilis, the leading agent cultured in anaerobic abscesses and postoperative peritonitis. Enterotoxin-producing strains of B. fragilis have been associated with the development of inflammatory diarrhea and colorectal carcinoma. In this study, we evaluated the molecular biosafety and antimicrobial properties of novel phage species vB_BfrS_VA7 (VA7) lysate, as well as its impact on cytokine IL-8 production in an enterotoxigenic B. fragilis (ETBF)-infected colonic epithelial cell (CEC) culture model. Compared to untreated infected cells, the addition of phage VA7 to ETBF-infected CECs led to significantly reduced bacterial counts and IL-8 levels. This in vitro study confirms the potential of phage VA7 as an antibacterial agent for use in prophylaxis or in the treatment of B. fragilis infections and associated colorectal carcinoma.

Published

2021

26. Bacteriophage Rescue Therapy of a Vancomycin-Resistant Enterococcus faecium Infection in a One-Year-Old Child following a Third Liver Transplantation

Author

Kevin Paul, Maya Merabishvili, Ronen Hazan, Martin Christner, Uta Herden, Daniel Gelman, Leron Khalifa, Ortal Yerushalmy, Shunit Coppenhagen-Glazer, Theresa Harbauer, Sebastian Schulz-Jürgensen, Holger Rohde, Lutz Fischer, Saima Aslam, Christine Rohde, Ran Nir-Paz, Jean-Paul Pirnay, Dominique Singer, and Ania Carolina Muntau

Subjects

bacteriophage, Enterococcus faecium, biliary atresia, vancomycin, multi-drug resistance, critical care, Microbiology, QR1-502

Abstract

Phage therapy is an experimental therapeutic approach used to target multidrug-resistant bacterial infections. A lack of reliable data with regard to its efficacy and regulatory hurdles hinders a broad application. Here we report, for the first time, a case of vancomycin-resistant Enterococcus faecium abdominal infection in a one-year-old, critically ill, and three times liver transplanted girl, which was successfully treated with intravenous injections (twice per day for 20 days) of a magistral preparation containing two Enterococcus phages. This correlated with a reduction in baseline C-reactive protein (CRP), successful weaning from mechanical ventilation and without associated clinical adverse events. Prior to clinical use, phage genome was sequenced to confirm the absence of genetic determinants conferring lysogeny, virulence or antibiotic resistance, and thus their safety. Using a phage neutralization assay, no neutralizing anti-phage antibodies in the patient’s serum could be detected. Vancomycin-susceptible E. faecium isolates were identified in close relation to phage therapy and, by using whole-genome sequencing, it was demonstrated that vancomycin-susceptible E. faecium emerged from vancomycin-resistant progenitors. Covering a one year follow up, we provide further evidence for the feasibility of bacteriophage therapy that can serve as a basis for urgently needed controlled clinical trials.

Published

2021

27. A Case of In Situ Phage Therapy against Staphylococcus aureus in a Bone Allograft Polymicrobial Biofilm Infection: Outcomes and Phage-Antibiotic Interactions

Author

Brieuc Van Nieuwenhuyse, Christine Galant, Bénédicte Brichard, Pierre-Louis Docquier, Sarah Djebara, Jean-Paul Pirnay, Dimitri Van der Linden, Maya Merabishvili, and Olga Chatzis

Subjects

phage therapy, bacteriophage, Staphylococcus aureus, chronic osteitis, polymicrobial biofilm, antibiotic-bacteriophage combination, Microbiology, QR1-502

Abstract

Phage therapy (PT) shows promising potential in managing biofilm infections, which include refractory orthopedic infections. We report the case of a 13-year-old girl who developed chronic polymicrobial biofilm infection of a pelvic bone allograft after Ewing’s sarcoma resection surgery. Chronic infection by Clostridium hathewayi, Proteus mirabilis and Finegoldia magna was worsened by methicillin-susceptible Staphylococcus aureus exhibiting an inducible Macrolides-Lincosamides-Streptogramin B resistance phenotype (iMLSB). After failure of conventional conservative treatment, combination of in situ anti-S. aureus PT with surgical debridement and intravenous antibiotic therapy led to marked clinical and microbiological improvement, yet failed to prevent a recurrence of infection on the midterm. This eventually led to surgical graft replacement. Multiple factors can explain this midterm failure, among which incomplete coverage of the polymicrobial infection by PT. Indeed, no phage therapy against C. hathewayi, P. mirabilis or F. magna could be administered. Phage-antibiotic interactions were investigated using OmniLog® technology. Our results suggest that phage-antibiotic interactions should not be considered “unconditionally synergistic”, and should be assessed on a case-by-case basis. Specific pharmacodynamics of phages and antibiotics might explain these differences. More than two years after final graft replacement, the patient remains cured of her sarcoma and no further infections occurred.

Published

2021

28. A Design of Experiment Approach to Optimize Spray-Dried Powders Containing Pseudomonas aeruginosaPodoviridae and Myoviridae Bacteriophages

Author

Emilie Tabare, Tea Glonti, Christel Cochez, Cyrille Ngassam, Jean-Paul Pirnay, Karim Amighi, and Jonathan Goole

Subjects

DoE, QbD, antibiotic-resistant, bacteriophage therapy, spray-drying, drying, Microbiology, QR1-502

Abstract

In the present study, we evaluated the effect of spray-drying formulations and operating parameters of a laboratory-scale spray-dryer on the characteristics of spray-dried powders containing two Pseudomonas aeruginosa bacteriophages exhibiting different morphotypes: a podovirus (LUZ19) and a myovirus (14-1). We optimized the production process for bacteriophage-loaded powders, with an emphasis on long-term storage under ICH (international conference on harmonization) conditions. D-trehalose-/L-isoleucine-containing bacteriophage mixtures were spray-dried from aqueous solutions using a Büchi Mini Spray-dryer B-290 (Flawil, Switzerland). A response surface methodology was used for the optimization of the spray-drying process, with the following as-evaluated parameters: Inlet temperature, spray gas flow rate, and the D-trehalose/L-isoleucine ratio. The dried powders were characterized in terms of yield, residual moisture content, and bacteriophage lytic activity. L-isoleucine has demonstrated a positive impact on the activity of LUZ19, but a negative impact on 14-1. We observed a negligible impact of the inlet temperature and a positive correlation of the spray gas flow rate with bacteriophage activity. After optimization, we were able to obtain dry powder preparations of both bacteriophages, which were stable for a minimum of one year under different ICH storage conditions (up to and including 40 °C and 75% relative humidity).

Published

2021

29. Bacteriophage Therapy for Difficult-to-Treat Infections: The Implementation of a Multidisciplinary Phage Task Force (The PHAGEFORCE Study Protocol)

Author

Jolien Onsea, Saartje Uyttebroek, Baixing Chen, Jeroen Wagemans, Cédric Lood, Laura Van Gerven, Isabel Spriet, David Devolder, Yves Debaveye, Melissa Depypere, Lieven Dupont, Paul De Munter, Willy E. Peetermans, Vera van Noort, Maia Merabishvili, Jean-Paul Pirnay, Rob Lavigne, and Willem-Jan Metsemakers

Subjects

bacteriophage therapy, difficult-to-treat infections, safety, efficacy, patient registry, Microbiology, QR1-502

Abstract

In times where only a few novel antibiotics are to be expected, antimicrobial resistance remains an expanding global health threat. In case of chronic infections caused by therapy-resistant pathogens, physicians have limited therapeutic options, which are often associated with detrimental consequences for the patient. This has resulted in a renewed interest in alternative strategies, such as bacteriophage (phage) therapy. However, there are still important hurdles that currently impede the more widespread implementation of phage therapy in clinical practice. First, the limited number of good-quality case series and clinical trials have failed to show the optimal application protocol in terms of route of administration, frequency of administration, treatment duration and phage titer. Second, there is limited information on the systemic effects of phage therapy. Finally, in the past, phage therapy has been applied intuitively in terms of the selection of phages and their combination as parts of phage cocktails. This has led to an enormous heterogeneity in previously published studies, resulting in a lack of reliable safety and efficacy data for phage therapy. We hereby present a study protocol that addresses these scientific hurdles using a multidisciplinary approach, bringing together the experience of clinical, pharmaceutical and molecular microbiology experts.

Published

2021

30. Variant Analysis of SARS-CoV-2 Genomes from Belgian Military Personnel Engaged in Overseas Missions and Operations

Author

Jean-Paul Pirnay, Philippe Selhorst, Samuel L. Hong, Christel Cochez, Barney Potter, Piet Maes, Mauro Petrillo, Gytis Dudas, Vincent Claes, Yolien Van der Beken, Gilbert Verbeken, Julie Degueldre, Simon Dellicour, Lize Cuypers, France T’Sas, Guy Van den Eede, Bruno Verhasselt, Wouter Weuts, Cedric Smets, Jan Mertens, Philippe Geeraerts, Kevin K. Ariën, Emmanuel André, Pierre Neirinckx, Patrick Soentjens, and Guy Baele

Subjects

SARS-CoV-2, COVID-19, military, outbreak, variants, genomic epidemiology, Microbiology, QR1-502

Abstract

More than a year after the first identification of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) as the causative agent of the 2019 coronavirus disease (COVID-19) in China, the emergence and spread of genomic variants of this virus through travel raise concerns regarding the introduction of lineages in previously unaffected regions, requiring adequate containment strategies. Concomitantly, such introductions fuel worries about a possible increase in transmissibility and disease severity, as well as a possible decrease in vaccine efficacy. Military personnel are frequently deployed on missions around the world. As part of a COVID-19 risk mitigation strategy, Belgian Armed Forces that engaged in missions and operations abroad were screened (7683 RT-qPCR tests), pre- and post-mission, for the presence of SARS-CoV-2, including the identification of viral lineages. Nine distinct viral genotypes were identified in soldiers returning from operations in Niger, the Democratic Republic of the Congo, Afghanistan, and Mali. The SARS-CoV-2 variants belonged to major clades 19B, 20A, and 20B (Nextstrain nomenclature), and included “variant of interest” B.1.525, “variant under monitoring” A.27, as well as lineages B.1.214, B.1, B.1.1.254, and A (pangolin nomenclature), some of which are internationally monitored due to the specific mutations they harbor. Through contact tracing and phylogenetic analysis, we show that isolation and testing policies implemented by the Belgian military command appear to have been successful in containing the influx and transmission of these distinct SARS-CoV-2 variants into military and civilian populations.

Published

2021

31. Safety and efficacy of phage therapy in difficult-to-treat infections: a systematic review

Author

Saartje Uyttebroek, Baixing Chen, Jolien Onsea, Fred Ruythooren, Yves Debaveye, David Devolder, Isabel Spriet, Melissa Depypere, Jeroen Wagemans, Rob Lavigne, Jean-Paul Pirnay, Maya Merabishvili, Paul De Munter, Willy E Peetermans, Lieven Dupont, Laura Van Gerven, and Willem-Jan Metsemakers

Subjects

Infectious Diseases, Bacteria, Humans, Bacteriophages, Bacterial Infections, Phage Therapy, Anti-Bacterial Agents

Abstract

According to the latest reports from WHO, the incidence of antibiotic-resistant bacterial infections is increasing worldwide, resulting in increased morbidity and mortality and a rising pressure on health-care systems. However, the development of new antibiotics is an expensive and time-consuming process, urging scientists to seek alternative antimicrobial strategies. Over the past few decades, the concept of therapeutic administration of bacteriophages (also known as phages) has gained popularity worldwide. Although conceptually promising, the widespread implementation of phage therapy in routine clinical practice is restricted by the scarcity of safety and efficacy data obtained according to the strict standards of the applicable clinical trial regulations. In this systematic review, we list clinical data published between Jan 1, 2000 and Aug 14, 2021 on the safety and efficacy of phage therapy for difficult-to-treat bacterial infections, and provide an overview of trials and case studies on the use of phage therapy in several medical disciplines.

Published

2022

32. Evaluation of the Stability of Bacteriophages in Different Solutions Suitable for the Production of Magistral Preparations in Belgium

Author

Hans Duyvejonck, Maya Merabishvili, Mario Vaneechoutte, Steven de Soir, Rosanna Wright, Ville-Petri Friman, Gilbert Verbeken, Daniel De Vos, Jean-Paul Pirnay, Els Van Mechelen, and Stefan J. T. Vermeulen

Subjects

phage, API, magistral preparation, buffers, infusion solutions, infectivity, Microbiology, QR1-502

Abstract

In Belgium, the incorporation of phages into magistral preparations for human application has been permitted since 2018. The stability of such preparations is of high importance to guarantee quality and efficacy throughout treatments. We evaluated the ability to preserve infectivity of four different phages active against three different bacterial species in five different buffer and infusion solutions commonly used in medicine and biotechnological manufacturing processes, at two different concentrations (9 and 7 log pfu/mL), stored at 4 °C. DPBS without Ca2+ and Mg2+ was found to be the best option, compared to the other solutions. Suspensions with phage concentrations of 7 log pfu/mL were unsuited as their activity dropped below the effective therapeutic dose (6–9 log pfu/mL), even after one week of storage at 4 °C. Strong variability between phages was observed, with Acinetobacter baumannii phage Acibel004 being stable in four out of five different solutions. We also studied the long term storage of lyophilized staphylococcal phage ISP, and found that the titer could be preserved during a period of almost 8 years when sucrose and trehalose were used as stabilizers. After rehydration of the lyophilized ISP phage in saline, the phage solutions remained stable at 4 °C during a period of 126 days.

Published

2021

33. Epidemiology and etiology of blood stream infections in a Belgian burn wound center

Author

Dries Baekelandt, Diana Isabela Costescu Strachinaru, Jean-Luc Gallez, Jean-Paul Pirnay, Mihai Strachinaru, Peter Vanbrabant, Marie-Sophie Paridaens, Sarah Djebara, Patrick Soentjens, Daniel De Vos, Pierre-Michel François, and Cardiology

Subjects

medicine.medical_specialty, Klebsiella pneumoniae, medicine.drug_class, Burn Units, Antibiotics, Microbial Sensitivity Tests, medicine.disease_cause, 03 medical and health sciences, 0302 clinical medicine, Belgium, Staphylococcus epidermidis, Internal medicine, Epidemiology, medicine, Humans, Infection control, 030212 general & internal medicine, Retrospective Studies, biology, Pseudomonas aeruginosa, business.industry, General Medicine, biology.organism_classification, Anti-Bacterial Agents, Multiple drug resistance, 030220 oncology & carcinogenesis, Etiology, Burns, business

Abstract

Background: Infections are a major cause of morbidity in burn patients. We aimed to investigate the epidemiology and antibiotic susceptibility of blood stream infections in order to gain a better understanding of their role and burden in our Burn Wound Center. Methods: This retrospective epidemiological investigation analyzed data derived from medical files of patients admitted to our Burn Wound Center having had at least one positive blood culture between 1 January and 31 December 2018. We focused on the prevalence of causative agents in blood stream infections in function of the time after injury and on their drug sensitivity. Results: Among the 363 patients admitted to our Burn Wound Center during the study period, 29 had at least one episode of blood stream infection. Gram-negative organisms accounted for 56,36% of the pathogens in blood stream infections, Gram-positives for 38,17%, and yeasts for 5,45%. Pseudomonas aeruginosa was the most common bacterium (20%), followed by Staphylococcus epidermidis (16.36%), Escherichia coli and Klebsiella pneumoniae (9,09% each). A third of the Gram-negative isolates were multidrug resistant. Gram-positive cocci were isolated from blood cultures at a median of 9 days after the injury, earlier than Gram-negative rods (median 15 days). The main sources of blood stream infections were the burn wounds, followed by infected catheters. Conclusions: Multidrug resistant bacteria must be considered when selecting empirical antibiotic therapy in septic burn patients. In our center, we need to update our antibiotic guidelines, to review the hospital infection control measures and to introduce routine typing technology.

Published

2022

34. Analysis of phage therapy failure in a patient with aPseudomonas aeruginosaprosthetic vascular graft infection

Author

Lucia Blasco, Inmaculada López-Hernández, Miguel Rodríguez-Fernández, Javier Pérez-Florido, Carlos S. Casimiro-Soriguer, Sarah Djebara, Maya Merabishvili, Jean-Paul Pirnay, Jesús Rodríguez-Baño, María Tomás, and Luis Eduardo López Cortés

Abstract

Clinical case of a patient with aPseudomonas aeruginosamultidrug-resistant prosthetic vascular graft infection which was treated with a cocktail of phages (PT07, 14/01 and PNM) in combination with ceftazidime-avibactam (CAZ/AVI). After the application of the phage treatment and in absence of antimicrobial therapy, a newP. aeruginosabloodstream infection (BSI) with a septic residual limb metastasis occurred, now involving a wild-type strain being susceptible to ß-lactams and quinolones. Clinical strains were analyzed by microbiology and whole genome sequencing techniques. In relation with phage administration, the clinical isolates ofP. aeruginosabefore phage therapy (HE2011471) and post phage therapy (HE2105886) showed a clonal relationship but with important genomic changes which could be involved in the resistance to this therapy. Finally, phenotypic studies showed a decreased in Minimum Inhibitory Concentration (MIC) to ß-lactams and quinolones as well as an increase of the biofilm production and phage resistant mutants in the clinical isolate ofP. aeruginosapost phage therapy.ImportancePhage therapy is a promising new treatment against infections produced by multi-drug resistant pathogens. For that, it would be necessary to know more about the clinical response and host-phage interactions by massive sequencing techniques to improve phage therapy application. In this work, we analyzed the clinical, microbiological and molecular features of theP. aeruginosaisolates in prosthetic vascular graft infection after the phages administration failure against this infection. This knowledge could allow to develop strategies of improvement of the use of phage therapy as treatment of multiple clinical infections.

Published

2023

35. A Case of Phage Therapy against Pandrug-Resistant Achromobacter xylosoxidans in a 12-Year-Old Lung-Transplanted Cystic Fibrosis Patient

Author

David Lebeaux, Maia Merabishvili, Eric Caudron, Damien Lannoy, Leen Van Simaey, Hans Duyvejonck, Romain Guillemain, Caroline Thumerelle, Isabelle Podglajen, Fabrice Compain, Najiby Kassis, Jean-Luc Mainardi, Johannes Wittmann, Christine Rohde, Jean-Paul Pirnay, Nicolas Dufour, Stefan Vermeulen, Yannick Gansemans, Filip Van Nieuwerburgh, and Mario Vaneechoutte

Subjects

cystic fibrosis, lung transplantation, antibiotic resistance, Achromobacter xylosoxidans, bacteriophage therapy, Microbiology, QR1-502

Abstract

Bacteriophages are a promising therapeutic strategy among cystic fibrosis and lung-transplanted patients, considering the high frequency of colonization/infection caused by pandrug-resistant bacteria. However, little clinical data are available regarding the use of phages for infections with Achromobacter xylosoxidans. A 12-year-old lung-transplanted cystic fibrosis patient received two rounds of phage therapy because of persistent lung infection with pandrug-resistant A. xylosoxidans. Clinical tolerance was perfect, but initial bronchoalveolar lavage (BAL) still grew A. xylosoxidans. The patient’s respiratory condition slowly improved and oxygen therapy was stopped. Low-grade airway colonization by A. xylosoxidans persisted for months before samples turned negative. No re-colonisation occurred more than two years after phage therapy was performed and imipenem treatment was stopped. Whole genome sequencing indicated that the eight A. xylosoxidans isolates, collected during phage therapy, belonged to four delineated strains, whereby one had a stop mutation in a gene for a phage receptor. The dynamics of lung colonisation were documented by means of strain-specific qPCRs on different BALs. We report the first case of phage therapy for A. xylosoxidans lung infection in a lung-transplanted patient. The dynamics of airway colonization was more complex than deduced from bacterial culture, involving phage susceptible as well as phage resistant strains.

Published

2021

36. Use of bacteriophages in the treatment of colistin-only-sensitive Pseudomonas aeruginosa septicaemia in a patient with acute kidney injury—a case report

Author

Serge Jennes, Maia Merabishvili, Patrick Soentjens, Kim Win Pang, Thomas Rose, Elkana Keersebilck, Olivier Soete, Pierre-Michel François, Simona Teodorescu, Gunther Verween, Gilbert Verbeken, Daniel De Vos, and Jean-Paul Pirnay

Subjects

Pseudomonas aeruginosa, Antibiotic resistance, Colistin, Bacteraemia, Acute kidney injury, Intravenous, Medical emergencies. Critical care. Intensive care. First aid, RC86-88.9

Published

2017

37. Characterization of Salmonella Isolates from Various Geographical Regions of the Caucasus and Their Susceptibility to Bacteriophages

Author

Khatuna Makalatia, Elene Kakabadze, Jeroen Wagemans, Nino Grdzelishvili, Nata Bakuradze, Gulnara Natroshvili, Nino Macharashvili, Anahit Sedrakyan, Karine Arakelova, Zhanna Ktsoyan, Magdalina Zakharyan, Zaruhi Gevorgyan, Armine Mnatsakanyan, Farida Tishkova, Cédric Lood, Dieter Vandenheuvel, Rob Lavigne, Jean-Paul Pirnay, Daniel De Vos, Nina Chanishvili, and Maia Merabishvili

Subjects

Salmonella, foodborne pathogens, Armenia, Georgia, bacteriophages, phage therapy, Microbiology, QR1-502

Abstract

Non-typhoidal Salmonella present a major threat to animal and human health as food-borne infectious agents. We characterized 91 bacterial isolates from Armenia and Georgia in detail, using a suite of assays including conventional microbiological methods, determining antimicrobial susceptibility profiles, matrix assisted laser desorption/ionization-time of flight (MALDI-TOF) mass spectrometry, serotyping (using the White-Kauffmann-Le Minor scheme) and genotyping (repetitive element sequence-based PCR (rep-PCR)). No less than 61.5% of the isolates were shown to be multidrug-resistant. A new antimicrobial treatment strategy is urgently needed. Phage therapy, the therapeutic use of (bacterio-) phages, the bacterial viruses, to treat bacterial infections, is increasingly put forward as an additional tool for combatting antibiotic resistant infections. Therefore, we used this representative set of well-characterized Salmonella isolates to analyze the therapeutic potential of eleven single phages and selected phage cocktails from the bacteriophage collection of the Eliava Institute (Georgia). All isolates were shown to be susceptible to at least one of the tested phage clones or their combinations. In addition, genome sequencing of these phages revealed them as members of existing phage genera (Felixounavirus, Seunavirus, Viunavirus and Tequintavirus) and did not show genome-based counter indications towards their applicability against non-typhoidal Salmonella in a phage therapy or in an agro-food setting.

Published

2020

38. Study of a SARS-CoV-2 Outbreak in a Belgian Military Education and Training Center in Maradi, Niger

Author

Jean-Paul Pirnay, Philippe Selhorst, Christel Cochez, Mauro Petrillo, Vincent Claes, Yolien Van der Beken, Gilbert Verbeken, Julie Degueldre, France T’Sas, Guy Van den Eede, Wouter Weuts, Cedric Smets, Jan Mertens, Philippe Geeraerts, Kevin K. Ariën, Pierre Neirinckx, and Patrick Soentjens

Subjects

SARS-CoV-2, coronavirus, COVID-19, quantitative RT-PCR, serology, military, Microbiology, QR1-502

Abstract

Coronavirus disease 2019 (COVID-19) caused by severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) compromises the ability of military forces to fulfill missions. At the beginning of May 2020, 22 out of 70 Belgian soldiers deployed to a military education and training center in Maradi, Niger, developed mild COVID-19 compatible symptoms. Immediately upon their return to Belgium, and two weeks later, all seventy soldiers were tested for SARS-CoV-2 RNA (RT-qPCR) and antibodies (two immunoassays). Nine soldiers had at least one positive COVID-19 diagnostic test result. Five of them exhibited COVID-19 symptoms (mainly anosmia, ageusia, and fever), while four were asymptomatic. In four soldiers, SARS-CoV-2 viral load was detected and the genomes were sequenced. Conventional and genomic epidemiological data suggest that these genomes have an African most recent common ancestor and that the Belgian military service men were infected through contact with locals. The medical military command implemented testing of all Belgian soldiers for SARS-CoV-2 viral load and antibodies, two to three days before their departure on a mission abroad or on the high seas, and for specific missions immediately upon their return in Belgium. Some military operational settings (e.g., training camps in austere environments and ships) were also equipped with mobile infectious disease (COVID-19) testing capacity.

Published

2020

39. European regulatory aspects of phage therapy: magistral phage preparations

Author

Gilbert Verbeken and Jean-Paul Pirnay

Subjects

European level, Bacteria, Phage therapy, medicine.drug_class, viruses, medicine.medical_treatment, Antibiotics, Bacterial Infections, Biology, Anti-Bacterial Agents, Microbiology, Antibiotic resistance, Virology, medicine, Humans, Bacteriophages, Phage Therapy, Bacterial virus, Soviet union

Abstract

Bacteriophages (phages) are bacterial viruses, and have been used for more than a century to combat bacterial infections, particularly in Poland and in the former Soviet Union. The antimicrobial resistance crisis has triggered a renewed interest in the therapeutic use of natural phages. The capacity of phages to specifically target pathogenic strains (sparing commensal bacteria), to adapt to these strains, and to rapidly overcome bacterial resistance, makes them suitable for flexible therapeutic approaches. To maximally exploit these advantages phages offer over conventional 'static' drugs such as traditional small molecule-type antibiotics, it is important that these sustainable phage products are not submitted to the traditional (long and expensive) medicinal product development and licensing pathways. Here we discuss the extrapolation of the Belgian 'magistral preparation' phage therapy framework to the European level, enabling an expeditious re-introduction of personalized phage therapy into Europe.

Published

2022

40. Bacteriophage Application for Difficult-to-treat Musculoskeletal Infections: Development of a Standardized Multidisciplinary Treatment Protocol

Author

Jolien Onsea, Patrick Soentjens, Sarah Djebara, Maia Merabishvili, Melissa Depypere, Isabel Spriet, Paul De Munter, Yves Debaveye, Stefaan Nijs, Paul Vanderschot, Jeroen Wagemans, Jean-Paul Pirnay, Rob Lavigne, and Willem-Jan Metsemakers

Subjects

bacteriophage therapy, antibiotic resistance, multidisciplinary team, musculoskeletal infection, Microbiology, QR1-502

Abstract

Bacteriophage therapy has recently attracted increased interest, particularly in difficult-to-treat infections. Although it is not a novel concept, standardized treatment guidelines are currently lacking. We present the first steps towards the establishment of a “multidisciplinary phage task force” (MPTF) and a standardized treatment pathway, based on our experience of four patients with severe musculoskeletal infections. After review of their medical history and current clinical status, a multidisciplinary team found four patients with musculoskeletal infections eligible for bacteriophage therapy within the scope of Article 37 of the Declaration of Helsinki. Treatment protocols were set up in collaboration with phage scientists and specialists. Based on the isolated pathogens, phage cocktails were selected and applied intraoperatively. A draining system allowed postoperative administration for a maximum of 10 days, 3 times per day. All patients received concomitant antibiotics and their clinical status was followed daily during phage therapy. No severe side-effects related to the phage application protocol were noted. After a single course of phage therapy with concomitant antibiotics, no recurrence of infection with the causative strains occurred, with follow-up periods ranging from 8 to 16 months. This study presents the successful outcome of bacteriophage therapy using a standardized treatment pathway for patients with severe musculoskeletal infection. A multidisciplinary team approach in the form of an MPTF is paramount in this process.

Published

2019

41. Processing Phage Therapy Requests in a Brussels Military Hospital: Lessons Identified

Author

Sarah Djebara, Christiane Maussen, Daniel De Vos, Maya Merabishvili, Benjamin Damanet, Kim Win Pang, Peggy De Leenheer, Isabella Strachinaru, Patrick Soentjens, and Jean-Paul Pirnay

Subjects

bacteriophages, phage therapy, antibiotic resistance, Pseudomonas aeruginosa, Escherichia coli, Staphylococcus aureus, Brussels, Belgium, Microbiology, QR1-502

Abstract

There is a growing interest in phage therapy as a complementary tool against antimicrobial resistant infections. Since 2007, phages have been used sporadically to treat bacterial infections in well-defined cases in the Queen Astrid military hospital (QAMH) in Brussels, Belgium. In the last two years, external requests for phage therapy have increased significantly. From April 2013 to April 2018, 260 phage therapy requests were addressed to the QAMH. Of these 260 requests, only 15 patients received phage therapy. In this paper, we analyze the phage therapy requests and outcomes in order to improve upon the overall capacity for phage therapy at the QAMH.

Published

2019

42. Successful case of adjunctive intravenous bacteriophage therapy to treat left ventricular assist device infection

Author

T Tkhilaishvili, Jean-Paul Pirnay, Volkmar Falk, Evgenij Potapov, Christoph Starck, Felix Schoenrath, and Maya Merabishvili

Subjects

Microbiology (medical), medicine.medical_specialty, business.industry, medicine.medical_treatment, Surgery, Infectious Diseases, Bacteriophage Therapy, Ventricular assist device, Pseudomonas aeruginosa, medicine, Humans, Bacteriophages, Pseudomonas Infections, Heart-Assist Devices, Phage Therapy, business

Published

2021

43. Stability of bacteriophages in burn wound care products.

Author

Maia Merabishvili, Riet Monserez, Jonas van Belleghem, Thomas Rose, Serge Jennes, Daniel De Vos, Gilbert Verbeken, Mario Vaneechoutte, and Jean-Paul Pirnay

Subjects

Medicine, Science

Abstract

Bacteriophages could be used along with burn wound care products to enhance antimicrobial pressure during treatment. However, some of the components of the topical antimicrobials that are traditionally used for the prevention and treatment of burn wound infection might affect the activity of phages. Therefore, it is imperative to determine the counteraction of therapeutic phage preparations by burn wound care products before application in patients. Five phages, representatives of two morphological families (Myoviridae and Podoviridae) and active against 3 common bacterial burn wound pathogens (Acinetobacter baumannii, Pseudomonas aeruginosa and Staphylococcus aureus) were tested against 13 different products commonly used in the treatment of burn wounds. The inactivation of the phages was quite variable for different phages and different products. Majority of the anti-infective products affected phage activity negatively either immediately or in the course of time, although impact was not always significant. Products with high acidity had the most adverse effect on phages. Our findings demonstrate that during combined treatment the choice of phages and wound care products must be carefully defined in advance.

Published

2017

44. Evaluating risk, safety and efficacy of novel reproductive techniques and therapies through the EuroGTP II risk assessment tool

Author

Esteve Trias, 1, Martine Nijs, 2, 3 4, Ioana Adina Rugescu, Francesco Lombardo, 5, Gueorgui Nikolov, 5, Veerle Provoost, 6, Annelies Tolpe, 7, Nathalie Vermeulen, 8, Zdravka Veleva, 9, Rita Piteira 10, Ricardo Casaroli-Marano 10, Kelly Tilleman, 7, EuroGTP II Study Group:EuroGTP II Study Group: Anna Vilarrodona, A Rita Piteira, Elba, Agustí, Elisabet, Tahull, Esteve, Trias, Eva Maria Martinez, Ivan, Miranda, Jaime, Tabera, Maria Luisa Perez, Marta, Torrabadella, Nausica, Otero, Oscar, Fariñas, Patricia, López-Chicón, Sergi, Querol, Ricardo, Casaroli, Akila, Chandrasekar, Kyle, Bennett, Paul, Rooney, Richard, Lomas, Mar, Carmona, Esteban, Molano, Myriam, Ormeño, Branka Golubić Ćepulić, Ivan, Rozman, Marijana, Dragović, Cristina, Pintus, Eliana, Porta, Fiorenza, Bariani, Letizia, Lombardini, Liliam, Santilli, Mariapia, Mariani, Paola Di Ciaccio, Silvia, Pisanu, Artur, Kamiński, Izabela, Uhrynowska-Tyszkiewicz, Ewa, Olender, Anne Marie van Walraven, Arlinke, Bokhorst, Ingrid van Veen, Kelly, Tilleman, Tolpe, Annelies, Veerle, Provoost, Lieve, Nuytinck, Maryana, Simeonova, Daniela, Staneva-Petkova, Dessislava, Tzoneva, Tsvetelina, Kircheva-Nikolova, Violetta, Marinkova, Valery, Georgiev, Yoran, Peev, Elizabeth, Manova, Cecilia, Surján, Éva, Belicza, Gábor, Szarvas, Judit, Lám, László, Bencze, Martin, Börgel, Mareike, Derks, Sibylla, Schwarz, Ramadan, Jashari, Richard, N Noumanje, Rosario Daiz Rodriguez, Tiia, Tallinen, Hanna, Kankkonen, Toni-Karri, Pakarinen, Gilbert, Verbeken, Jean-Paul, Pirnay, Thomas, Rose, Jean-Pierre, Draye, Simone, Hennerbichler, Jill, Davies, Jacinto, Ibañez, Cristina, Magli, Nathalie, Vermeulen, Monserrat, Boada, Eoin, Mcgrath, John, Armitage, Gary, Jones, Marta, Fraga, Dulce, Roldao, Josefina, Oliveira, Adolfo, Paolin, Diletta, Trojan, Giulia, Montagner, Diego, Ponzin, Stefano, Ferrari, Lombardo, Francesco, Carlijn, Voermans, Nelleke, Richters, Ioana Adina Rugescu, Gianpaolo, Azzena, Fabozzo, Assunta, Helene, Schoenmans, Jose Luis Pomar, Pablo, Gelber, Katalin, Rajczy, Boris, Calmels, Stephan, Mielke, Tanja, Netelenbos, Mirko, Ragazzo, Gueorgui, Nikolov, Marton, Elisabetta, Martine, Nijs, Antonella, Franch, Gianluca, Piovan, Francesco, Dell'Antonia, Martyn, Snow, Ines, Bojanic, Zdravka, Veleva, Grezgorz, Basak, Margarida, Amil, Sandra, Shaw, Aurora, Navarro, Tim, Spalding, and Peter, Verdonk

Subjects

safety, Research Report, Risk analysis, Quality management, Reproductive Techniques, Assisted, risk analysis, Computer science, media_common.quotation_subject, efficacy, gamete, embryo, 030209 endocrinology & metabolism, Context (language use), Risk management tools, Risk Assessment, 03 medical and health sciences, 0302 clinical medicine, Quality (business), Prospective Studies, Duration (project management), Risk management, media_common, novel techniques, validation, 030219 obstetrics & reproductive medicine, business.industry, assisted reproduction technologies, Rehabilitation, reproductive tissue, Obstetrics and Gynecology, Germ Cells, Reproductive Medicine, Risk analysis (engineering), business, Risk assessment, quality management

Abstract

STUDY QUESTIONCan risks associated with novelties in assisted reproduction technologies (ARTs) be assessed in a systematic and structured way?SUMMARY ANSWERAn ART-specific risk assessment tool has been developed to assess the risks associated with the development of novelties in ART (EuroGTP II-ART).WHAT IS KNOWN ALREADYHow to implement new technologies in ART is well-described in the literature. The successive steps should include testing in animal models, executing pre-clinical studies using supernumerary gametes or embryos, prospective clinical trials and finally, short- and long-term follow-up studies on the health of the offspring. A framework categorizing treatments from experimental through innovative to established according to the extent of the studies conducted has been devised. However, a systematic and standardized methodology to facilitate risk evaluation before innovations are performed in a clinical setting is lacking.STUDY DESIGN, SIZE, DURATIONThe EuroGTP II-ART risk assessment tool was developed on the basis of a generic risk assessment algorithm developed for tissue and cell therapies and products (TCTPs) in the context of the project ‘Good Practices for demonstrating safety and quality through recipient follow-up European Good Tissue and cells Practices II (EuroGTP II)’. For this purpose, a series of four meetings was held in which eight ART experts participated. In addition, several tests and simulations were undertaken to fine-tune the final tool.PARTICIPANTS/MATERIALS, SETTING, METHODSThe three steps comprising the EuroGTP II methodology were evaluated against its usefulness and applicability in ART. Ways to improve and adapt the methodology into ART risk assessment were agreed and implemented.MAIN RESULTS AND THE ROLE OF CHANCEAssessment of the novelty (Step 1), consisting of seven questions, is the same as for other TCTPs. Practical examples were included for better understanding. Identification of potential risks and consequences (Step 2), consisting of a series of risks and risk consequences to consider during risk assessment, was adapted from the generic methodology, adding more potential risks for processes involving gonadic tissues. The algorithm to score risks was also adapted, giving a specific range of highest possible risk scores. A list of strategies for risk reduction and definition of extended studies required to ensure effectiveness and safety (Step 3) was also produced by the ART experts, based on generic EuroGTP II methodology. Several explanations and examples were provided for each of the steps for better understanding within this field.LIMITATIONS, REASONS FOR CAUTIONA multidisciplinary team is needed to perform risk assessment, to interpret results and to determine risk mitigation strategies and/or next steps required to ensure the safety in the clinical use of novelties.WIDER IMPLICATIONS OF THE FINDINGSThis is a dynamic tool whose value goes beyond assessment of risk before implementing a novel ART in clinical practice, to re-evaluate risks based on information collected during the process.STUDY FUNDING / COMPETING INTEREST(S)This study was called EUROGTP II and was funded by the European Commission (Grant agreement number 709567). The authors declare no competing interests concerning the results of this study.

Published

2020

45. Bacteriophage therapy as a treatment strategy for orthopaedic-device-related infections: where do we stand?

Author

Jeroen Wagemans, Jolien Onsea, M Di Luca, Andrej Trampuz, M Gonzalez-Moreno, W-J Metsemakers, Rob Lavigne, Thomas Fintan Moriarty, and Jean-Paul Pirnay

Subjects

medicine.medical_specialty, Prosthesis-Related Infections, lcsh:Diseases of the musculoskeletal system, medicine.drug_class, Bacteriophage therapy, Clinical application, Current evidence, Orthopaedic-device-related infections, 0206 medical engineering, Antibiotics, lcsh:Surgery, bacteriophage therapy, 02 engineering and technology, Bacteriophage, Antibiotic resistance, orthopaedic-device-related infections, medicine, Animals, Humans, Bacteriophages, Phage Therapy, Intensive care medicine, current evidence, Clinical Trials as Topic, biology, Orthopedic Equipment, business.industry, Orthopaedic device, lcsh:RD1-811, biology.organism_classification, 020601 biomedical engineering, Clinical trial, clinical application, Bacteriophage Therapy, Biofilms, Immune System, Good clinical practice, Bacterial virus, lcsh:RC925-935, business

Abstract

Antibiotic resistance represents a key challenge of the 21st century. Since the pipeline of new antibiotics in development is limited, the introduction of alternative antimicrobial strategies is urgently required. Bacteriophage therapy, the use of bacterial viruses to selectively kill bacterial pathogens, is re-emerging as a potential strategy to tackle difficult-to-treat and multidrug-resistant pathogens. The last decade has seen a surge in scientific investigation into bacteriophage therapy, including targeting orthopaedic-device-related infections (ODRIs) in several successful case studies. However, pharmacological data, knowledge on the interplay with the immune system and, especially in ODRIs, the optimal local application strategy and treatment outcomes remain scarce. The present review reports the state-of-the-art in bacteriophage therapy in ODRIs and addresses the hurdles in establishing bacteriophage therapy under good clinical practice guidelines. These hurdles include a lack of data concerning bacteriophage production, processing, administration and dosing, as well as follow-up clinical monitoring reports. To overcome these challenges, an integrated clinical approach is required, supported by comprehensive legislature to enable expansive and correctly implemented clinical trials. ispartof: EUROPEAN CELLS & MATERIALS vol:39 pages:193-210 ispartof: location:Switzerland status: published

Published

2020

46. Parallel phage resistance - virulence trade - offs during clinical phage therapy and in vitro

Author

Meaghan Castledine, Daniel Padfield, Pawel Sierocinski, Jesica Soria Pascual, Adam Hughes, Lotta Mäkinen, Ville-Petri Friman, Jean-Paul Pirnay, Daniel De Vos, and Angus Buckling

Subjects

General Materials Science

Abstract

With rising antibiotic resistance, modern medicine needs new approaches for tackling bacterial infections. Phage therapy uses the viruses of pathogenic bacteria to clear the infection. Unlike antibiotics, phage can evolve if bacteria become resistant to maintain or even increase their infectivity (coevolution). While laboratory studies can give insight into complex bacteria-phage interactions, whether they act as a true representation of phage therapy in patients is unknown. Here, we compared phage therapy in a patient to that of in vitro experiments. The patient had been admitted with aPseudomonas aeruginosainfection and was successfully treated with a phage cocktail. Bacteria were isolated before and during phage therapy, allowing us to follow bacteria-phage coevolution in the patient while doing experiments on the same clones in vitro. In vivo and in vitro, bacteria rapidly evolved resistance with little or no evidence of bacteria - phage coevolution. Although resistance mechanisms differed, parallel resistance - virulence trade-offs were found in vivo and in vitro. Therefore, phage resistance could increase treatment success and our results indicate to what extent bacteria - phage evolutionary dynamics can be predicted from in vitro experiments.

Published

2022

47. Expert Opinion on Three Phage Therapy Related Topics: Bacterial Phage Resistance, Phage Training and Prophages in Bacterial Production Strains

Author

Christine Rohde, Grégory Resch, Jean-Paul Pirnay, Bob G. Blasdel, Laurent Debarbieux, Daniel Gelman, Andrzej Górski, Ronen Hazan, Isabelle Huys, Elene Kakabadze, Małgorzata Łobocka, Alice Maestri, Gabriel Magno de Freitas Almeida, Khatuna Makalatia, Danish J. Malik, Ivana Mašlaňová, Maia Merabishvili, Roman Pantucek, Thomas Rose, Dana Štveráková, Hilde Van Raemdonck, Gilbert Verbeken, and Nina Chanishvili

Subjects

Bacteriophage, phage therapy, resistance, adaptation, prophage, production, regulation, Microbiology, QR1-502

Abstract

Phage therapy is increasingly put forward as a “new” potential tool in the fight against antibiotic resistant infections. During the “Centennial Celebration of Bacteriophage Research” conference in Tbilisi, Georgia on 26–29 June 2017, an international group of phage researchers committed to elaborate an expert opinion on three contentious phage therapy related issues that are hampering clinical progress in the field of phage therapy. This paper explores and discusses bacterial phage resistance, phage training and the presence of prophages in bacterial production strains while reviewing relevant research findings and experiences. Our purpose is to inform phage therapy stakeholders such as policy makers, officials of the competent authorities for medicines, phage researchers and phage producers, and members of the pharmaceutical industry. This brief also points out potential avenues for future phage therapy research and development as it specifically addresses those overarching questions that currently call for attention whenever phages go into purification processes for application.

Published

2018

48. Selection of Potential Therapeutic Bacteriophages that Lyse a CTX-M-15 Extended Spectrum β-Lactamase Producing Salmonella enterica Serovar Typhi Strain from the Democratic Republic of the Congo

Author

Elene Kakabadze, Khatuna Makalatia, Nino Grdzelishvili, Nata Bakuradze, Marina Goderdzishvili, Ia Kusradze, Marie-France Phoba, Octavie Lunguya, Cédric Lood, Rob Lavigne, Jan Jacobs, Stijn Deborggraeve, Tessa De Block, Sandra Van Puyvelde, David Lee, Aidan Coffey, Anahit Sedrakyan, Patrick Soentjens, Daniel De Vos, Jean-Paul Pirnay, and Nina Chanishvili

Subjects

typhoid fever, Salmonella Typhi, extended-spectrum beta lactamases (ESBL), Democratic Republic of the Congo, bacteriophages, Microbiology, QR1-502

Abstract

Recently, a Salmonella Typhi isolate producing CTX-M-15 extended spectrum β-lactamase (ESBL) and with decreased ciprofloxacin susceptibility was isolated in the Democratic Republic of the Congo. We have selected bacteriophages that show strong lytic activity against this isolate and have potential for phage-based treatment of S. Typhi, and Salmonella in general.

Published

2018

49. Silk Route to the Acceptance and Re-Implementation of Bacteriophage Therapy—Part II

Author

Expert round table on acceptance and re-implementation of bacteriophage therapy, Wilbert Sybesma, Christine Rohde, Pavol Bardy, Jean-Paul Pirnay, Ian Cooper, Jonathan Caplin, Nina Chanishvili, Aidan Coffey, Daniel De Vos, Amber Hartman Scholz, Shawna McCallin, Hilke Marie Püschner, Roman Pantucek, Rustam Aminov, Jiří Doškař, and D. İpek Kurtbӧke

Subjects

antibiotic resistance, bacteriophages, bacteriophage therapy, Nagoya Protocol, CRISPR CAS, Therapeutics. Pharmacology, RM1-950

Abstract

This perspective paper follows up on earlier communications on bacteriophage therapy that we wrote as a multidisciplinary and intercontinental expert-panel when we first met at a bacteriophage conference hosted by the Eliava Institute in Tbilisi, Georgia in 2015. In the context of a society that is confronted with an ever-increasing number of antibiotic-resistant bacteria, we build on the previously made recommendations and specifically address how the Nagoya Protocol might impact the further development of bacteriophage therapy. By reviewing a number of recently conducted case studies with bacteriophages involving patients with bacterial infections that could no longer be successfully treated by regular antibiotic therapy, we again stress the urgency and significance of the development of international guidelines and frameworks that might facilitate the legal and effective application of bacteriophage therapy by physicians and the receiving patients. Additionally, we list and comment on several recently started and ongoing clinical studies, including highly desired double-blind placebo-controlled randomized clinical trials. We conclude with an outlook on how recently developed DNA editing technologies are expected to further control and enhance the efficient application of bacteriophages.

Published

2018

50. Author response: Parallel evolution of Pseudomonas aeruginosa phage resistance and virulence loss in response to phage treatment in vivo and in vitro

Author

Meaghan Castledine, Daniel Padfield, Pawel Sierocinski, Jesica Soria Pascual, Adam Hughes, Lotta Mäkinen, Ville-Petri Friman, Jean-Paul Pirnay, Maya Merabishvili, Daniel de Vos, and Angus Buckling

Published

2022