Bacteriophage Clinical Trial for Periprosthetic Joint Infection of Multidrug Resistant Pseudomonas Aeruginosa

• Conditions: Joint Infection

• Registration Number: NCT06798168
• Lead Sponsor: Ottawa Hospital Research Institute

Brief Summary

This is a single patient study (SPS) that aims to test the bacteriophage treatment as an experimental treatment on a patient suffering from chronic periprosthetic joint infection (PJI) of the right hip. This patients has been suffering from an infection in the right sided hip arthroplasty with a multidrug resistant (MDR) strain of Pseudomonas aeruginosa bacteria. All treatment options for this type of infection have been exhausted. If this patient remains without treatment then there is a high risk of mortality secondary to sepsis and the only remaining surgical option for this patient is a hind quarter amputation which will be a devastating surgery that will largely affect this patients quality of life. However, a large number of published case series have shown the positive impact of combining bacteriophage therapy with antibiotics to achieve a synergistic antibacterial effect and overcome possible resistance development to clear the infection. Therefore we intend to try the bacteriophage therapy on this patients infected hip in the aim to control the infection and improve the patients quality of life.

Detailed Description

Total joint replacement (TJR) has revolutionized care provided for patients suffering from disabling joint pain. Unfortunately, periprosthetic joint infection (PJI) remains a devastating complication and the leading cause of failure after TJR. While the current cost in Canada per hip or knee TJR averages $7k CAD, the cost to treat a PJI complication after a hip or knee TJR is five times that amount. In addition, data collected by national and international joint replacement registries demonstrate that the health and economic burden of PJI is a mounting crisis due to the exponential increase in demand for TJR. Current standard treatment for PJI requires multiple surgical revisions of the infected prosthesis in combination with a prolonged course of systemic antibiotic therapy. This standard treatment approach has a failure rate of 20-30%. Unfortunately, this treatment failure is often associated with high rates of psychological distress, limb amputations and death. Debridement Antibiotic and Implant Retention (DAIR) procedure is one of the surgical options that is routinely used to manage PJI, due to its lower risk of morbidity and surgical cost. DAIR is often used for patients who present with an acute PJI or who cannot tolerate a complex implant revision. However, the overall success rate for DAIR is on the lower end of the spectrum, ranging between 60-70%. DAIR failures are often attributed to the residual infection and biofilm burden left behind on the retained implant surface, which cannot be targeted effectively with post-operative systemic antibiotics. Therefore, research has been ongoing to identify non-surgical multidrug resistance (MDR) treatment adjuncts that can synergize the therapeutic effects of antibiotics in PJI care. Numerous preclinical bone and joint infection models have clearly demonstrated such therapeutic benefits using bacteriophages (phages). Phages have the ability to target bacterial cells and breakdown biofilm that it forms on the implant surface. Each bacterial strain tends to have a particular phage that it is susceptible to. Due to this phage specificity and the fact that bacteria can still develop resistance against a single phage, the concept of using a phage cocktail (mixture of 2 or more phage candidates) has been the preferred treatment approach for applying phage therapy. Using a phage cocktail provides a broader spectrum of strain coverage and also makes it harder for the bacteria to develop resistance. Over the past decade, there has been a rise in international interest and effort to translate the antimicrobial therapeutic potential of phages towards this challenging group of patients suffering from bone and joint infections. Published literature has considered phage therapy to be safe for direct administration at the infection site with minimal adverse events provided that the phage preparation administered meets Good Manufacturing Practice (GMP).

In 2023, Suh et al published a comprehensive review summarizing all the PJI clinical cases treated with phage that have been published in English via PubMed from 2010 (1 January) to 2023 (31 March). Only 5 out of 21 patients developed mild adverse events in the form of fevers and transient transaminitis. Considering the heterogeneity of clinical conditions, treatment, and follow-up protocols, 19 out of 21 phage treated cases reported no signs of persistent clinical infection. Ten out of the 19 successful cases were in patients who received a surgical procedure. However, some patients could not go to surgery (2 cases). Both of these phages treated cases reported no adverse events and no signs of persistent clinical infection. A large number of published case series have also recommended combining the use of phage with antibiotics to achieve synergistic antibacterial effect and overcome possible resistance development.

Despite these promising clinical results, there continues to be significant gaps in knowledge which impedes the clinical application of a new treatment paradigm for PJI that incorporates phage therapy. Some of these knowledge gaps revolve around patient selection, phage formulation, treatment protocols, delivery methods and monitoring outcomes. As proposed by Ferry et al., one of the important steps to overcome barriers for the clinical implementation of phage therapy is designing clinical trials with more focused clinical indications to minimize patient heterogeneity and clinical variability.

Despite the abundance of renowned Canadian expertise in phage biology, Canada is significantly lagging in the arena of phage clinical trials. We are aiming to assess the feasibility of a phage therapy clinical trial by going through the single patient study for our patient that has exhausted all the possible avenues of surgical and medical treatment. The next available surgical option for this patient is a hindquarter amputation which will be a devastating surgery for this patient to undergo and provides no quality-of-life prospects at this patient's age. Also, living with active MDR P. aeruginosa without treatment puts the patient at high risk for mortality secondary to sepsis. After reviewing the literature, for such serious infections that have tried all treatment options and have failed to control that infection, the antibacterial resistance leadership group (ARLG)taskforce has determined that phage therapy is generally safe to administer with adverse events rarely reported.

Study Timeline

• Status Verified: 2025-01
• Study First Submitted: 2025-01-21
• Study First Submitted QC: 2025-01-21
• Last Update Submitted: 2025-01-21
• Study First Posted: 2025-01-29
• Last Update Posted: 2025-01-29

Recruitment & Eligibility

• Status: AVAILABLE
• Sex: Female
• Target Recruitment: Not specified

Inclusion Criteria

• Patient is clinically stable and independently mobile
• Patient has been diagnosed with a multidrug resistant chronic bacterial PJI and has exhausted all other non-debilitating treatment options (including DAIR and antibiotic therapy)

Exclusion Criteria

• Patient has cultured multiple bacteria and it is difficult for physicians to determine which bacteria is causing the disease
• Patient develops a life threatening condition or a condition that leads to deterioration of the patients medical condition and that is unrelated to the known PJI as cerebrovascular accident, angina, cancer.
• Patient's clinical condition is no longer stable and deteriorating for example, if the patient develops sepsis secondary to PJI prior to the commencement of the phage therapy.

Study & Design

• Study Type: EXPANDED_ACCESS
• Study Design: Not specified

Trial Locations

Locations (1)

The Ottawa Hospital; 🇨🇦 Ottawa, Canada