Bacteriophage Therapy for Mycobacterium Abscessus Pulmonary Infection

NCT ID: NCT07228702

Last Updated: 2025-11-17

Basic Information

• Recruitment Status: ENROLLING_BY_INVITATION
• Clinical Phase: PHASE1
• Total Enrollment: 1 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2025-11-30
• Study Completion Date: 2027-10-31

Brief Summary

This study aims to use mycobacteriophage therapy, using identified in-vitro effective Mycobacteriophage Muddy_HRMN0052, along with combination conventional antimycobacterial therapy for their NTM pulmonary disease with Mycobacterium abscessus with goal to reduce infection burden and improve pulmonary disease

Detailed Description

Hypothesis

Hypothesis: Mycobacteriophage therapy, using identified in-vitro effective Mycobacteriophage Muddy_HRMN0052, along with combination conventional antimycobacterial therapy for their NTM pulmonary disease with MABS will reduce infection burden and improve pulmonary disease.

Objectives:

1. Efficacy - Assess MABS pulmonary disease response mycobacteriophage therapy

2. Safety - Determine tolerability and off target effects of IV and inhaled mycobacteriophage therapy

Specific End Points (during and post treatment up to last clinical follow-up (>24month):

1. Microbiologic: Time to sputum smear and culture conversion; durability of sputum culture conversion during and post treatment; change in sputum microbiology on and post treatment; change in MABS drug and mycobacteriophage susceptibility on and post treatment; mycobacteriophage neutralizing antibody development.

2. Clinical: Pulmonary and systemic symptom report; sputum production volume (patient report); chest imaging response (CT scan); Spirometry and full PFT; quality of life

3. Other: Adverse clinical and laboratory events

Information on the Investigational Product (Mycobacteriophage Muddy_HRMN0052):

1. Mechanism of action Bacteriophage therapy (phage therapy) involves the use of live, lytic bacteriophages to treat bacterial infections via bacterial cell lysis. Lytic bacteriophages mediate their antimicrobial effect by way of specific attachment to bacterial cell wall receptors, injection of bacteriophage DNA into the bacterium, recruitment of bacterial host cell machinery for bacteriophage protein production, and subsequent lysis of the bacterial cell with release of bacteriophage progeny.

2. Dose, frequency, route of administration for the product

Initial IV dosing of Mycobacteriophage Muddy_HRMN0052 for treatment of Mycobacterium abscessus should be 1mL containing 1 x 10^9 PFU/mL to be given IV twice daily.

Inhalation:

Initial inhaled (by nebulization or aerosolization) dosing of Mycobacteriophage Muddy_HRMN0052 for treatment of Mycobacterium abscessus should be 1mL containing 1 x 10^9 PFU/mL to be given inhaled twice daily. For inhaled use, Mycobacteriophage Muddy_HRMN0052 is supplied in the lyophilized form that enhances the stability during nebulization.

The treatment duration for both routes of administration is expected to be between 16 to 24 weeks at minimum with a possible extension up to 24 months if necessary, based upon clinical response.

Treatment Regimen and Duration:

Initial IV dosing for treatment of Mycobacterium abscessus with Mycobacteriophage Muddy_HRMN0052 should be 1mL containing 1 x 10^9 PFU/mL to be given IV twice daily.

Initial inhaled dosing for treatment of Mycobacterium abscessus with Mycobacteriophage Muddy_HRMN0052 should be 1mL containing 1 x 10^9 PFU/mL to be given inhaled twice daily.

The duration of treatment to be determined based on clinical response, but the recommended initial course of treatment is expected to be at least 16-24 weeks and used together with antimicrobial therapy targeted at the infecting organism recovered from the patient. The duration and start timing of IV and inhaled formulation will be guided by tolerance and clinical response with potential transition to single route as treatment progresses.

If the inhaled route of administration is not tolerated by the patient, as determined by a drop in FEV1 percent predicted (FEV1pp) of greater than 20% from baseline with the first dosage, and/or intolerable symptoms of cough or shortness of breath that are not relieved with bronchodilator (salbutamol) with the first dose, or if respiratory symptoms develop with later dosing that are deemed intolerable by the patient, then the treatment will revert to IV administration.

Concurrent with MUDDY phage treatment the following antibiotics will be use. Use of phage plus antibiotics is similar to prior reported human treatment of NTM disease with mycobacteriophages and in line with Antibacterial Resistance Leadership Group (ARLG) Phage Taskforce (U.S.) guidance. To balance effectiveness and toxicity risk two antibiotics that Mycobacterium abscessus has been demonstrated susceptible to will be used. Selection of drugs is also informed by tolerance during prior treatment. Alternate medications will be used if toxicity from first choice antibiotics encountered. Antibiotics/rationale are as follows, all doses are standard weight-based dosing:

Initial Regimen:

1. Amikacin 1000mg IV 3x/wk - prior good tolerance, evidence based preferred agent for treatment of NTM disease

2. Clofazimine 100mg PO OD - prior good tolerance; general low toxicity profile, M. abscessus demonstrated to have favorable low MIC.

Alternate agents (use if toxicity/intolerance to initial regimen agents to ensure on 2 antibiotics throughout):

1. Bedaquiline 400mg PO OD x 2 weeks then 200mg PO 3x/wk - prior good tolerance; general low toxicity profile, M. abscessus demonstrated to have favorable low MIC.

2. Linezolid 600mg PO OD (dose reduce to 600mg PO 3x/wk if adverse effects) - unclear if contributed to prior anorexia while on multidrug regimen, risk of toxicity with extended use

3. Sulfamethoxazole/Trimethoprim 800/160mg PO BID - less evidence available supporting use for M. abscessus disease, prior issues with associated hyperkalemia

Conditions

Non-Tuberculous Mycobacterial (NTM) Pneumonia; Mycobacterium Abscessus Infection

Study Design

• Allocation Method: NA
• Intervention Model: SINGLE_GROUP
• Primary Study Purpose: TREATMENT
• Blinding Strategy: NONE

Study Groups

Treatment

Use of mycobacteriophage

Group Type: EXPERIMENTAL

Mycobacteriophage Muddy_HRMN0052

Intervention Type: BIOLOGICAL

In-vitro effective Mycobacteriophage Muddy\_HRMN0052 against specific strain of Mycobacterium abscessus ssp abscessuss

Amikacin Injection

Intervention Type: DRUG

Amikacin 1000mg IV 3x/wk

Clofazimine

Intervention Type: DRUG

Clofazimine 100mg PO OD

Bedaquiline (B)

Intervention Type: DRUG

Bedaquiline 400mg PO OD x 2 weeks then 200mg PO 3x/wk (Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Linezolid (LZD)

Intervention Type: DRUG

Linezolid 600mg PO OD (dose reduce to 600mg PO 3x/wk if adverse effects)(Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Sulfamethoxazole/Trimethoprim

Intervention Type: DRUG

Sulfamethoxazole/Trimethoprim 800/160mg PO BID (Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Interventions

Mycobacteriophage Muddy_HRMN0052

In-vitro effective Mycobacteriophage Muddy\_HRMN0052 against specific strain of Mycobacterium abscessus ssp abscessuss

Intervention Type: BIOLOGICAL

Amikacin Injection

Amikacin 1000mg IV 3x/wk

Intervention Type: DRUG

Clofazimine

Clofazimine 100mg PO OD

Intervention Type: DRUG

Bedaquiline (B)

Bedaquiline 400mg PO OD x 2 weeks then 200mg PO 3x/wk (Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Intervention Type: DRUG

Linezolid (LZD)

Linezolid 600mg PO OD (dose reduce to 600mg PO 3x/wk if adverse effects)(Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Intervention Type: DRUG

Sulfamethoxazole/Trimethoprim

Sulfamethoxazole/Trimethoprim 800/160mg PO BID (Alternate agent if toxicity/intolerance to amikacin or clofazimine to ensure on 2 antibiotics throughout)

Intervention Type: DRUG

Eligibility Criteria

Inclusion Criteria

• consent to participation

Exclusion Criteria

• non-consent to participation

• Eligible Sex: FEMALE
• Accepts Healthy Volunteers: No

Sponsors

Vancouver Coastal Health

OTHER_GOV

Sponsor Role: lead

Responsible Party

William Connors

Clinical Associate Professor

Responsibility Role: PRINCIPAL_INVESTIGATOR

Locations

Vancouver General Hospital Non-Tuberculous Mycobacterial Disease Clinic

Vancouver, British Columbia, Canada

Countries

Canada

References

Reindel R, Fiore CR. Phage Therapy: Considerations and Challenges for Development. Clin Infect Dis. 2017 Jun 1;64(11):1589-1590. doi: 10.1093/cid/cix188. No abstract available.

Reference Type: BACKGROUND

PMID: 28329182 (View on PubMed)

Hatfull GF. Phage Therapy for Nontuberculous Mycobacteria: Challenges and Opportunities. Pulm Ther. 2023 Mar;9(1):91-107. doi: 10.1007/s41030-022-00210-y. Epub 2022 Dec 30.

Reference Type: BACKGROUND

PMID: 36583829 (View on PubMed)

Dedrick RM, Smith BE, Cristinziano M, Freeman KG, Jacobs-Sera D, Belessis Y, Whitney Brown A, Cohen KA, Davidson RM, van Duin D, Gainey A, Garcia CB, Robert George CR, Haidar G, Ip W, Iredell J, Khatami A, Little JS, Malmivaara K, McMullan BJ, Michalik DE, Moscatelli A, Nick JA, Tupayachi Ortiz MG, Polenakovik HM, Robinson PD, Skurnik M, Solomon DA, Soothill J, Spencer H, Wark P, Worth A, Schooley RT, Benson CA, Hatfull GF. Phage Therapy of Mycobacterium Infections: Compassionate Use of Phages in 20 Patients With Drug-Resistant Mycobacterial Disease. Clin Infect Dis. 2023 Jan 6;76(1):103-112. doi: 10.1093/cid/ciac453.

Reference Type: BACKGROUND

PMID: 35676823 (View on PubMed)

Other Identifiers

Control # 300143

Identifier Type: OTHER

Identifier Source: secondary_id

MPHAGE-2025-01

Identifier Type: -

Identifier Source: org_study_id