Transplantation of Myoblasts to Duchenne Muscular Dystrophy (DMD) Patients

NCT ID: NCT02196467

Last Updated: 2021-01-29

Basic Information

• Recruitment Status: UNKNOWN
• Clinical Phase: PHASE1/PHASE2
• Total Enrollment: 10 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2014-05-31
• Study Completion Date: 2024-01-31

Brief Summary

This Phase I/II of the clinical trial is to investigate whether the transplantation of normal myoblasts throughout one muscle (the extensor carpi radialis) of the patients is safe and will improve the strength of that muscle. During this Phase I/II, the patients will be transplanted with myoblasts grown from the muscle biopsy of a donor and kept frozen in liquid nitrogen. Thirty million myoblasts will be injected per cm cube in a progressively higher surface of the radialis (i.e., 3, 6 and 9 cm2). The contralateral muscle will be injected with saline to serve as a control. The strength of both muscles will be measured at 3 months post transplantation to verify whether the myoblast transplantation improved the strength of the muscle. If there is no significant strength improvement, the protocol will be terminated immediately for that patient. If there is a significant strength improvement, the patient will be maintained under immunosuppression until 6 months post transplant and his strength will be re-evaluated.

Detailed Description

Duchenne Muscular Dystrophy (DMD) is a degenerative disease of genetic origin, due to a mutation in the gene coding for the protein dystrophin. This mutation leads to deficiency of dystrophin in the myofibers, causing progressive muscle degeneration by the following mechanism: (1) dystrophin deficiency leads to myofibers being very vulnerable to muscle contraction-relaxation, causing frequent damage and necrosis of myofibers; (2) necrosis is followed by myofiber regeneration, as long as the regenerative capacity of muscle is not exhausted; (3) when the regenerative capacity of the muscle is exhausted, myofibers become atrophic and are ultimately lost; (4) fibrosis and fat infiltration replace the lost myofibers. This progressive muscle destruction takes place in most muscles of the limbs and trunk, leading to progressive loss of muscle strength, musculotendinous contractures, restrictive respiratory insufficiency and premature death between 17 and 30 years.

The transplantation of myoblasts obtained from a healthy donor is a potential treatment of DMD. Following intramuscular injection, donor myoblasts fuse with the myofibers of the patient, introducing the normal dystrophin gene in them. In a previous Phase 1A clinical trial, the investigators proved that transplantation of myoblasts grown from the muscle biopsy of a healthy donor introduced the normal dystrophin gene in the DMD myofibers, with the consequent expression of the normal dystrophin mRNA and restoration of the dystrophin protein in several myofibers.

The aim of this Phase I/II of the clinical trial is to investigate whether the transplantation of normal myoblasts throughout one muscle (in this case, the extensor carpi radialis) of DMD patients is safe and will improve the strength of that muscle. The patients will be transplanted with myoblasts grown from the muscle biopsy of a healthy donor. Thirty million myoblasts will be injected per cm cube in a progressively higher volume of muscle (i.e., 3, 6 and 9 cm cube). The contralateral muscle will be injected with saline as a control. The patients and the investigators will be blind to the side injected with cells. The strength of both muscles will be measured at 3 months post transplant to verify if myoblast transplantation increased muscle strength. If there is no significant strength increase, the protocol will be terminated immediately for that patient. If there is a significant strength increase, the patient will be maintained under immunosuppression until 6 months and the muscle strength will be re-evaluated.

The objectives of this Phase I/II clinical trial with DMD patients are thus:

Primary objective:

To evaluate the safety of a procedure of high-density injections of donor myoblasts throughout a muscle (under immunosuppression by tacrolimus).

Secondary objectives:

1. To evaluate whether myoblast transplantation resulted in the presence of dystrophin-positive myofibers of donor origin.

2. To evaluate whether myoblast transplantation improved the muscle strength or prevent or slowed down the progression of the muscle weakness as shown by the following parameters:

2.1) Increase of the voluntary strength of the subject's wrist extension done by the extensor carpi radialis 12 or 24 weeks after myoblast transplantation compared with the pre-transplant values of the same muscle.

2.2) Reduction of the fatigue of the voluntary strength of the subject's wrist extension done by the extensor carpi radialis 12 or 24 weeks after myoblast transplantation compared with the pre-transplant fatigue values of the same muscle.

2.3) Reduce the progression of the muscle weakness in the myoblast injected muscle compared with the control contralateral muscle.

3. To verify the long term effectiveness of the tacrolimus immunosuppression to control acute rejection in myoblast transplantation (by examining the presence of muscle fibers expressing normal dystrophin and the absence of specific immune responses)

Conditions

Duchenne Muscular Dystrophy

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: SINGLE_GROUP
• Primary Study Purpose: TREATMENT
• Blinding Strategy: QUADRUPLE

Study Groups

Myoblast transplantation & strength

30 million myoblasts will be transplanted per centimeter cube in the Extensor carpi radialis of one of the patient's forearms, resuspended in saline. The strength will be evaluated after 3 and 6 months and the presence of dystrophin after 3 or 6 months.

Group Type: EXPERIMENTAL

Myoblast transplantation

Intervention Type: BIOLOGICAL

30 million myoblasts will be transplanted per centimeter cube in the Extensor carpi radialis of one of the patient's forearm, resuspended in saline (a total of 0.5 ml of suspension per centimetre cube of muscle).

Saline injection & strength

The same saline solution used in the previous arm, but without cells, will be injected similarly per centimeter cube in the Extensor carpi radialis of the contralateral patient's forearm. The strength will be evaluated after 3 and 6 months and the presence of dystrophin after 3 or 6 months.

Group Type: SHAM_COMPARATOR

Saline injection

Intervention Type: PROCEDURE

A saline solution (the same used to resuspend de myoblasts in the first intervention) will be injected similarly in the Extensor carpi radialis of the contralateral patient's forearm (a total of 0.5 ml of saline per centimetre cube of muscle).

Interventions

Myoblast transplantation

30 million myoblasts will be transplanted per centimeter cube in the Extensor carpi radialis of one of the patient's forearm, resuspended in saline (a total of 0.5 ml of suspension per centimetre cube of muscle).

Intervention Type: BIOLOGICAL

Saline injection

A saline solution (the same used to resuspend de myoblasts in the first intervention) will be injected similarly in the Extensor carpi radialis of the contralateral patient's forearm (a total of 0.5 ml of saline per centimetre cube of muscle).

Intervention Type: PROCEDURE

Eligibility Criteria

Inclusion Criteria

• A clinical diagnosis of DMD must be confirmed (i.e., with supporting confirmation demonstrated by the identification of a mutation in the dystrophin gene compatible with DMD or presence of less than 10% dystrophin positive fibers in a muscle biopsy in a subject with DMD).
• The subject has to be older than 16 years of age.
• Male
• If on corticosteroids, a stable dose must be maintained for 6 months prior to myoblast transplantation and throughout the trial
• A potential haplotype compatible donor (the father, the mother, a brother or sister who is more than 18 years old) should be available.
• The subject must be able to move both wrists, with an MRC scale score of greater than or equal to 2.
• Subject must have been vaccinated for pneumococcus and Haemophilus influenzae.
• For subjects who are sexually active, willingness to abstain from sexual intercourse or employ a barrier or medical method of contraception for the duration of the study.
• For subjects that need assisted ventilation, a stable regimen of non-invasive ventilation parameters for 3 months prior to the first myoblast transplantation and anticipation that they will be on a stable regimen throughout the study.
• Written informed consent of the subject and donor.

Exclusion Criteria

• An abnormal sensory examination
• Persisting abnormal values in a hemogram (red blood cells, white blood cells, hemoglobin or platelets out of laboratory normal range).
• A history of chronic infection.
• Abnormal glycosylated hemoglobin level and/or fasting blood glucose (values out of laboratory normal range)
• Previous neoplasia.
• Previous tuberculosis or potential carrier of latent tuberculosis.
• Any clinically significant cardiac, endocrine, hematologic, hepatic, immunologic, metabolic, urologic, pulmonary, neurologic, dermatologic, psychiatric, renal, and/or other major disease as determined by the Investigator that is not related to DMD
• Previous history of renal problems or laboratory analyses suggestive of a renal problem (cystatin C, blood urea nitrogen, electrolytes out of laboratory normal range).
• Previous biopsies or intramuscular injections in any of the extensor carpi radialis.
• Subject who participated to phase 1A of myoblast transplantation
• The subject uses a drug that is not compatible with tacrolimus (see section 6 "Concomitant medications" of protocol) within the last month. If the subject has previously used one of these drugs, the washout period before the onset of tacrolimus should be at least 1 month.
• Subject tests positive for HIV-1, HIV-2, antigen HIV-1, HBC (hepatitis B surface antigen (HBsAg) and hepatitis B core antigen) HCV, HTLV-1 and anti-HTLV-2.
• The subject was submitted to electromyography in the extensor carpi radialis, within the last 6 months.
• There are pre-existing antibodies in the subject serum against the donor lymphocytes.
• Any change (initiation, dose adjustment, interruption or discontinuation) in any medication that may affect muscle function (eg. Losartan, coenzyme Q10, green tea extract, idebenone, creatine, nutritional supplements, etc.) within 3 months of the first myoblast transplantation.
• Any change in cardiac medications (ACE inhibitor, beta-blocker, etc.) within 3 months of first myoblast transplantation.
• Any surgery or fracture of the upper extremity within 3 months prior to first myoblast transplantation or plans to have surgery during the course of the trial.
• No haplotype compatible donor is available.
• Unwillingness or inability of the subject to understand and comply with the requirements of this protocol in the opinion of the Investigator or sponsor.
• Previous tuberculosis or potential carrier of latent tuberculosis.
• Previous treatment with any other investigational product within 6 months of myoblast transplantation.

• Minimum Eligible Age: 16 Years
• Eligible Sex: MALE
• Accepts Healthy Volunteers: No

Sponsors

CHU de Quebec-Universite Laval

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

Craig Campbell, MD MSc FRCPC

Role: PRINCIPAL_INVESTIGATOR

University of Western Ontario, Canada

Jack Puymirat, MD

Role: PRINCIPAL_INVESTIGATOR

Centre de recherche du CHU de Quebec

Locations

Children's Hospital London Health Sciences Centre

London, Ontario, Canada

Site Status: RECRUITING

Centre de recherche du CHU de Quebec - CHUL

Québec, , Canada

Site Status: RECRUITING

Countries

Canada

Central Contacts

Craig Campbell, MD MSc FRCPC

Role: CONTACT

craig.campbell@lhsc.on.ca

(519) 685-8332

Jacques Tremblay, PhD

Role: CONTACT

Jacques-P.Tremblay@crchul.ulaval.ca

(418)-525-4444 ext. 47307

References

Skuk D, Goulet M, Roy B, Piette V, Cote CH, Chapdelaine P, Hogrel JY, Paradis M, Bouchard JP, Sylvain M, Lachance JG, Tremblay JP. First test of a "high-density injection" protocol for myogenic cell transplantation throughout large volumes of muscles in a Duchenne muscular dystrophy patient: eighteen months follow-up. Neuromuscul Disord. 2007 Jan;17(1):38-46. doi: 10.1016/j.nmd.2006.10.003. Epub 2006 Dec 4.

Reference Type: BACKGROUND

PMID: 17142039 (View on PubMed)

Skuk D, Goulet M, Roy B, Chapdelaine P, Bouchard JP, Roy R, Dugre FJ, Sylvain M, Lachance JG, Deschenes L, Senay H, Tremblay JP. Dystrophin expression in muscles of duchenne muscular dystrophy patients after high-density injections of normal myogenic cells. J Neuropathol Exp Neurol. 2006 Apr;65(4):371-86. doi: 10.1097/01.jnen.0000218443.45782.81.

Reference Type: BACKGROUND

PMID: 16691118 (View on PubMed)

Skuk D, Vilquin JT, Tremblay JP. Experimental and therapeutic approaches to muscular dystrophies. Curr Opin Neurol. 2002 Oct;15(5):563-9. doi: 10.1097/00019052-200210000-00007.

Reference Type: BACKGROUND

PMID: 12352000 (View on PubMed)

Hogrel JY, Zagnoli F, Canal A, Fraysse B, Bouchard JP, Skuk D, Fardeau M, Tremblay JP. Assessment of a symptomatic Duchenne muscular dystrophy carrier 20 years after myoblast transplantation from her asymptomatic identical twin sister. Neuromuscul Disord. 2013 Jul;23(7):575-9. doi: 10.1016/j.nmd.2013.04.007. Epub 2013 May 31.

Reference Type: BACKGROUND

PMID: 23731976 (View on PubMed)

Other Identifiers

299825

Identifier Type: OTHER_GRANT

Identifier Source: secondary_id

SIRUL 104501

Identifier Type: -

Identifier Source: org_study_id