In Vivo Analysis of Muscle Stem Cells in Chronic and Acute Lower Limb Ischemia (MyostemIschemia)

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

Get a concise snapshot of the trial, including recruitment status, study phase, enrollment targets, and key timeline milestones.

Recruitment Status

COMPLETED

Clinical Phase

NA

Total Enrollment

90 participants

Study Classification

INTERVENTIONAL

Study Start Date

2019-04-30

Study Completion Date

2021-10-01

Brief Summary

Review the sponsor-provided synopsis that highlights what the study is about and why it is being conducted.

Skeletal muscle regenerates after injury, due to the satellite cells (SCs), the muscle stem cells that activate, proliferate, differentiate and fuse to form new myofibers. While SCs are indispensable for regeneration, there is increasing evidence for the need for an adequate cellular environment. Among the closest cellular partners of SCs are vascular cells. During muscle regeneration, endothelial cells (ECs) stimulate SC differentiation while SCs exhibit pro-angiogenic properties indicating a coupling between angiogenesis and myogenesis.The specific signaling cues controlling these relationships are still poorly characterized, specially in specific pathologic context such as limb ischemia. The investigators research aims to evaluate the role of chronic and acute lower limb ischemia on the SC status and interaction with ECs in human patients.

Related Clinical Trials

Explore similar clinical trials based on study characteristics and research focus.

Search for Restenosis Markers in Lower Limb Arteritis

NCT03146221

Restenosis Lower Limb Arteritis

WITHDRAWN NA

Clinical Study of Stent Versus Direct Atherectomy to Treat Lower Limb Ischemia

NCT02514460

Atherosclerosis Ischemia

COMPLETED NA

Laser Atherectomy Versus Angioplasty for the Treatment of Critical Limb Ischemia

NCT01579123

Critical Limb Ischemia

COMPLETED NA

Prospective Registry to Investigate the Safety and Efficacy of the Treatment With the Selution Sirolimus Drug Coated Balloon in TASC C and D Atheroma-occlusive Infra-Inguinal Disease in Patients With Chronic Limb Threatening Ischemia From Singapore

NCT04534257

Critical Lower Limb Ischemia Peripheral Artery Disease

UNKNOWN NA

Iliac Vein Stenting in Advanced Chronic Venous Insufficiency

NCT02149212

Iliac Vein Obstruction May-Thurner Syndrome Cockett Syndrome

COMPLETED PHASE4

Detailed Description

Dive into the extended narrative that explains the scientific background, objectives, and procedures in greater depth.

Post-injury muscle regeneration is a multifaceted process requiring the coordination of myogenesis and angiogenesis. Whether this coordination is altered in pathological context has been poorly investigated, whether the original defect stems from the myogenic cell (degenerative myopathy) or the vessel (chronic limb ischemia).

Chronic limb ischemia in patients with peripheral arterial disease (PAD) causes muscle weakness and decreases exercise tolerance. PAD patients with chronic limb ischemia suffer mainly from intermittent claudication on walking or rest pain in more advanced stage, i.e. in critical limb ischemia . PAD is associated with muscle cell apoptosis and atrophy, fiber type switching (from type I to type II), increased muscle fat content and denervation . The underlying mechanisms are from hemodynamic origin and linked to atherosclerotic obstructions of the major arteries supplying the lower extremities. However, additional mechanisms contribute to the limb manifestations, where a reduction in blood flow alone cannot explain exercise limitation in symptomatic PAD patients. These mechanisms include a cascade of pathological responses during exercise-induced ischemia and reperfusion at rest, endothelial dysfunction, oxidative stress, inflammation, and muscle metabolic abnormalities). Surprisingly, the implication of SCs in the pathophysiology of chronic limb ischemia has been overlooked. One could assume that the regenerative capacity of SCs in advanced PAD is overwhelmed by prolonged ischemia. In this case, a decrease in SC regenerative capacities could participate in the aggravation of muscle atrophy and limb perfusion, considering their known pro-angiogenic properties. Consistently, a preclinical study demonstrated that combined delivery of pro-angiogenic and myogenic factors improves ischemic muscle recovery , while endovascular surgery and administration of angiogenic factors (recombinant proteins or gene therapy) or angiogenic cells (cell therapy) showed limited effects. This indicates that promoting angiogenesis along with myogenesis may be a more suitable therapeutic strategy.

Impaired angiogenesis and/or impaired myogenesis are thus novel players in chronic limb ischemia and could represent potential therapeutic targets to delay or alleviate muscle dysfunction.

For PAD patients, muscle biopsies will take place during femoro-popliteal bypass surgery. Control muscle biopsies will be performed in patients undergoing orthopedic surgery of the lower limb or femora-popliteal bypass for non-ischemic reasons (popliteal aneurysm, popliteal entrapment syndrome) In parallel, human SCs in non-PAD patients with \<6h acute limb ischemia (from embolic origin) will be obtained. For the PAD study, patients with autoimmune disease, active cancer, end stage renal disease or tissue necrosis or edema close to the site of biopsy will be excluded from this study.

Three major assessments will be performed:

1. Topographic study: Number, distribution, and relative proximity of SC, and capillaries, fiber type, based on immunohistochemistry applied to standard thin transverse sections, and to thicker segments of cleared muscle.
2. Functional study: in vitro and in vivo comparison of myogenic potential of SC between ischemic and control patients, based on SC primary cell culture, and SC-ECs co-culture system. Ultimately, SC transplantation in injured muscle of immunodepressed mice will aim to evaluate myogenic capacities.
3. Transcriptomic analysis: of SCs and ECs sorted from ischemic muscle from PAD patients, control muscle and patients with acute ischemia.

The investigators goal is to analyze and compare the molecular adaptation of ECs and SCs towards chronic ischemia (in a context of muscle atrophy and weakness) as compared with acute ischemia (in a context of normal muscle function) Particular attention in the analysis will be given to the pathways already involved in myogenesis/angiogenesis coupling during muscle regeneration.

Conditions

See the medical conditions and disease areas that this research is targeting or investigating.

Artery Disease Muscle Disorder

Study Design

Understand how the trial is structured, including allocation methods, masking strategies, primary purpose, and other design elements.

Allocation Method

NON_RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

BASIC_SCIENCE

Blinding Strategy

SINGLE

Outcome Assessors

All muscle biopsies are immediately labeled and routed to the lab where technicians and assessors are blinded.

* Non PAD patients undergoing vascular surgery for non-occlusive lesions or undergoing orthopedic surgery with gastrocnemius muscle exposure
* PAD patients \> Rutherford Stage 3 or with Chronic Threatening Limb Ischemia, undergoing vascular surgery with gastrocnemius muscle exposure
* Patients presenting acute limb ischemia and undergoing vascular surgery with gastrocnemius muscle exposure