Ignite Creation Date:
2025-12-24 @ 4:46 PM
Ignite Modification Date:
2026-01-04 @ 11:56 PM
Study NCT ID:
NCT02128750
Status:
COMPLETED
Last Update Posted:
2016-03-07
First Post:
2014-04-29
Is NOT Gene Therapy:
True
Has Adverse Events:
False
Brief Title:
Contrast Enhanced Ultrasound and Muscle
Sponsor:
University Hospital, Grenoble
Organization:
Study Overview
Official Title:
Echographie de Contraste Pour l'Analyse de la Perfusion Musculaire Dans l'ischémie Critique
Status:
COMPLETED
Status Verified Date:
2014-04
Last Known Status:
None
Delayed Posting:
No
If Stopped, Why?:
Not Stopped
Has Expanded Access:
False
If Expanded Access, NCT#:
N/A
Has Expanded Access, NCT# Status:
N/A
Acronym:
Echomuscle
Brief Summary:
The primary objective of our work is to show that quantification of muscular microvascularisation evaluated by injection of contrast agent is different between chronic critical limb ischemia (before revascularization) and after (healing of ischemia) and thus make the proof of its utility in evaluation of PAD therapeutics.
Detailed Description:
* Peripheral arterial disease (PAD) is a frequent disease the incidence of which in men is about 32.5°/°° before 40 years and 71°/°° after 50 years. Prevalence of the disease increases with age to reach 3.7% of 60 to 69 year old subjects (Kannel 1970, 1985, Bloch 1985).
* Critical limb ischemia (CLI) ischemia is defined by typical chronic ischemic rest pain or ischemic skin lesions either ulcers or gangrene for more than two weeks (Norgren). Incidence is about 500 - 1000 / 106 / year in Europe and United states. Critical limb ischemia concerns 15 - 20% of patients with intermittent claudication (Eneroth 1992, Taylor 1989). Development can lead to limb loss with a frequency estimated between 7% at 5 years to 12% at 10 years. Problem is crucial for patients who cannot benefit from revascularization. Results of single medical treatments are uncertain. Development of neovascularisation by innovating therapeutic (autolog cell stem grafts, intramuscular growth factor injections ) represent an exciting and promising field of research.
* Peripheral arterial disease evaluation and staging are based on measures of resting ankle pressures, diagnosis of stenosis and obliteration (duplex, angiography, computed tomography scan and magnetic resonance imaging) and on measure of microcirculatory skin perfusion by Tc PO2. On the other hand, there is no simple tool to measure muscular microvascularisation whereas muscles suffer from ischemia in the same way as skin and nerves. Measures of muscular perfusion can be performed by Tc 99, magnetic resonance imaging but this is not used in clinical practice. CEUS used in routine to assess hepatic microvascularisation has recently been shown to be potentially useful to study muscle (Kramer 2008, Weber 2007).
* Ultrasonic contrast agents are intravascular microbubbles which used at low mechanical index generate harmonics and allow real time imaging in ultrasonography. Their use allows study of parenchyma enhancement in real time, notably of liver and kidneys; they are also used in practice to differentiate benign and malign tumors (Correas 2009). Correlations have been shown between muscle enhancement studied by CEUS and histologic data of capillary vascularisation (Weber 2005). More recently some authors have shown that CEUS may allow to differentiate patients with PAD at a stage of intermittent claudication and patients without PAD (Duerschmied 2006).Very few studies have studied patients with CLI. Duerschmied and all have shown that kinetic data of muscle enhancement may reflect collateral circulation developed in reaction to chronic ischemia. CEUS may be used to study muscular perfusion in the same way as TcPO2 reflects cutaneous vascularisation and may become an evaluation criteria of PAD therapeutics in a near future.
* We propose to study muscular perfusion by CEUS in patients with critical limb ischemia eligible to revascularization (PTA or bypass) before and after revascularization. Microbubbles injection leads to an increase in muscle echogenicity in two sequences: a rapid phase 15-20 s after injection (arteriolar filling) then a more intense second phase (veinular and capillary filling) (Duerschmied 2006). These two phases may be described by measures of acoustic intensity function of time and in particular time to peak (TTP), area under the curve (AUC). Time to peak seems to be the more reliable criteria (Duerschmied).
* Critical limb ischemia (CLI) ischemia is defined by typical chronic ischemic rest pain or ischemic skin lesions either ulcers or gangrene for more than two weeks (Norgren). Incidence is about 500 - 1000 / 106 / year in Europe and United states. Critical limb ischemia concerns 15 - 20% of patients with intermittent claudication (Eneroth 1992, Taylor 1989). Development can lead to limb loss with a frequency estimated between 7% at 5 years to 12% at 10 years. Problem is crucial for patients who cannot benefit from revascularization. Results of single medical treatments are uncertain. Development of neovascularisation by innovating therapeutic (autolog cell stem grafts, intramuscular growth factor injections ) represent an exciting and promising field of research.
* Peripheral arterial disease evaluation and staging are based on measures of resting ankle pressures, diagnosis of stenosis and obliteration (duplex, angiography, computed tomography scan and magnetic resonance imaging) and on measure of microcirculatory skin perfusion by Tc PO2. On the other hand, there is no simple tool to measure muscular microvascularisation whereas muscles suffer from ischemia in the same way as skin and nerves. Measures of muscular perfusion can be performed by Tc 99, magnetic resonance imaging but this is not used in clinical practice. CEUS used in routine to assess hepatic microvascularisation has recently been shown to be potentially useful to study muscle (Kramer 2008, Weber 2007).
* Ultrasonic contrast agents are intravascular microbubbles which used at low mechanical index generate harmonics and allow real time imaging in ultrasonography. Their use allows study of parenchyma enhancement in real time, notably of liver and kidneys; they are also used in practice to differentiate benign and malign tumors (Correas 2009). Correlations have been shown between muscle enhancement studied by CEUS and histologic data of capillary vascularisation (Weber 2005). More recently some authors have shown that CEUS may allow to differentiate patients with PAD at a stage of intermittent claudication and patients without PAD (Duerschmied 2006).Very few studies have studied patients with CLI. Duerschmied and all have shown that kinetic data of muscle enhancement may reflect collateral circulation developed in reaction to chronic ischemia. CEUS may be used to study muscular perfusion in the same way as TcPO2 reflects cutaneous vascularisation and may become an evaluation criteria of PAD therapeutics in a near future.
* We propose to study muscular perfusion by CEUS in patients with critical limb ischemia eligible to revascularization (PTA or bypass) before and after revascularization. Microbubbles injection leads to an increase in muscle echogenicity in two sequences: a rapid phase 15-20 s after injection (arteriolar filling) then a more intense second phase (veinular and capillary filling) (Duerschmied 2006). These two phases may be described by measures of acoustic intensity function of time and in particular time to peak (TTP), area under the curve (AUC). Time to peak seems to be the more reliable criteria (Duerschmied).
Study Oversight
Has Oversight DMC:
False
Is a FDA Regulated Drug?:
None
Is a FDA Regulated Device?:
None
Is an Unapproved Device?:
None
Is a PPSD?:
None
Is a US Export?:
None
Is an FDA AA801 Violation?: