预约演示

更新于：2025-05-07

Chronic Limb-Threatening Ischemia

慢性肢体威胁性缺血

更新于：2025-05-07

基本信息

别名

Chronic Limb Threatening Ischemia、Chronic Limb-Threatening Ischemia、Chronic limb-threatening ischaemia

+ [16]

简介

A severe form of peripheral artery disease in which a hypoperfusion of the BLOOD through an organ or tissue is caused by occlusion of peripheral arterial vessels. It is associated with the presence of chronic ischemic rest pain, ulceration or GANGRENE.

关联

项与慢性肢体威胁性缺血相关的药物

Mesenchymal stem cell therapies (Stempeutics)

间充质干细胞疗法（Stempeutics）

靶点-

作用机制-

在研机构

Stempeutics Research Pvt. Ltd.

原研机构

Stempeutics Research Pvt. Ltd.

在研适应症

慢性肢体威胁性缺血 [+4]

非在研适应症

扩张型心肌病 [+7]

最高研发阶段批准上市

首次获批国家/地区

印度

首次获批日期2020-08-16

Beperminogene perplasmid

靶点

c-Met

作用机制

c-Met调节剂

在研机构

原研机构

在研适应症

非在研适应症

最高研发阶段批准上市

首次获批国家/地区

日本

首次获批日期2019-03-26

Apixaban

阿哌沙班

靶点

factor Xa

作用机制

factor Xa抑制剂

在研机构

Bristol Myers Squibb Co. [+8]

原研机构

Bristol Myers Squibb Co.

在研适应症

复发性深静脉血栓形成 [+13]

非在研适应症

急性冠状动脉综合征 [+30]

最高研发阶段批准上市

首次获批国家/地区

欧盟 [+3]

首次获批日期2011-05-18

457

项与慢性肢体威胁性缺血相关的临床试验

NCT06953128

/ Not yet recruitingN/AIIT

Impact of General Versus Regional Anesthesia on the Incidence of Postoperative Pulmonary Complications in Peripheral Arterial Surgery: a Multicenter Randomized Clinical Trial

This multicenter, prospective, randomized clinical trial aims to compare the effects of spinal (neuraxial) anesthesia with spontaneous ventilation versus general anesthesia with mechanical ventilation on the incidence of postoperative pulmonary complications in adult patients undergoing elective lower limb revascularization surgery. A total of 594 patients with symptomatic peripheral arterial disease will be randomly assigned to receive either spinal anesthesia with sedation or general anesthesia with mechanical ventilation. The primary outcome is the incidence of postoperative pulmonary complications within 30 days or until hospital discharge, including pneumonia, respiratory failure, pleural effusion, atelectasis, and other defined respiratory events. Secondary outcomes include cardiovascular events, hemodynamic instability, renal injury, delirium, extrapulmonary complications, adverse events in the operated limb, ICU and hospital length of stay, and mortality. The study will be conducted at Hospital de Clínicas de Porto Alegre, Hospital Nossa Senhora da Conceição, and other participating Brazilian centers, with an expected start date in July 2025 and completion in December 2029.

开始日期2025-07-01

申办/合作机构

Hospital de Clínicas de Porto Alegre HCPA

[+1]

NCT06014242

/ Not yet recruitingN/AIIT

Peripheral Microvascular Resistance as a Predictor for Limb Salvage in Post-Intervention Critical Limb Ischemia Patients

Salvaging a threatened limb is the key therapeutic objective for patients with critical limb ischemia, and the achievement of limb salvage is an independent predictor of patient morbidity and mortality. Despite successful primary endovascular or surgical intervention, the corresponding symptoms of rest pain and/or non-healing ulceration in some patients may continue, and amputation in these patients is unavoidable. It is hypothesized that the functional integrity of the peripheral vascular microcirculation may be impaired in these patients. However, there are currently no techniques that allow direct quantification and visualization of the microcirculation due to the micro-vessel invisibility under angiography.
In the coronary circulation, coronary flow reserve (CFR) indicates the capacity for maximal hyperemic blood flow and reveals impaired coronary microvascular function. Studies have shown the clinical significance of measuring microvascular resistance to predict myocardial salvage after myocardial infarction. The study will explore whether this concept of coronary flow reserve can be applied peripherally to patients with critical limb ischemia in order to determine whether measuring peripheral vascular flow reserve can determine the integrity of the microcirculation to predict limb salvage after endovascular intervention.

开始日期2025-05-15

申办/合作机构

Ocean Medical Center Association, Inc.

[+1]

NCT06326203

/ Not yet recruiting临床1/2期IIT

Randomized, Prospective, Controlled, Single-center, Open-label Phase II Clinical Trial Aimed at Evaluating the Safety and Efficacy of Autologous Mesenchymal Stem Cell Therapy for Lower Limb Ulcers in Patients With Critical Limb Ischemia

Peripheral arterial disease (PAD) can progress to critical limb ischemia (CLI) of the affected lower limb, characterized by pain at rest, ulcerations or gangrene, with a high risk of amputation. In this phase, the best treatment is arterial limb revascularization, but this is not always possible or even effective for promoting pain relief, healing of ulcers or preventing amputations, in addition to the high socioeconomic cost caused by the disease. Recent advances in cell therapy represent a promising supporting alternative for the treatment of PAD in cases where conventional alternatives have run out. Objective: To evaluate the safety and efficacy of cell therapy with expanded autologous mesenchymal stem cells in the treatment of patients with PAD with CLI and chronic arterial ulcers. Methods: An open randomized clinical study will be performed with 2 groups of 20 patients with CLI: in group 1, a fragment of abdominal fat tissue (10g) will be collected to obtain mesenchymal stem cells, which will be expanded and applied using subcutaneous perilesional injection in the affected lower limb, in addition to the application in the form of a personalized curative biological on the wounds. Group 2 will receive conventional treatment with a Hydrogel dressing with essential fatty acids. Periodic clinical evaluations, complementary exams and photographic record will be carried out. The main outcome of effectiveness will be partial or total wound healing. Safety outcomes will be monitored for infections, gangrene, amputations and deaths. Participants will be monitored for 120 days. Major amputation cases will not be included. An independent external evaluator and blind to the groups will evaluate the results. It is an innovative procedure with high impact and financial return for SUS, in view of the high prevalence of the disease and the high socioeconomic impact of the disease when it progresses to limb amputation.

开始日期2025-05-01

申办/合作机构

Conselho Nacional de Desenvolvimento Cientifico e Tecnológico

100 项与慢性肢体威胁性缺血相关的临床结果

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100 项与慢性肢体威胁性缺血相关的转化医学

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0 项与慢性肢体威胁性缺血相关的专利（医药）

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6,896

项与慢性肢体威胁性缺血相关的文献（医药）

2025-08-01·Tissue and Cell

Advances in Cell-based therapies for peripheral arterial disease

Review

作者: Ribeiro, Maisa

PURPOSETo examine recent advances in cell-based therapies for peripheral arterial disease (PAD), focusing on mechanisms of action, clinical applications, and regulatory considerations. The review aimed to evaluate the therapeutic potential of various cell types and assess their efficacy in addressing the unmet needs of PAD patients,particularly those with critical limb ischemia (CLI).METHODSThe review analysed current literature on cell-based therapies for PAD, including preclinical studies using animal models, clinical trials from phase I to III, and regulatory frameworks. Multiple cell types were evaluated, including mesenchymal stem cells (MSCs), endothelial progenitor cells (EPCs), bone marrow mononuclear cells (BMMNCs),and adipose-derived stem cells (ADSCs).RESULTSPreclinical studies demonstrated significant improvements in limb perfusion and neovascularization across various cell types. Clinical trials, particularly those utilizing MSCs and BM-MNCs, showed encouraging outcomes in wound healing and reduced amputation rates. The therapeutic effects were mediated through multiple mechanisms, including direct vessel formation, paracrine signalling, immunomodulation, and tissue repair. The FDA's implementation of a tiered, risk-based system for human cells, tissues, and cellular and tissue-based products (HCT/Ps) has provided a regulatory framework balancing innovation with safety.CONCLUSIONCell-based therapies show promising potential for PAD treatment, particularly for patients with limited conventional treatment options. While clinical trials demonstrate encouraging results, challenges remain in standardizing cell characterization methods and establishing appropriate potency assays. Future research should focus on optimizing cell delivery methods, identifying the most effective cell types, and conducting larger clinical trials to establish definitive efficacy.

2025-08-01·Tissue and Cell

Optimal injection sites for therapeutic angiogenesis: HGF-mediated regulation of HIF-1α via MAPK/PI3K pathways in hypoxic endothelial cells

Article

作者: Lian, Wenzhuo ; Di, Xiao ; Liu, ChangWei ; Rong, Zhihua ; Wang, Wenjing ; Ma, ShanShan ; Li, Fengshi ; Sun, Guoqiang ; Chen, Tianqi ; Qiu, Hongjuan ; Wang, Peng ; Zhong, Qing ; Ni, Leng ; Li, Zongshu

Therapeutic angiogenesis offers a promising strategy for patients with critical limb-threatening ischemia (CLTI) who are unsuitable candidates for revascularization. However, the optimal administration sites for gene therapy agents, such as pCK-HGF-X7, remains undefined. Clinical trials commonly employ multiple intramuscular injections at sites of arterial occlusion; yet the necessity and efficacy of such extensive and repetitive protocols remains unclear. Targeted injections into ischemic tissues or their margins may improve therapeutic outcomes. Moreover, the molecular mechanisms by which hepatocyte growth factor (HGF)/c-Met signaling regulates hypoxia-inducible factor-1α (HIF-1α) expression under hypoxic conditions are not fully understood. This study aims to elucidate these molecular mechanisms in endothelial cells under hypoxic conditions and to identify the most effective injection sites for therapeutic angiogenesis agents. The effects of various HGF isoforms/complexes on human aortic endothelial cells (HAECs) were evaluated under normoxic and hypoxic conditions, focusing on proliferation, migration, and tube formation. Pathway inhibitors were used to explore the underlying mechanisms in hypoxic HAECs, and the findings were validated in a rat hindlimb ischemia model. Results demonstrated that HGF₇₂₃ and HGF₇₂₈ activated the mitogen-activated protein kinase (MAPK) and phosphatidylinositol 3-kinase (PI3K) pathways, regulating HIF expression and significantly enhanced endothelial cell proliferation, migration, and tube formation, particularly under hypoxia. Despite these cellular effects, HGF treatment did not significantly improve tissue perfusion or neovascularization in normal rat hindlimbs. However, in ischemic rat hindlimbs, it markedly promoted angiogenesis and improved tissue perfusion in the gastrocnemius muscle. These findings indicate that therapeutic angiogenesis agents should primarily target hypoxic tissues, extending to the interface between normoxic and hypoxic regions, to optimize treatment efficacy.

2025-07-01·Free Radical Biology and Medicine

Cuproptosis, a potential target for the therapy of diabetic critical limb ischemia

Article

作者: Wang, Luhao ; Bai, Tao ; Wang, Zhiwei ; Qiao, Zhentao

Diabetic patients are considered as the high risk population to develop critical limb ischemia (CLI), a peripheral vascular disease (PVD) resulted from atherosclerosis. Cuproptosis is a novel copper-dependent cell death that has shown the regulatory role in diabetes, while its effect on diabetic CLI has not been explored yet. In this study, Diabetic CLI mice was induced by femoral artery ligation (FAL) on diabetic mice. Endothelial injury in diabetic CLI was mimicked in human microvascular endothelial cells (HMEC-1) via the induction with high glucose (HG) and nutrient deprivation (ND). Besides, copper chelator Ammonium Tetrathiomolybdate (TM), which has shown the anti-cuproptosis property, was administrated to explore its potential effects on diabetic CLI mice and HG/ND-induced HMEC-1 cells. Strikingly, obvious cuproptosis was found in the gastrocnemius muscles of diabetic CLI mice and HG/ND-induced HMEC-1 cells, as evidenced by the copper overload and dysregulated cuproptosis-related proteins (such as Fe-S cluster proteins, copper exporter ATP7A, and copper importer SLC31A1). More importantly, TM protected against the hindlimb ischemic damages in diabetic CLI mice and alleviated cuproptosis-associated cell deaths in HG/ND-induced HMEC-1 cells. In summary, this study indicates the involvements of cuproptosis in diabetic CLI, and provides novel insights into copper chelator TM on diabetic CLI therapy.

225

项与慢性肢体威胁性缺血相关的新闻（医药）

2025-04-25

·PRNewswire

Cordis Announces Positive Results from Two Major Studies Demonstrating Durable Efficacy of SELUTION SLR™ Drug-Eluting Balloon in Complex Peripheral Artery Disease Patients

SELUTION SLR™ Drug-Eluting Balloon (DEB) achieves amongst the highest reported patency for any drug-eluting or drug-coated technology at 3 years in the SELUTION SFA Japan Trial, with 81.5% primary patency. SELUTION SLR™ DEB demonstrates real-world effectiveness and consistency across complex and varied patient populations. The SUCCESS Study 12-month primary endpoint showed: Freedom from CD-TLR – overall population of 91.1%, claudicants 91.3%, and CLTI 90.3%. MIAMI LAKES, Fla., April 24, 2025 /PRNewswire/ -- Cordis, a global leader in interventional cardiovascular and endovascular technologies, announced new data from two major peripheral studies evaluating the SELUTION SLR™ Drug-Eluting Balloon (DEB). The SUCCESS PTA Study 12-month results were presented on April 23 at the Charing Cross Symposium in London. The SELUTION SFA Japan Trial 3-year results followed on April 25 at the Japan Endovascular Treatment Conference in Osaka. The studies confirm the sustained efficacy and safety of SELUTION SLR™ DEB in treating complex peripheral artery disease (PAD) across diverse, real-world patient populations, favorably matching best-in-class benchmarks from paclitaxel-eluting technologies. Continue Reading Cordis, a global leader in interventional cardiovascular and endovascular technologies, announced new data from two major peripheral studies evaluating the SELUTION SLR™ Drug-Eluting Balloon (DEB). 3-Year Results – SELUTION SFA Japan Trial: First Sirolimus DEB with Proven Long-Term Outcomes The SELUTION SFA Japan trial, a prospective, single-arm trial conducted at 13 sites across Japan, evaluated the performance of SELUTION SLR™ DEB in 134 complex patients. At 3 years, SELUTION SLR™ DEB demonstrated primary patency of 81.5% and freedom from Clinically Driven Target Lesion Revascularization (CD-TLR) of 93.8%. These results demonstrate that SELUTION SLR™ DEB is the only drug-eluting technology with core-lab adjudicated 3-year patency over 80%. "SELUTION SLR™ DEB represents the next evolution in Leave-Nothing-Behind treatment strategies. These 3-year outcomes demonstrate unprecedented durability in complex patients with primary patency greater than 80%. In contrast, paclitaxel drug-coated balloon studies have shown significant loss of patency in the same time period," said Dr. Iida, MD, of the Cardiovascular Division at Osaka Police Hospital, Japan and Study Principal Investigator. 12-Month Outcomes – The SUCCESS PTA Study: Real-World Results in a PAD Population The SUCCESS PTA Study is a prospective, observational global registry evaluating SELUTION SLR™ DEB in 723 patients across 27 sites in Europe, Asia, and South America. The study population reflects real-world practice, with 74.2% of patients presenting with claudication and 25.8% with chronic limb-threatening ischemia (CLTI). The primary endpoint—freedom from CD-TLR at 12 months—was consistently high: 91.1% in the overall population, 91.3% in claudicants, and 90.3% in CLTI patients. Clinical improvements were seen across the patient cohorts with 88.1% of patients improving by at least one Rutherford category. "Leveraging SELUTION SLR™ DEB with its unique sirolimus MicroReservoir technology delivers unequivocal clinical benefits in complex patient cohorts," said Dr. Michael Lichtenberg, Chief of Interventional Angiology at Klinikum Hochsauerland, Germany, CMO and Director of Vascular Center Clinic, Germany, and Study Principal Investigator. "These real-world results demonstrate consistent safety and effectiveness in both claudicant and CLTI patients." Drug Elution, Done Better – Sustained Sirolimus Release Improves Outcomes "At Cordis, our focus is always on advancing therapies that offer meaningful, lasting impact for patients—and these results do exactly that," said Dr. George Adams, Chief Medical Officer at Cordis. "The SELUTION SLR™ studies showcase drug elution, done better – sustained sirolimus delivery results in unmatched and durable efficacy, uncompromised safety and consistent robust real-world data across diverse PAD populations. This is the kind of innovation that truly elevates patient care." About Cordis Cordis is a global leader in the development and manufacturing of interventional cardiovascular and endovascular technologies. For over 60 years, we have been committed to improving patient lives through innovation, enhanced clinical outcomes, education, and service. Our mission is to be the heart of innovation to transform cardiovascular care. For more information about Cordis, please visit Cordis.com and follow Cordis on LinkedIn. Media Contact: Kelly May Director of Corporate Communications [email protected] SOURCE Cordis WANT YOUR COMPANY'S NEWS FEATURED ON PRNEWSWIRE.COM? 440k+ Newsrooms & Influencers 9k+ Digital Media Outlets 270k+ Journalists Opted In GET STARTED

临床结果AHA会议

2025-04-22

·GlobeNewswire-Health Care

R3 Vascular Announces First Patient Treated in ELITE-BTK Pivotal Trial for Below-the-Knee PAD Using MAGNITUDE® Drug Eluting Bioresorbable Scaffold

MOUNTAIN VIEW, Calif., April 22, 2025 (GLOBE NEWSWIRE) -- R3 Vascular Inc., a medical device company dedicated to developing and providing novel, best-in-class bioresorbable scaffolds for treating peripheral arterial disease (PAD), is pleased to announce that the first patient in its ELITE-BTK pivotal trial was treated by Dr. Brian DeRubertis, FACS, Chief of the Division of Vascular & Endovascular Surgery at New York-Presbyterian and Weill Cornell Medicine in New York City. The trial evaluates R3 Vascular’s next generation drug eluting bioresorbable scaffold, MAGNITUDE®, for below-the-knee (BTK) PAD, which according to the American Heart Association affects more than 200 million people globally, and 10 to 12 million in the U.S. older than the age of 40. The most common type of PAD affects the lower-extremity where blood flow is reduced to the legs and feet. Each year, approximately 150,000 leg amputations are performed in the U.S. alone. “The treatment of the first patient in our ELITE-BTK pivotal trial by distinguished vascular surgeon and researcher Dr. Brian DeRubertis is a significant milestone as we commence our effort to fully demonstrate the efficacy and safety of our next generation MAGNITUDE scaffold,” said Christopher M. Owens, President and Chief Executive Officer of R3 Vascular. “Moving forward we look to accelerate enrollment, paving the way for a PMA market application with the FDA.” Dr. DeRubertis commented on the importance of the ELITE-BTK pivotal trial, saying, “I am honored to have enrolled the first two patients in R3 Vascular’s ELITE-BTK pivotal trial, primarily because this type of technology has been needed by our patients for years. I have spent much of my career researching novel devices for vascular disease, including bioresorbable scaffolds, and while there have been some recent successes in the BTK PAD trial landscape, there remain significant unmet needs in this area. We expect the results of this important trial will reveal MAGNITUDE’s unique potential to further advance treatment and improve patient outcomes for patients with vascular disease.” “The start of this trial marks the continuation of our journey in providing a ground-breaking technology for patients who have suffered from this debilitating disease for many years without effective therapeutic options,” said Kamal Ramzipoor, Founder and Chief Technology Officer of R3 Vascular. “MAGNITUDE is a next generation bioresorbable scaffold with the potential to address one of the greatest needs for patients suffering from Chronic Limb-Threatening Ischemia due to below-the-knee PAD. R3 Vascular’s novel bioresorbable scaffolds are made from a unique, ultra-high molecular weight polylactic acid polymer. This polymer, combined with the company’s scaffold design and proprietary processing technology allow for superior biomechanical properties with strength and ductility. We believe these properties will drive extremely positive outcomes, especially long-term for real-world patients. We look forward to advancing our product through its clinical development with the ultimate goal of having a market leading position.” As an active researcher, Dr. DeRubertis has participated in more than 15 clinical research studies as a Site or National Principal Investigator, many of which focus on the challenging area of BTK disease. He has published more than 70 articles in peer-reviewed journals, as well as more than 15 book chapters. As frequent speaker, he has presented original research at over 35 regional and national academic conferences and has been an invited speaker at numerous national and international symposia delivering over 350 presentations at these conferences. About R3 Vascular Inc.R3 Vascular is a privately-held medical device company that has developed a novel technology platform for the next generation of fully bioresorbable drug eluting sirolimus coated vascular scaffolds. These are designed to deliver the ‘stent-like’ support of a scaffold along with the anti-inflammatory and anti-proliferative result of sirolimus, but ‘disappearing’ over time as the vessel heals. R3 Vascular is headquartered in Mountain View, California. More information can be found at www.r3vascular.com. Media Contact:David Gutierrez, Dresner Corporate Services, (312) 780-7204, dgutierrez@dresnerco.com

AHA会议临床研究

2025-03-20

·PRNewswire

Micro Medical Solutions Appoints Board of Directors

WOBURN, Mass., March 20, 2025 /PRNewswire/ -- Micro Medical Solutions (MMS), a pioneering medical device startup focused on revolutionizing the treatment of Critical Limb Ischemia (CLI), is proud to announce the appointment of a distinguished Board of Directors. This distinguished leadership will provide strategic guidance as MMS advances its groundbreaking medical technologies to improve patient outcomes worldwide. Along with MMS CEO & Chairman of the Board, Greg Sullivan, the newly appointed Board of Directors includes: John Fletcher, Managing Partner Emeritus, Fletcher Spaght, Inc. John currently serves as Chairman of the Board of Directors for ClearPoint Neuro, Koru Medical, Metabolon and Optinose. He served as Chairman of Spectranetics during its turnaround and subsequent sale to Philips N.V. For this work as well as his work on the board of Axcelis Corporation, he was selected as Director of the Year by the National Association of Corporate Directors. He is Chairman Emeritus of the Corporate Collaboration Council at the Thayer School of Engineering/Tuck School of Business at Dartmouth College and serves on the Board of Advisors of Beth Israel Deaconess Medical Center and the Whitehead Institute at MIT. George Quinoy is a seasoned C-suite executive with a proven track record of building and scaling commercial enterprises in the vascular space. He has led high-growth strategies that resulted in successful acquisitions by key industry leaders. Throughout his career, George has played a pivotal role in driving rapid and sustained expansion for renowned companies, including AVE, Medtronic, ACS/Guidant, Volcano Corp, and most recently, Provisio Medical. His leadership continues to shape the vascular innovation and commercialization. Joseph Ruggio, MD,a renowned cardiologist and founder, and president of Pacific Cardiovascular Associates Medical Group, Inc. (PCA). Dr. Ruggio serves as President and Chief Medical Officer of Via Vitae MSO, LLC, a partnership with Optum Specialty Practices. Board-certified in internal medicine, cardiovascular diseases, and interventional cardiology, he brings extensive clinical and leadership expertise. Ronald Solar, PhD, Dr. Ronald Solar received his Ph.D. in Biomaterials and Materials Science from the University of Pennsylvania and has been designing and developing medical devices for over 45 years. He co-founded several successful medical device companies, including Y Med (sold to CR Bard), X Technologies (sold to Guidant), Pameda/Occam (sold to Cordis) and Versaflex (sold to Medtronic). Dr. Solar also played key leadership and development roles for Edwards Life Sciences, Advanced Cardiovascular Systems, SciMed and Medtronic. He currently holds over 68 US patents. "We are honored to welcome such an eminent group of experts to our Board," said CEO, Greg Sullivan. "Their collective experience in medical device innovation, regulatory strategy, and market expansion will be instrumental as we scale our transformative solutions, like the MicroStent™, to meet the evolving critical vascular challenges of interventionalists and their patients" About MMS For more information about Micro Medical Solutions and its mission to transform healthcare, visit . Media Contact: Peg Thornton VP, Strategic Initiatives [email protected] 732-616-9123 SOURCE Micro Medical Solutions WANT YOUR COMPANY'S NEWS FEATURED ON PRNEWSWIRE.COM? 440k+ Newsrooms & Influencers 9k+ Digital Media Outlets 270k+ Journalists Opted In GET STARTED

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