View clinical trials related to Ischemia.
Filter by:This is a prospective, multicenter, randomized trial to determine the mechanisms of vascular healing. The study will evaluate subjects with peripheral artery disease (PAD) who require an endovascular intervention of the femoro-popliteal (SFA) artery to restore blood flow to the leg.
Evaluate the feasibility of an autologous cell preparation composed of a mixture of cells enriched for endothelial progenitor cells (EnEPCs) and multipotent adult hematopoietic stem/progenitor cells (HSPC) (BGC101), in the treatment of patients suffering from peripheral arterial disease (PAD) with critical limb ischemia (CLI) who have not responded to optimal pharmacological treatment or control of risk factors and/or had a revascularization failure, and do not have the option of further revascularization treatment.
Neovascularization (NV) is the innate capability to enlarge collateral arteries ("arteriogenesis"), and to stimulate growth of new capillaries, arterioles and venules at the tissue level ("angiogenesis"). Patients with Chronic Limb-threatening Ischemia (CLI) present with forefoot rest-pain, ulceration and/or gangrene. They require risky and costly revascularization operations to avoid amputation. The investigators hypothesize that their inadequate NV can be modulated to restore this capability. By correcting impediments to NV in an out-patient setting, the investigators expect to facilitate CLI management. While the following impediments to NV are complex, the solution is not. Arteriogenesis necessitates endothelial cell activation in small collaterals as blood is offloaded away from the occluded artery. Shear stress provides this stimulus, but is attenuated caudal to multi-level arterial occlusive disease. The "arteriogenesis switch" is not turned on. Furthermore, the lack of nutritive oxygenated blood inflow and the accumulation of toxic metabolic by-products are adverse to synthetic pathways in the ischemic tissue. Additionally, protein "distress" signals cannot be effectively disseminated by the ischemic tissue, and the reparative progenitor cells they are supposed to mobilize cannot effectively home back to the ischemic tissue to orchestrate NV. The CLI patient is especially disadvantaged by having diminished function and number of circulating progenitor cells (CPC). Lastly these elderly, often diabetic, patients are less able to fend off infection. An FDA approved external programmed pneumatic compression device (PPCD) was used to restore the shear stress stimulus required for arteriogenesis. It also enhances oxygenated nutritive arterial inflow, clears waste products of metabolism (increased venous and lymphatic outflow), and helps distress proteins reach the central circulation and mobilized progenitor cells to return to the ischemic tissue. We corrected the progenitor cell and immunologic impairment with granulocyte colony stimulating factor (G-CSF), FDA approved for stem cell mobilization and immunological boost in the setting of cancer chemotherapy. The preliminary data show clinical, angiographic, hemodynamic and biochemical evidence for enhanced NV. The purpose for this study is to enroll 25 patients to reproduce the biochemical data to support a large scale clinical trial.
The first aim of this study is to analyse perinatal risk factors leading to hypoxic ischaemic encephalopathy in term and near term neonates born in Switzerland who were admitted to the neonatal and intensive care units offering hypothermia therapy. Further, investigators would like to analyse the influence of these perinatal risk factors on the severity of encephalopathy during and after hypothermia therapy.
A transient ischemic attack (TIA) should be considered an emergency prevention opportunity in order to avoid recurrence as cerebral infarction (CI) serious (fatal or disabling). Indeed, about 20% of patients who have IC had in previous days or weeks, a TIA, which can be defined as a brief episode of cerebral dysfunction (or eye) do not result in permanent brain damage and thus no sequelae. Moreover, about 20% of ischemic events observed in practice are AIT. Despite the progress achieved in the treatment in the acute phase of an IC, prevention remains the most effective way to fight against this disease. This prevention can be put in place before the occurrence of a first IC, or after a first IC, especially when minor as a TIA. However, the diagnosis of TIA remains particularly difficult and it is necessary now to identify new tools for the diagnosis of transient ischemic attack. Our study focused on the identification of one or more molecules (called biological markers or biomarkers) present in the bloodstream of patients, which will serve to facilitate the differential diagnosis of patients with TIA.
Ischemic stroke is the leading cause of acquired disability among adults, and one of the main causes of death. In Switzerland, the approved time window for stroke treatment with intravenous thrombolysis after symptom onset is 4.5 h. Even within the 4.5 h time-window, however, the benefit of treatment strongly decreases as time passes. Moreover, only around 10% patients receive thrombolytic treatment, since patients with stroke arrive too late to the hospital (prehospital delay). Despite efforts to educate the community on the symptom of stroke, prehospital delay did not decrease over time, and the reasons remain incompletely understood. Prehospital delay reduces the proportion of patients with ischemic stroke treated with thrombolysis, and reduces the odds of favorable outcome among the minority treated with thrombolysis. This prospective cohort study aims at understanding the causes of prehospital delay among patients with acute ischemic stroke. Trained study-nurses will interview, at the bedside, patients and proxies along a standardized questionnaire on prehospital delay. Avoiding modificables causes of prehospital delay may increase the thrombolysis rate and improve outcomes after stroke.
Stem cell therapy has been a new and effective therapy in recent years for diabetic foot.This study intends to establish an optimal clinical research program, and attempts to break the technical bottleneck in the stem cell therapy for treating diabetes related vascular complications.
This is a human clinical study involving the isolation of autologous bone marrow derived stem cells (BMSC) and transfer to the vascular system and inferior 1/3 of the nasal passages in order to determine if such a treatment will provide improvement in neurologic function for patients with certain neurologic conditions. http://mdstemcells.com/nest/
ABSORB BTK Study: A prospective, multicenter, controlled clinical evaluation of the use of a bioresorbable drug eluting stent in the arterial vasculature below the knee
Chronic non-healing wounds represent a major source of morbidity, disability, and mortality in diabetic patients. Diabetes is the leading cause of non-traumatic limb amputations worldwide. Many patients with ischemic or neuroischemic wounds are not candidate to surgical/endovascular revascularization, owing to anatomical vascular reasons or for the underlying conditions and co-morbidities. Therefore, identification of novel medical treatment strategies to improve wound healing in diabetic patients is a major challenge for clinicians, researchers, and health care systems. Defects in bone marrow (BM)-derive stem and progenitor cells, including EPCs (endothelial progenitor cells), contribute to diabetic complications. Stem cell mobilizing agents have been previously studied as an adjunctive therapy for critical limb ischemia and chronic non-healing wounds in diabetic and non-diabetic patients, as well as for the treatment of diabetic wound infections . Meta-analyses of such studies indicate that stem cell mobilization in these clinical conditions is safe and potentially effective in improving surrogate outcome measures and hard endpoints (such as rates of wound healing and amputation). This study plans to evaluate whether a single injection of Plerixafor improves wound healing in diabetic patients with stage III-IV (neuro)ischemic wounds.