View clinical trials related to Microcirculation.
Filter by:The study should enrol 50 patients with stable coronary artery disease scheduled for elective percutaneous coronary intervention of single, de novo lesion of native coronary artery. Patients will be randomized to orally given trimetazidine on top of standard medical therapy for stable coronary artery disease versus standard therapy only. The randomization will begin 48 hrs before intervention. Index of microcirculatory resistance (IMR) will be measured by thermodilution method using coronary pressure and temperature wire before and after stent implantation. Echocardiography will be performed before intervention and within 30 minutes after intervention. Patients will be followed clinically for a period of one year.
This is an observational study comparing microcirculation of pregnant to non-pregnant women. "Microcirculation" means blood flow to the extremely small blood vessels in one's body. During pregnancy the amount of blood in a woman's body increases. The body responds to this increase by pumping more blood through the heart and narrowing the size of blood vessels. There are many types of blood vessels that have different roles in the body. Larger blood vessels. Transport blood to and from body organs like the brain and liver. Small vessels (microcirculation)distributes blood to the organ tissues. The microcirculation can change blood flow and blood pressure. Microcirculation is involved in delivering oxygen and nutrients to your body, removing waste products, and regulating body temperature. The investigators current understanding of the microcirculation in pregnant women is limited. There is a device available that can measure microcirculation. It is known as Sidestream Dark Field (SDF) imaging. It is a special type of camera that captures pictures of the microcirculation. In this study the investigators will compare the microcirculation, as seen with SDF imaging, of pregnant women to non-pregnant women. By improving the investigators understanding of maternal microcirculation the investigators are adding to the knowledge of how the pregnant body works. The investigators hope to then translate this knowledge into further studies to improve maternal and fetal outcomes through prevention and treatment of maternal low blood pressure caused by spinal anesthesia.
Major microvascular blood flow alterations have been documented in patients with severe sepsis. It was also demonstrated that the microcirculation improved in survivors of septic shock but failed to do so in patients dying from acute circulatory failure or with multiple organ failure after shock resolution. Early, effective fluid resuscitation is a key component in the management of patients with severe sepsis and septic shock with the goal of improving tissue perfusion. The best fluid in this early resuscitation phase has been and still is under debate. The aim of this study is to evaluate the effect of Three different Fluids(Albumin 5%, Normal Saline, HES 130 kD) on microcirculation in severe sepsis/septic shock patients using Sidestream Dark Field (SDF) Microscopy and Near-Infrared Spectroscopy (NIRS) analysis.
This project investigates microcirculation in skin and tendon after a rupture of the Achilles tendon. Three different treatments are compared: stitches of the tendon, fibrin-glue and the combination of both.
This study aims to test the hypothesis that postoperative daily hyperbaric oxygen therapy (HBOT) decreases soft-tissue complication rate during the operative handling of intra-articular calcaneal fractures. Minor motivations: 1. To evaluate microcirculatory criteria of cutaneous tissue predicting emerging wound healing defects, 2. To identify patients at risk for soft-tissue complication after calcaneal plate osteosynthesis and to determine the optimal time point for operative intervention using these microcirculatory criteria preoperatively, 3. To evaluate the effect of HBOT on postoperative microcirculation, 4. To collect preliminary data to evaluate the economical impact of wound complications, with and without HBOT, 5. To identify a correlation between HBOT with expected limited soft-tissue complication rate and the clinical and radiographic outcome two years after surgery.
The investigators aim to test the hypothesis that Laser speckle contrast imaging allows for the measurement of cutaneous blood flow following various durations of tourniquet ischemia.
We aim to test the hypothesis that Laser speckle contrast imaging allows for the measurement of cutaneous blood flow during exercise.
In this study we hypothesize infusion of Angiotensin II improves the insulin-induced microvascular dilatation and therefore insulin-mediated glucose uptake. Objectives: Does infusion of Angiotensin II increase insulin-mediated glucose uptake via enhanced insulin-mediated microvascular function in healthy subjects?
Hypothesis: The combination of extracorporeal shockwave and a daily gluteal muscle strength programme is superior to the gluteal muscle strength programme alone in cellulite. Study design: Randomized-controlled trial Analysis: Intention-to-treat Outcome parameters: a) Photo, b) Nürnberger Score, c) circumference measurements, d) capillary blood flow, e) tissue oxygen saturation, f) postcapillary venous blood flow Intervention: Extracorporeal shock wave for six sessions with 2000 impulses at both gluteal and thigh regions plus a specific gluteal strength exercise training Follow-up: 12 weeks
Autoregulation is the ability of a vascular bed to maintain blood flow despite changes in perfusion pressure. For a long time it had been assumed that the choroid is a strictly passive vascular bed, which shows no autoregulation. However, recently several groups have identified some autoregulatory capacity of the human choroid. In the brain and the retina the mechanism behind autoregulation is most likely linked to changes in transmural pressure. In this model arterioles change their vascular tone depending on the pressure inside the vessel and outside the vessel. In the choroid, several observations argue against a direct involvement of arterioles. However, the mechanism behind choroidal autoregulation remains unclear. In the present study autoregulation of the choroid will be investigated during a decrease in ocular perfusion pressure, which will be achieved by an increase in intraocular pressure. Pressure/flow relationships will be investigated in the absence or presence of a NO synthase inhibitor. As a control substance the alpha-receptor agonist phenylephrine will be used.