View clinical trials related to Microcirculation.
Filter by:The study will investigate if non-invasive continuous transcutaneous blood gas monitoring can detect tissue perfusion and hypoxemia and the relation to other circulatory parameters such as pulse, blood pressure, cardiac output and arterial saturation.
The primary intention of the study is to examine the effect of aged garlic extract (AGE) on the absolute change in coronary artery calcium (CAC). The second intention is to examine the effect of AGE on inflammatory biomarkers and microcirculation. It is a double blind placebo controlled study. The participants will ingest AGE during a period of one year. The CAC will be controlled by computer tomography (CT) scan; the inflammatory biomarkers through blood sample test and the microcirculation through laser speckel imagining and laser doppler before and after the one year period of AGE ingestion.
The incidence of anastomotic leaks after gastroesophageal anastomosis after thoracolaparoscopic cancer esophagus surgery is high at the Oslo University Hospital. The patients selected for operation shall be investigated for microcirculatory changes at the thoracic anastomosis site and followed up for any post operative anastomotic leaks.
One of the key factors of survival of patients with extra-corporeal membrane oxygenation (ECMO) life support system is whether the blood flow supplied by ECMO can meet the need of perfusion of each organ. In our previous study, we found that microcirculaton parameters within 12h after placement of venoarterial ECMO (VA-ECMO) were lower in the 28-day non-survivors than those in the survivors. Moreover, in our ongoing observational clinical trial, we found that adjustment of ECMO blood flow could improve microcirculatory dysfunction in some patients. We hypothesize that if we can find out the patients with poor microcirculation and use the microcirculation parameters to assist the adjustment of ECMO blood flow and related treatments, we might improve the survival of these patients. In this clinical trial, the patients will receive microcirculation examination within 18h after placement of ECMO. The patients were randomly divided into control and microcirculation-assisted groups. The microcirculation parameters in patients of the microcirculation-assisted group will be given to the ECMO team, and the ECMO blood flow and relative treatments will be adjusted according to macrocirculation parameters, clinical condition, and microcirculation parameters. In the patients of the control group, the ECMO blood flow and related treatments will be adjusted according to macrocirculation parameters and clinical condition. The microcirculation will be measured twice after T1, and the ECMO and related treatments will be adjusted as previous description. The microcirculation will be measured at 72h after placement of VA-ECMO. The ECMO setting, intake-output balance, dose of inotropic and vasopressors, and prognosis will be recorded. The difference will be compared between the two groups.
The objective of the current study is to investigate the hemodynamic changes in the peripheral microcirculation system as a response to various changes, using noninvasive thermography and laser doppler
Volatile anesthetics, such as sevoflurane and desflurane, are commonly used in patients undergoing cardiac surgeries including off-pump coronary artery bypass. However, the effect of volatile anesthetics on microcirculation in patients undergoing off-pump coronary artery bypass has not been well conducted.
The study consist of evaluation in cardiac surgery with cardiopulmonary bypass (CPB) setting the ability of PCO2 derived variables (ΔPCO2, ΔPCO2/C(a-v)O2 ratio), compared to lactate and ScVO2 to predict major postoperative adverse events.
Changes in tissue microcirculation during ischemic conditioning (4 cycles of 5-min ischemia and 5-min reperfusion) has not been well documented. In previous studies, there was difference in changes in microcirculation, such as recovery slope and occlusion slope, between healthy subjects and cardiac surgery patients. Moreover, the occlusion slope, which reflects local tissue oxygen consumption during ischemic period, is anticipated to decrease during repeated ischemia-reperfusion cycle by its protecting effect, however there has not been well-conducted study. The purpose of the study is to evaluate the changes in microcirculation measured by tissue oxygen saturation during ischemic conditioning between healthy volunteers and cardiac surgery patients.
The large current uptake of e-cigarettes (2.8 million U.K. users in 2016; 26), the continuous involvement of e-cigarettes (which potentially affects their contents as well), the uncertainty about their medium- and longer-term effects, and the need to promote smoking cessation as means of reducing Cardiovascular disease, dictate that more research is urgently needed. Research exploring the impact of e-cigarettes on cardiovascular function/ health has been requested by the European Parliament, the British Medical Association, regulatory agencies, clinicians and researchers, as there is currently no consensus within the smoking cessation community as to the potential impact of e-cigarettes. With e-cigarettes being successful in replacing traditional cigarettes (i.e. up to 42% within a month), such studies should not only be efficacy-focused, but should also explore the physiological effects of e-cigarettes, as preliminary work in the field is contrasting and limited, in both the acute- and longer-term timeframe. Furthermore, as e-cigarettes are not simple nicotine-based products, the general public, researchers and government agencies cannot rely on the existing research exploring the effects of nicotine on the cardio-vasculature (e.g. coronary and peripheral vasoconstriction, intravascular inflammation and deregulation of cardiac autonomic function as well as inhibition of microcirculation). Thus, the lack of direct evidence - which would clarify the degree of safety of e-cigarettes for the user's vascular system and determine their longer-term cardiovascular disease risk - increases the need for research in the field. Such studies will supply in-depth information to service-users and policy-makers, especially as the recently-initiated U.K.'s "Medicines and Healthcare Products Regulatory Agency" validation of e-cigarettes will increase likelihood of their introduction in smoking cessation clinics. This study will bridge the existing knowledge gap and inform the general public, the scientific and the smoking cessation community in respect to the physiological (e.g. cardiovascular health) and participants' experience of both nicotine-inclusive and nicotine-free, e-cigarettes (when combined with behavioural change support) and compare it against a currently NHS-applied smoking cessation pathway that combines Nicotine Replacement Therapy and behavioural change support. This will allow future research to advance and optimize the pharmacological treatment of tobacco and nicotine dependence, by taking into consideration the study's physiological and Health Economics' findings.
When infection strikes, the body's immune system reacts by producing chemicals in the bloodstream and changes in white blood cells to attack the infecting organism (bacteria, viruses or other organisms) and prevent it spreading. This is termed the 'inflammatory response'. Though beneficial in fighting infection, this response can sometimes be excessive, causing harmful effects on body organs. This is termed the 'systemic inflammatory response syndrome' and when linked to infection is termed 'sepsis'. Previous research has shown that in patients who have sepsis, the small blood vessels supplying oxygen and nutrients to muscles and other organs (the microcirculation) become abnormal and do not function as they would in health. However, it is difficult to assess the function of microcirculation in clinical practice, and we want to find new, easier ways of doing so. The aim of this study is to test a new method for assessing the function of these small blood vessels, by directly visualising them using a highly sensitive microscope, the size of a pen, placed under the tongue. By understanding the flow of blood in these vessels in healthy individuals, we will gain a better understanding of how these vessels are affected in illness.