View clinical trials related to Hyperemia.
Filter by:PG-analogues induce hyperemia as one of side effects in addition to IOP reduction. IOP reduction is caused by direct FP receptor stimulation, but the cause of hyperemia is not clarified. Because FP receptor stimulation induce intrinsic production of PGs, hyperemia or IOP reduction may be due to secondary induced PGs. Thus, pretreatment with NSAID may affect the PG-analogue induced hyperemia or IOP reduction.
To characterize the plasma pharmacokinetics and safety profile of brimonidine following a single dose and 4 times per day (QID) dosing of brimonidine tartrate ophthalmic solution 0.025% for 7 days in healthy, adult subjects.
To compare the safety and tolerability of brimonidine tartrate ophthalmic solution 0.025% versus its vehicle in a population of pediatric, adult, and geriatric participants. At least 51% of participants will be 40 years of age or older.
To compare the efficacy and safety of brimonidine tartrate ophthalmic solution 0.025% with its vehicle for the treatment of ocular redness in a population of adult and geriatric participants with ocular redness.
The investigators hypothesize that doctors and nurses can undergo a brief period of training and then use ultrasound to accurately measure blood flow in a forearm artery after a brief period when this flow is interrupted with a blood pressure cuff, a measurement the investigators call reactive hyperemia. Reactive hyperemia indicates whether the small blood vessels in the body are healthy -- lower reactive hyperemia indicates worse small blood vessel function. When measured by experienced ultrasound experts, low reactive hyperemia strongly predicts death in critically ill patients with infection (severe sepsis). The investigators are conducting this study to determine if doctors and nurses, without specific pre-existing expertise in ultrasound, can be trained to make these measurements accurately. If so, the investigators will prove that these measurements can be applied reliably in real-world practice. The investigators also hypothesize that reactive hyperemia predict the outcomes of illness not just in patients with severe infection, but in other critically ill patients as well. Finally, the investigators hypothesize that reduced blood flow after blood pressure cuff occlusion is linked with other abnormalities of blood, previously identified in critically ill patients. For example, red blood cells from patients with severe sepsis have been shown to be stiffer than normal, so they are less able to flow along the small blood vessel passages of the body. Red blood cells become stiffer when there is a certain type of stress in the body known as "oxidative stress." If the investigators show that low reactive hyperemia, stiff red blood cells, and oxidative stress are linked, the investigators hope to develop new treatments that reduce oxidative stress, reduce the stiffness of red blood cells, and in turn improve reactive hyperemia. Improvements in reactive hyperemia indicate improvements in small blood vessel function. Better small blood vessel function means better delivery of oxygen throughout the body. The investigators believe that this will improve outcomes for critically ill patients.
Few studies look into cerebral blood flow (CBF) changes during emergence from general anesthesia for craniotomy. The purpose of this study is to demonstrate CBF changes during emergence from general anesthesia for craniotomy, through monitoring blood oxygen saturation of jugular vein bulb and transcranial Doppler.
The purpose of this study is to analyze the effectiveness of an FDA approved Class II medical device, the Simplisse Double Electric Breast Pump, in relieving the symptoms of engorgement.
The objective of this proof of concept study is to assess the involvement of epoxy-eicosatrienoic acids (EETs) in post-occlusive hyperemic and thermal hyperemia responses, and the interaction between nitric oxide (NO) and EETs, using the latest methods for the study of functional microcirculation.
The purpose of this study is to determine if regadenoson is as safe and effective as adenosine when used in the cardiac catheterization lab during measurement of coronary flow reserve and fractional flow reserve. The study hypothesis is the assessment of Fractional Flow Reserve (FFR) in the catheterization lab can be performed with equivalent accuracy when hyperemia is induced with IV Regadenoson compared with IV Adenosine without compromising patient safety.
The purpose of this study is to provide data that would give the investigators a better understanding of the physiologic changes that occur and may contribute to post operative blindness. An improved understanding may lead to the development of protocols or devices that reduce the chance of catastrophic visual loss.