View clinical trials related to Hypotension.
Filter by:Laparoscopic surgery can induce hemodynamic pertubations. Pneumoperitoneum, inevitable in laparoscopic surgery, induces increase in intra-abdominal pressure, which can decrease cardiac output. Simultaneously, pneumoperitoneum can stimulate sympathetic system and increase vascular resistance/arterial blood pressure. Patients undergoing laparoscopic surgery may show a normal range of blood pressure during pneumoperitoneum even when the patients are in hypovolemia, and desufflation at the end of main surgical procedure can cause an abrupt hypotension revealing hypovolemia. Therefore, appropriate fluid management is essential for preventing desufflation-induced hypotension in laparoscopic surgery. Recently, dynamic variables are used to predict and guide fluid therapy during controlled ventilation. these variables arise from heart-lung interactions during positive ventilation, which influence left ventricular stroke volume. Several dynamic variables are derived from variations in left ventricular stroke volume (stroke volume variation, SVV), for example pulse pressure variation (PPV), and variations in pulse oximetry plethysmography waveform amplitude (PWV), which have all been shown to predict fluid responsiveness in different clinical and experimental settings. However, there are few evidences regarding which type of dynamic variables can predict desufflation-induced hypotension in laparoscopic surgery. Therefore, this study was designed to assess the predictive abilities of three different type of dynamic variables including PPV, SVV, and PWV for desufflation-induced hypotension in patients undergoing laparoscopic surgery.
Open label, randomized, cross-over clinical study comparing the acute effect of high versus low protein meals during dialysis on intradialytic blood pressure, 24-hour ambulatory blood pressure and arterial stiffness indices on maintenance hemodialysis patients.
The purpose of this study is to compare the administration of two different doses of ondansetron to placebo to prevent hypotension and bradycardia following spinal anaesthesia. Apart from haemodynamic parameters (blood pressure and heart rate),characters of the spinal blockage (time of onset and regression) will be recorded too.
The investigators study 160 patients undergoing spinal surgery.Participants will be randomly divided into study group and control group.The study group will receive controlled hypotension by nitroglycerin and be divided into 3 groups according to CI.
Induction of general anesthesia often induces a decrease in the mean arterial blood pressure (MAP) caused by arterial and venous dilatation. Fluid administration is conventionally used to increase the patient's total blood volume, but is often associated with multiple adverse events such as postoperative edema. Arterial hypotension can also be treated by vasopressor agents such as norepinephrine and phenylephrine which mainly increase the blood pressure by arterial vasoconstriction. Compared to phenylephrine, norepinephrine has a shorter half-life (2 - 3 minutes) and improves the MAP by increase in cardiac contractility. In a recent study at our department it was demonstrated that besides arterial vasoconstriction, phenylephrine also improves venous return and cardiac output by venous vasoconstriction. The aim of this study is to compare the hemodynamic effects of both vasopressor agents in patients undergoing deep inferior epigastric perforators (DIEP) flap surgery. If significant differences between both agents are demonstrated, these findings can provide an important basis for future recommendations.
Collecting all available data (waveforms, beat to beat data, status data) generated by a non invasive blood pressure monitor on each hand and compare this to the actual data obtained by intra arterial (radial) monitoring. This to see if the non invasive bloodpressure monitor can be validated for intraoperative use.
Heart attacks and strokes are the leading causes of death in US. High blood viscosity and turbulence in blood flow are the key for cardiovascular diseases. Recent research has shown that application of a strong magnetic field along the blood flow direction will polarize the red blood cells and align them into short chains along the flow, so that the blood viscosity in the flow direction is reduced significantly and disturbed motions in the directions perpendicular to the flow is suppressed. This makes the blood flow laminar, turbulence suppressed, and the possibility of cardiac events reduced. Such magnet treatment also cures rouleaux and improves the blood's oxygen function. The lab tests also confirm that the above effects last more than 24 hours after one treatment. The purpose of this trial is to apply this technology to humans. According to the lab tests, this magnetic treatment has the potential to bring the following benefits to the subjects: (a)The blood viscosity will be reduced by 10-20% or more. (b) The turbulence in blood circulation will be suppressed by the treatment. After the treatment, the blood flow will be laminar. As a joint effect of viscosity reduction and turbulence suppression, the blood pressure will be lowered by 10-20% or more. (c) The subject's blood oxygen function will be improved by the treatment. Especially, if the subject has rouleaux in his/her blood, the effect will be significant. (d) The above effects will last for about 24 hours after one treatment and slowly decay; however, re-treatment will bring the effects back. (e) Because steady laminar blood flow is atheroprotective by active reduction of inflammatory genes, the magnetic treatment, reducing disturbed blood flow hemodynamics, would be possible to have a long term effect as an anti-atherogenic therapy if the treatment keeps for a while. The investigators have just completed the pilot clinical trial. The tests confirm that the technology is safe and effective in lowering the blood pressure and the effect lasts about 24 hours. The present pivotal clinical trials are the continuation and expansion of the pilot tests. The successful clinical trials will make this technology available for people in preventing heart attack and stroke.
Incidence and pathophysiologic hemodynamics of orthostatic intolerance and orthostatic hypotension in patients undergoing unilateral THA
Spinal anesthesia is a safe technique, widely used and tested in the gynecological field, so as to be considered the first choice technique in cesarean section, which allows to quickly obtain a valid sensor and motor block. Bupivacaine is one of the most widely used drug for obtaining spinal anesthesia in pregnant women undergoing caesarean section. Bupivacaine is a local anesthetic available as a racemic mixture of its two enantiomers, the R (+)- dextrobupivacaine and the S (-) - levobupivacaine, whose clinical use is widely validated. Racemic bupivacaine is available as a simple or hyperbaric solution, the latter being the most commonly used for spinal anesthesia. Levobupivacaine, which is the pure levorotatory enantiomer of racemic bupivacaine, is a slightly hypobaric solution compared to liquor and has shown less heart and nerve toxicity, probably due to its ability to bind proteins more rapidly, and a greater selectivity towards the sensory component compared to Bupivacaine, presents action and effects better predictable. Its baricity would also offer the advantage of providing a less sensitive block to the position. Hypotension is one of the most common complications of spinal anesthesia and is particularly relevant in caesarean section because, in addition to the adverse effects on the parturient, it can have repercussions on the fetus through a reduction of placental perfusion. Some studies have showed a similar incidence of hypotension in patients treated with bupivacaine compared to those treated with levobupivacaine, while others assert an equivalence between the two drugs. In most studies, however, a significantly lower incidence of hypotension and a greater hemodynamic stability were reported in pregnant patients undergoing spinal anesthesia by caesarean section with levobupivacaine. Being both hyperbaric bupivacaine and levobupivacaine routinely used at the "G. Rodolico" Universitary Hospital of Catania for the spinal anesthesia of pregnant women undergoing caesarean section and being their use decided exclusively at discretion of the treating anesthesiologist, in the light of the discrepant data in the literature about the incidence of hypotension with the two drugs, the main objective of this observational study is to evaluate the hemodynamic effects mediated by levobupivacaine on pregnant women subjected to elective cesarean section and to compare them with those mediated by hyperbaric bupivacaine in an historical court of pregnant women subjected to caesarean section in the period between April 2017 and April 2018. The hemodynamic parameters will be monitored in real time with a non-invasive hemodynamic monitoring system (EV1000® platform + Clearsight® system - Edwards LifeSciences), routinely used in the "G. Rodolico" Universitary Hospital of Catania, allowing to obtain greater accuracy and veracity of the results compared to previous studies conducted on such anesthetics.
Hypotension in adult patients undergoing general anesthesia is common. This can lead to hypoperfusion of vital organs, organ damage, and states of increased metabolic duress. This may be worse in patients with underlying essential hypertension and worse in patients taking Angiotensin Converting Enzyme Inhibitors (ACE) and Angiotensin Receptor Blockers (ARBs). Intravenous (IV) administration of Ang II may be an effective treatment of hypotension in this patient population.