Cardiovascular system function

Acrylonitrile is beheved to behave similarly to hydrogen cyanide (enzyme inhibition of cellular metaboHsm) (150) and is befleved to be a potential carcinogen (151). It can also affect the cardiovascular system and kidney and Hver functions (150). Eurther information on the toxicology and human exposure to acrylonitrile is available (152—154) (see Acrylonitrile). 

NT has been impHcated in neuroendocrine function, thermal and circadian regulation, cardiovascular and digestive system function, nociception, and in psychoses as a DA modulator. 

Mean arterial pressure and cardiac output, an expression of the amount of blood that the heart pumps each minute, are the key Indicators of the normal functioning of the cardiovascular system. Mean arterial pressure is strictly controlled, but by changing the cardiac output, a person can adapt, e.g., to increased oxygen requirement due to increased workload. Blood flow in vital organs may vary for many reasons, but is usually due to decreased cardiac output. However, there can be very dramatic changes in blood pressure, e.g., blood pressure plummets during an anaphylactic allergic reaction. Also cytotoxic chemicals, such as heavy metals, may decrease the blood pressure. 

Angiotensin converting enzyme (ACE) plays a central role in cardiovascular hemostasis. Its major function is the generation of angiotensin (ANG) II from ANGI and the degradation of bradykinin. Both peptides have profound impact on the cardiovascular system and beyond. ACE inhibitors are used to decrease blood pressure in hypertensive patients, to improve cardiac function, and to reduce work load of the heart in patients with cardiac failure. 

The substrate specificity of ACE is low. ACE cleaves a variety of pairs of amino acids from the carboxy-terminal part of several peptide substrates. The conversion of ANGI to ANGII and the degradation of bradykinin to inactive fragments are considered the most important functions of ACE. Both peptides have profound impact on the cardiovascular system and beyond. ACE is thus an important target for ACE inhibitors. These compounds are frequently and efficiently used in the treatment of hypertension and cardiac failure. 

Bazedoxifene is a third generation SERM that displays estrogenic effects in bone and the cardiovascular system, but functions as an antiestrogen in the breast and uterus. 

Ca2+ is an important intracellular second messenger that controls cellular functions including muscle contraction in smooth and cardiac muscle. Ca2+ channel blockers inhibit depolarization-induced Ca2+ entry into muscle cells in the cardiovascular system causing a decrease in blood pressure, decreased cardiac contractility, and antiarrhythmic effects. Therefore, these drugs are used clinically to treat hypertension, myocardial ischemia, and cardiac arrhythmias. 

In the early phase of serious intraabdominal infections, attention should be given to preserving major organ system function. With generalized peritonitis, large volumes of intravenous (IV) fluids are required to maintain intravascular volume, to improve cardiovascular function, and to ensure adequate tissue perfusion and oxygenation. Adequate urine output should be maintained to ensure appropriate fluid resuscitation and to preserve renal function. A common cause of early death is hypovolemic shock caused by inadequate intravascular volume expansion and tissue perfusion. 

TBT < TET < TMT inhibit the cardiovascular system in a concentration-dependent manner which affects the Ca+2 pump as well as protein phosphorylation. The compounds also inhibited the Ca+2-Atpase function similar to that observed with nerve cells35. 

The most common adverse effects involve the GI system (gastritis, bleeding, and perforation), kidneys (renal papillary necrosis, reduced creatinine clearance [CLcr]), cardiovascular system (sodium and fluid retention, increased blood pressure), and CNS (impaired cognitive function, headache, dizziness). 

The AEGL-1 concentration was based on a 1-hour (h) no-effect concentration of 8,000 parts per million (ppm) in healthy human subjects (Emmen et al. 2000). This concentration was without effects on pulmonary function, respiratory parameters, the eyes (irritation), or the cardiovascular system. Because this concentration is considerably below that causing any adverse effect in animal studies, an intraspecies uncertainty factor (UF) of 1 was applied. The intraspecies UF of 1 is supported by the absence of adverse effects in therapy tests with patients with severe chronic obstructive pulmonary disease and adult and pediatric asthmatics who were tested with metered-dose inhalers containing HFC-134a as the propellant. Because blood concentrations in this study approached equilibrium following 55 minutes (min) of exposure and effects are determined by blood concentrations, the value of 8,000 ppm was made equivalent across all time periods. The AEGL-1 of 8,000 ppm is supported by the absence of adverse effects in experimental animals that inhaled considerably higher concentrations. No adverse effects were observed in rats exposed at 81,000 ppm for 4 h (Silber and Kennedy 1979) or in rats exposed... 

To assess the effects of the test substance on the central Anon.27 nervous system, peripheral nervous system, sensory organs, respiratory and cardiovascular systems, smooth muscles including uterus, peripheral organs, renal function, and adverse effects observed in clinical studies... 

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