by admin | Sep 14, 2022 | Appendix III, Support for Furry Family
PURPOSE. To investigate whether nitric oxide (NO) contributes to the regulation of retinal circulation during hypercapnia in cats. Read More
by admin | Sep 14, 2022 | Appendix III, Support for Furry Family
Diseases of the gastrointestinal tract of horses are caused by many factors and have a complex pathogenesis. Developing effective methods of differential diagnostics is of high fundamental and applied importance. The pathogenesis of diseases of the digestive tract of...
by admin | Sep 14, 2022 | Appendix III, Support for Furry Family
Recently, we have shown that chronic exercise increases endothelium-derived relaxing factor (EDRF)/nitric oxide (NO)-mediated epicardial coronary artery dilation in response to brief occlusion and acetylcholine. This finding suggests that exercise can provide a...
by admin | Sep 14, 2022 | Appendix III, Support for Furry Family
In many marine invertebrates, larval metamorphosis is induced by environmental cues that activate sensory receptors and signalling pathways. Nitric oxide (NO) is a gaseous signalling molecule that regulates metamorphosis in diverse bilaterians. In most cases NO...
by admin | Sep 14, 2022 | Appendix III, Support for Children
BACKGROUND: High fractional exhaled nitric oxide (FeNO) is an indicator of poor asthma control and has been proposed as a non-invasive assessment tool to guide asthma management. OBJECTIVE: We aimed to describe the prevalence of and factors associated with high FeNO...
by admin | Sep 14, 2022 | Appendix III, Support for Children
The nitric oxide pathway plays a pivotal, yet diverse, role in human physiology, including modulation ofvascular tone, neural transmission and inflammation. Inhaled nitric oxide is a selective pulmonary vasodilator that has emerged rapidly as an important therapeutic...
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