25 results on '"Chang, Hsi‐Hsien"'
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2. Hydrogen Protons Modulate Perivascular Axo–axonal Interactions in the Middle Cerebral Artery of Rats
3. Perivascular Adipose Tissue Modulation of Neurogenic Vasorelaxation of Rat Mesenteric Arteries
4. The Acute Effects and Mechanism of Ketamine on Nicotine-Induced Neurogenic Relaxation of the Corpus Cavernosum in Mice
5. Methyl Palmitate Modulated NMDA-Induced Cerebral Hyperemia in Hypertensive Rats
6. The differences in the adrenergic receptors of proximal urethra between sexes
7. Ketamine Inhalation Alters Behavior and Lower Urinary Tract Function in Mice
8. Ketamine Inhalation Alters Behavior and Lower Urinary Tract Function in Mice.
9. Methyl palmitate modulates the nicotine‐induced increase in basilar arterial blood flow
10. Does ketamine ameliorate the social stress‐related bladder dysfunction in mice?
11. The aging effects on phenylephrine-induced relaxation of bladder in mice
12. The aging effects on phenylephrine-induced relaxation of bladder in mice.
13. Capsaicin-Sensitive Sensory Nerves Indirectly Modulate Motor Function of the Urinary Bladder
14. Perivascular adipose tissue modulates neurogenic vasorelaxation in rat mesenteric arteries
15. Decreased release of methyl palmitate in perivascular adipose tissue in hypertension
16. Sympathetic activation increases basilar arterial blood flow in normotensive but not hypertensive rats
17. Role of Perivascular Adipose Tissue–Derived Methyl Palmitate in Vascular Tone Regulation and Pathogenesis of Hypertension
18. Methyl palmitate is the perivascular adipose tissue‐derived relaxing factor
19. Sympathetic nerve‐mediated nitrergic dilation of basilar arteries of the rat in vivo
20. Nitric oxide of neuronal origin mediates NMDA-induced cerebral hyperemia in rats
21. Nitric oxide of neuronal origin mediates NMDAinduced cerebral hyperemia in rats
22. The differences in the adrenergic receptors of proximal urethra between sexes.
23. The aging effects on phenylephrine-induced relaxation of bladder in mice.
24. Sympathetic activation increases basilar arterial blood flow in normotensive but not hypertensive rats.
25. Methyl palmitate: a potent vasodilator released in the retina.
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