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Zaslal: pá 17. květen, 2024 9:38 Předmět: What is the role of cGMP in the mechanism of action of Kamag |
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What is the role of cGMP in the mechanism of action of Kamagra Gold 100 Mg?
Kamagra Gold 100 mg contains sildenafil citrate, which is a phosphodiesterase type 5 (PDE5) inhibitor. The primary mechanism of action of sildenafil, and thus Kamagra Gold, involves the cyclic guanosine monophosphate (cGMP) pathway.
Here's how it works:
Nitric Oxide (NO) Release: When a person is sexually stimulated, nitric oxide is released in the erectile tissue of the penis. Nitric oxide then activates an enzyme called guanylate cyclase.
cGMP Production: Guanylate cyclase converts guanosine triphosphate (GTP) into cyclic guanosine monophosphate (cGMP).
Smooth Muscle Relaxation: cGMP acts as a second messenger, causing smooth muscle relaxation in the penile arteries and corpus cavernosum (erectile tissue). This relaxation allows blood to flow into the penis, leading to an erection.
PDE5 Inhibition: Normally, the enzyme phosphodiesterase type 5 (PDE5) breaks down cGMP, regulating its levels. However, sildenafil in Kamagra Gold 100mg inhibits PDE5, leading to increased levels of cGMP in the penis.
Enhanced Erection: By inhibiting PDE5 and thereby prolonging the effects of cGMP, Kamagra Gold promotes stronger and longer-lasting erections by enhancing the relaxation of smooth muscle and increasing blood flow to the penis.
So, the role of cGMP in the mechanism of action of Kamagra Gold 100 mg is central. It facilitates smooth muscle relaxation and vasodilation in the penis, allowing for improved blood flow and sustained erections, ultimately aiding in the treatment of erectile dysfunction. |
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