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you are visiting: home » products » Lastevolution » how it works (Pag. 1) » how it works (Pag. 10)
How it ... - Pag. 10


As acting the natural product Lastevolution

Increase stimulus (Continued ...)

In addition to disrupt the lymphatic vessels, the contractions of vaginal wall would squeeze the mucosal “sponge” This would further the interstitial pressure during the climax and will push the fluid out and into the lumen can be realized with a vaginal compression in an aroused subject.
During orgasm may be realized through smooth muscle contractions of the walls of the vagina or fibro muscular adhesions contractions of skeletal muscle as the bulbospongiosus.

The vaginal plethysmography used to monitor vessel congestion of vagina shows a slight decrease in the vasocongestion associated with contractions of pubococcy-
geus muscles if needed during the climax, and this is consistent with the fluid expelled during contractions.
An abundant amount of congestion, drops in the vase once it has been reached orgasm, also implies that significant amounts of liquid are sprayed out of the tissue by strong pelvic muscle contractions, leading to a decrease in tissue edema.

Increased permeability of the membrane

Increased permeability of the membraneThe speed of the fluid flow through a membrane greatly increases if the same thins or becomes more permeable. The vasodilatory peptide calcitonin gene-related (CGRP) occurred that contains neurons in vaginal mucosa with a specular role of capillary permeability regulator that can benaltered programmatically neural causing small changes in electrical potential in the membrane of capillary endothelial cells.

Water and electrolyte secretion from glands of the gastroin-
testinal tract are verified by activating the parasympathetic, resulting in hyperpolarization of the cell membrane and influx of chloride, water and flow drive electrolyte on the surface of luminal epithelial cells.
This mechanism is used to increase flow through cholinergically innervated gastric and salivary glands that can induce changes in 20-fpld rates quantities of fluid. It’s been used the membrane potential and the electrolyte concentration in the vagina to confirm the significant potassium transport mechanism where the flow is regulated through electrolytic concentrations in the vagina to confirm the significant potassium transport mechanism there i.e. electrolyte flux across the vaginal mucosa is regulated, not passive (at least, not at rest).
The question of how the electrolytic is tuned flow seems to have an answer in Immunohistochemistry which finds containing nerves calcitonin gene-related peptide and nitric oxide, VIP (suprachiasmatic nuclei) and neuropeptide Y (NPY) associated with blood vessels in the human vagina.

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