Ginkgo biloba protects brain cells from damage caused by free radicals while improving blood circulation and
oxygen delivery through the microcapillaries.
Not exact matches
Your baby receives
oxygen and nutrients
through this
delivery system.
This infolding put the photoreceptors in close proximity to the retinal pigment epithelium, enabling the biochemical recycling of retinoids following light absorption, the attenuation of light that passes
through the photoreceptors unabsorbed, and the
delivery of
oxygen and nutrients from the overlying choroid tissue.
By increasing carbon dioxide retention, we can effectively increasing
oxygen delivery to your cells
through what's referred to as the Bohr Effect and Haldane Effect.
While the mechanism for its benefits are still being elucidated, acupuncture increases blood flow to the site of treatment which allows for healing
through nutrient and
oxygen delivery, while simultaneously removing waste products from the area.
The conversion of calories from their stored nutrient state to the form that can be burned by your muscle cells is achieved, during aerobic exercise,
through the process of cellular respiration, which requires
oxygen, and the
delivery of
oxygen through your bloodstream to your active muscle cells is directly related to your heart rate.
Delivery of
oxygen to your cells requires pulmonary (or lung) ventilation to bring the
oxygen into your body, diffusion of the
oxygen from the air in your lungs into the blood in the capillaries that surround them, cardiac (or heart) contraction to pump the blood
through your body to your muscles, and diffusion of the
oxygen from your blood into your muscle cells.
Exercise also activates the lymphatic system by facilitating lymph flow and aids in the elimination of toxins
through the lungs due to improved
oxygen delivery.
You'll increase your stamina and endurance thanks to the better
delivery of
oxygen through those extra red blood cells.
A number of clinical studies have shown that Ginkgo biloba can protect brain cells from damage caused by free radicals while improving blood circulation and
oxygen delivery, particularly
through the microcapillaries.
Knowing she had to work quickly to restore the
delivery of
oxygen to the lungs, she passed a special grabber device
through the bronchoscope, grabbed the cap and gently pulled it gently out
through the mouth as she pulled out the bronchoscope.