Abstract
Hydrogen gas inhalation has not yet been elucidated to improve blood behaviors or antioxidant activity in blood. In the present study, the PEM (proton-exchange-membrane)-/platinum-plated electrode-equipped electrolyzer was examined as a hydrogen gas inhaler, which was estimated to supply 3% hydrogen as rapidly as post-operating 10–15 min, together with continuous 30 min retention of 20.8% oxygen being nearly equal to atmospheric oxygen contents. The 40 min inhalation of 3% hydrogen gas and thereafter 60 min rest were shown to enhance the antioxidant ability in human serum, as evaluated by ORAC (oxygen radical absorbing capacity)-based fluorometry, although scarcely enhanced for air dummy inhalation. Unexpectedly, antioxidant ability was 2.50-fold more enhanced for post-inhalational 0–60 min rest than during 40 min inhalation. Oxidative stress-suffering erythrocytes formed a rosary-chain-like aggregation composed of 3–6 cells, together with loss of a single hollow/biconcave-discoid structure in the cell central-part being necessary for erythrocyte passing through capillary vessels, both of which were prevented by 3% hydrogen gas inhalation. Hydrogen gas inhalation increased the intracellular foreign bodies, being distinguished from vacuole/cyst, in leucocytes, suggesting the hydrogen-activated leukocyte phagocytosis-associated events. Thus, 3%-hydrogen gas inhalation is suggested to potentially improve both the erythrocyte rheological/morphologic behaviors and the leucocyte phagocytosis-associated activity, concurrently with the enhanced antioxidant ability in blood.
Highlights
Aging is accompanied by increases in oxidative stress, which can lead to the formation of blood clots and immune disorders in the human body [1,2,3]
Erythrocytes are exposed to oxygen, and they are rich in iron contents, which promotes, in combination with diverse iron-containing proteins including transferrin and ferritin etc., the formation of reactive oxygen species (ROS) through Haber–Weiss/Fenton reactions etc
In terms of medical application, it is reported that hydrogen gas inhalation improved the delayed brain injury after subarachnoid hemorrhage, the function of lung organ donated after cardiac injuries, and the disordered immune system of senescent cancer patients [13,14,15]
Summary
Aging is accompanied by increases in oxidative stress, which can lead to the formation of blood clots and immune disorders in the human body [1,2,3]. In terms of medical application, it is reported that hydrogen gas inhalation improved the delayed brain injury after subarachnoid hemorrhage, the function of lung organ donated after cardiac injuries, and the disordered immune system of senescent cancer patients [13,14,15]. When hydrogen is inhaled as gaseous matter, we can utilize hydrogen effectively, overcoming drawbacks of hydrogen water such as low water solubility and easy evaporation from water. This is an interesting concept, whereby we may be able to exert effects of hydrogen gas on both the rheological behavior of erythrocytes and the leukocyte phagocytotic functions, because hydrogen gas can approach blood cells through lung capillaries, which has not yet been elucidated substantially
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