Pharmacokinetics of a single inhalation of hydrogen gas in pigs

The benefits of inhaling hydrogen gas (H2) have been widely reported but its pharmacokinetics have not yet been sufficiently analyzed. We developed a new experimental system in pigs to closely evaluate the process by which H2 is absorbed in the lungs, enters the bloodstream, and is distributed, meta...

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Veröffentlicht in:	PloS one 2020-06, Vol.15 (6), p.e0234626
Hauptverfasser:	Sano, Motoaki, Ichihara, Genki, Katsumata, Yoshinori, Hiraide, Takahiro, Hirai, Akeo, Momoi, Mizuki, Tamura, Tomoyoshi, Ohata, Shigeo, Kobayashi, Eiji
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Schlagworte:	Administration, Inhalation Advection Animals Biology and Life Sciences Blood Blood levels Blood Specimen Collection Cardiology Carotid Arteries - metabolism Carotid artery Catheters Diffusion Drug dosages Engineering and Technology Experiments Gas chromatography Half life Hogs Hydrogen Hydrogen - blood Hydrogen - pharmacokinetics Hydrogen ion concentration Inhalation Lung Lungs Medical examination Medicine Medicine and Health Sciences Metabolism Observations Pharmacokinetics Pharmacological research Pharmacology Physical Sciences Portal vein Portal Vein - metabolism Properties Respiration Steady state Swine Transplants & implants Veins & arteries Vena Cava, Inferior - metabolism Ventilators
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description	The benefits of inhaling hydrogen gas (H2) have been widely reported but its pharmacokinetics have not yet been sufficiently analyzed. We developed a new experimental system in pigs to closely evaluate the process by which H2 is absorbed in the lungs, enters the bloodstream, and is distributed, metabolized, and excreted. We inserted and secured catheters into the carotid artery (CA), portal vein (PV), and supra-hepatic inferior vena cava (IVC) to allow repeated blood sampling and performed bilateral thoracotomy to collapse the lungs. Then, using a hydrogen-absorbing alloy canister, we filled the lungs to the maximum inspiratory level with 100% H2. The pig was maintained for 30 seconds without resuming breathing, as if they were holding their breath. We collected blood from the three intravascular catheters after 0, 3, 10, 30, and 60 minutes and measured H2 concentration by gas chromatography. H2 concentration in the CA peaked immediately after breath holding; 3 min later, it dropped to 1/40 of the peak value. Peak H2 concentrations in the PV and IVC were 40% and 14% of that in the CA, respectively. However, H2 concentration decay in the PV and IVC (half-life: 310 s and 350 s, respectively) was slower than in the CA (half-life: 92 s). At 10 min, H2 concentration was significantly higher in venous blood than in arterial blood. At 60 min, H2 was detected in the portal blood at a concentration of 6.9-53 nL/mL higher than at steady state, and in the SVC 14-29 nL/mL higher than at steady state. In contrast, H2 concentration in the CA decreased to steady state levels. This is the first report showing that inhaled H2 is transported to the whole body by advection diffusion and metabolized dynamically.
doi_str_mv	10.1371/journal.pone.0234626
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However, H2 concentration decay in the PV and IVC (half-life: 310 s and 350 s, respectively) was slower than in the CA (half-life: 92 s). At 10 min, H2 concentration was significantly higher in venous blood than in arterial blood. At 60 min, H2 was detected in the portal blood at a concentration of 6.9-53 nL/mL higher than at steady state, and in the SVC 14-29 nL/mL higher than at steady state. In contrast, H2 concentration in the CA decreased to steady state levels. 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We developed a new experimental system in pigs to closely evaluate the process by which H2 is absorbed in the lungs, enters the bloodstream, and is distributed, metabolized, and excreted. We inserted and secured catheters into the carotid artery (CA), portal vein (PV), and supra-hepatic inferior vena cava (IVC) to allow repeated blood sampling and performed bilateral thoracotomy to collapse the lungs. Then, using a hydrogen-absorbing alloy canister, we filled the lungs to the maximum inspiratory level with 100% H2. The pig was maintained for 30 seconds without resuming breathing, as if they were holding their breath. We collected blood from the three intravascular catheters after 0, 3, 10, 30, and 60 minutes and measured H2 concentration by gas chromatography. H2 concentration in the CA peaked immediately after breath holding; 3 min later, it dropped to 1/40 of the peak value. Peak H2 concentrations in the PV and IVC were 40% and 14% of that in the CA, respectively. However, H2 concentration decay in the PV and IVC (half-life: 310 s and 350 s, respectively) was slower than in the CA (half-life: 92 s). At 10 min, H2 concentration was significantly higher in venous blood than in arterial blood. At 60 min, H2 was detected in the portal blood at a concentration of 6.9-53 nL/mL higher than at steady state, and in the SVC 14-29 nL/mL higher than at steady state. In contrast, H2 concentration in the CA decreased to steady state levels. This is the first report showing that inhaled H2 is transported to the whole body by advection diffusion and metabolized dynamically.</abstract><cop>United States</cop><pub>Public Library of Science</pub><pmid>32559239</pmid><doi>10.1371/journal.pone.0234626</doi><tpages>e0234626</tpages><orcidid>https://orcid.org/0000-0003-1771-8310</orcidid><orcidid>https://orcid.org/0000-0001-7435-6534</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Administration, Inhalation Advection Animals Biology and Life Sciences Blood Blood levels Blood Specimen Collection Cardiology Carotid Arteries - metabolism Carotid artery Catheters Diffusion Drug dosages Engineering and Technology Experiments Gas chromatography Half life Hogs Hydrogen Hydrogen - blood Hydrogen - pharmacokinetics Hydrogen ion concentration Inhalation Lung Lungs Medical examination Medicine Medicine and Health Sciences Metabolism Observations Pharmacokinetics Pharmacological research Pharmacology Physical Sciences Portal vein Portal Vein - metabolism Properties Respiration Steady state Swine Transplants & implants Veins & arteries Vena Cava, Inferior - metabolism Ventilators
title	Pharmacokinetics of a single inhalation of hydrogen gas in pigs
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