Sebastiaan D. Hemelrijk scite author profile

Hydrogen sulfide (H2S, 80 ppm) gas in an atmosphere of 17.5% oxygen reportedly induces suspended animation in mice; a state analogous to hibernation that entails hypothermia and hypometabolism. However, exogenous H2S in combination with 17.5% oxygen is able to induce hypoxia, which in itself is a trigger of hypometabolism/hypothermia. Using non-invasive thermographic imaging, we demonstrated that mice exposed to hypoxia (5% oxygen) reduce their body temperature to ambient temperature. In contrast, animals exposed to 80 ppm H2S under normoxic conditions did not exhibit a reduction in body temperature compared to normoxic controls. In conclusion, mice induce hypothermia in response to hypoxia but not H2S gas, which contradicts the reported findings and putative contentions.

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The Use of the Oxygenated Airdrive<sup>TM</sup> Machine Perfusion System in Kidney Graft Preservation: A Clinical Pilot Study

Houtzager

Hemelrijk

Post

et al. 2020

Eur Surg Res

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Background: The shortage of donor kidneys has led to the use of marginal donors, e.g., those whose kidneys are donated after circulatory death. Preservation of the graft by hypothermic machine perfusion (HMP) provides a viable solution to reduce warm ischemic damage. This pilot study was undertaken to assess the feasibility and patient safety of the AirdriveTM HMP system in clinical kidney transplantation. Methods: Five deceased-donor kidneys were preserved using the oxygenated Airdrive HMP system between arrival at the recipient center (Amsterdam UMC) and implantation in the patient. The main study end-points were adverse effects due to the use of Airdrive HMP. Secondary end-points were clinical outcomes and perfusion parameters. All events occurring during the transplantation procedure or within 1 month of follow-up were monitored. Results: Five patients were included in this pilot study. No technical failures were observed during the preservation period using the Airdrive HMP. Mean perfusion parameters were: duration 8.5 h (3–15 h), pressure 25 mm Hg (18–25 mm Hg), flow 49.77 mL/min (19–58 mL/min), resistance 0.57 mm Hg/min/mL (0.34–1.3 mm Hg/min/mL), and temperature 8.2 °C (2–13°C). Mean cold ischemia time (CIT) was 20.2 h (11–29.5 h). No adverse events or technical failures were observed during preservation and transplantation or during the 1-month follow-up. Conclusions: This pilot study showed the feasibility of the use of the Airdrive HMP system with no adverse events in clinical kidney transplantation.

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Carotid chemoreceptor denervation does not impair hypoxia-induced thermal downregulation but vitiates recovery from a hypothermic and hypometabolic state in mice

Hemelrijk

Gulik

Heger

2019

Sci Rep

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Induction of hypothermia and consequent hypometabolism by pharmacological downmodulation of the internal thermostat could be protective in various medical situations such as ischemia/reperfusion. Systemic hypoxia is a trigger of thermostat downregulation in some mammals, which is sensed though carotid chemoreceptors (carotid bodies, CBs). Using non-invasive thermographic imaging in mice, we demonstrated that surgical bilateral CB denervation does not hamper hypoxia-induced hypothermia. However, the recovery from a protective and reversible hypothermic state after restoration to normoxic conditions was impaired in CB-resected mice versus control animals. Therefore, the carotid chemoreceptors play an important role in the central regulation of hypoxia-driven hypothermia in mice, but only in the rewarming phase.

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