Effect of liver failure on the ventilatory response to hypoxia in man and the goat
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Summary
Liver failure increases the body's response to low oxygen (hypoxia) by heightening peripheral chemoreceptor sensitivity. However, it may also depress central respiratory control, creating a disparity in ventilatory responses.
Area of Science:
- Cardiovascular Physiology
- Respiratory Physiology
- Hepatic Physiology
Background:
- Hepatic cirrhosis can lead to complex physiological changes affecting respiratory control.
- The impact of liver failure on ventilatory responses to hypoxia requires further elucidation.
Purpose of the Study:
- To investigate ventilatory responses to transient and steady-state hypoxia in patients with hepatic cirrhosis.
- To assess the effects of experimentally induced liver failure on respiratory control in goats.
Main Methods:
- Measured ventilatory responses to transient and steady-state hypoxia in cirrhotic patients and healthy controls.
- Induced liver failure in goats to study changes in hypoxic ventilatory response and hypercapnia response.
- Evaluated the effect of hypoxia on hypercapnia response before and after liver failure.
Main Results:
- Patients with hepatic cirrhosis showed a greater response to transient hypoxia compared to controls, despite respiratory alkalosis.
- In goats, liver failure increased the response to transient hypoxia but created a disparity with unchanged steady-state hypoxic response.
- Steady-state hypoxia enhanced hypercapnia response in healthy goats but depressed it in goats with liver failure.
Conclusions:
- Liver failure appears to increase peripheral chemoreceptor sensitivity to hypoxia.
- Central respiratory centers may become more susceptible to hypoxic depression during liver failure.
- A dissociation between transient and steady-state hypoxic ventilatory responses emerges during liver failure.