‘Computer Kidney’ Highlights the need to Drink Enough Water Daily
The computer kidney can help shed light on impacts of medicines taken by those who don’t drink enough water.
Researchers at the University of Waterloo in Canada have developed a "computer kidney" that can help shed light on impacts of medicines taken by those who don't drink enough water.
The ability of the kidney to maintain water balance is vital to our health. It controls water balance, and when we are dehydrated, it produces highly concentrated urine to get rid of waste using as little water as possible.
The older population, those with kidney diseases, and those on blood pressure medication sometimes have a problem with water balance.
The researchers found that the elderly people with impaired kidney function and those taking a combination of certain drugs need to be extra mindful of their water intake.
Anita Layton, professor of Applied Mathematics, Pharmacy and Biology at Waterloo, said,
“People who have high blood pressure are typically given a water pill, so they pee a lot to lower their blood volume and in so doing lower their blood pressure.”
These patients are frequently also given another drug that targets a hormonal system which will affect the kidney as well.
"A lot of people are on these two drugs, and they will be fine. But one day they might have a headache and take an aspirin, and the three of these drugs together can hurt your kidneys," Layton added in a paper published in the the American Journal of Physiology - Renal Physiology.
Layton built the first computational model that simulates the muscle contractions that move urine from the kidney to the bladder.
It found that unless a patient is properly hydrated, taking the two blood pressure drugs and an aspirin concurrently could cause acute kidney injury.
The injury happens when there is an insufficient water balance, which can lead to concentrated urine from a build-up of waste in the body.
"Incredibly, how mammals produce a highly concentrated urine is not well understood," Layton said. "We're now a step closer to understanding how water balance is maintained in mammals."
(This story was auto-published from a syndicated feed. Only the headline has been edited by FIT).
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