If the kidney stopped functioning, the intracellular concentration of urea would increase due to impaired excretion. In contrast, the extracellular concentration of urea would also increase due to the diminished clearance of urea from the blood.
Urea is removed in the kidneys and sent to the bladder.
Urea is the substance derived from protein metabolism that is removed from the blood in the kidneys and excreted in urine.
Materials removed from the kidney during the process of filtration include waste products such as urea, excess salts, toxins, and water. These are eliminated from the body as urine.
Excess urea in the body is primarily removed by the kidneys through urine excretion. Increasing fluid intake can help dilute urea levels and promote its excretion. In severe cases, dialysis may be necessary to remove excess urea from the blood.
Urea is removed from the body through the kidneys, where it is filtered out of the blood and excreted in the urine.
Kidneys
If the kidney stopped functioning, the intracellular concentration of urea would increase due to impaired excretion. In contrast, the extracellular concentration of urea would also increase due to the diminished clearance of urea from the blood.
Urea is removed in the kidneys and sent to the bladder.
Really? Urea and water... Urine
urea
Urea is the substance derived from protein metabolism that is removed from the blood in the kidneys and excreted in urine.
Urea is primarily removed from the body by being filtered out of the blood by the kidneys and excreted in urine. It is a waste product produced by the breakdown of proteins in the liver, and its removal helps maintain the body's nitrogen balance.
hypothesis
Materials removed from the kidney during the process of filtration include waste products such as urea, excess salts, toxins, and water. These are eliminated from the body as urine.
the concentration of urea should be kept low in the dialysis fluid because urea is harmful for our body if it is not removed.
I think they must be removed by a dialysis machine.