What is Azotemia?

Azotemia is a type of nephrotoxicity that involves excess nitrogen compounds in the blood. In severe cases, it has the potential to adversely affect the kidneys and cause acute renal failure.

It is a common condition that is evident in approximately 1% of all hospital admissions in the United States. There is an even higher incidence for patients in hospital at 5%. The frequency of azotemia is highest in people aged between 45 and 64 years.

Types of Azotemia

There are several different types of azotemia, which are classified according to the area of the renal system that is affected.

Pre-renal azotemia is an excess of nitrogen in the blood caused by lack of blood flow to the kidneys due to prolonged low blood pressure or irregular heart function. This is the most common cause of acute renal failure and can be corrected by returning normal blood flow to the kidneys.

Intra-renal azotemia is an excess of nitrogen in the blood caused by damage to the kidneys that affects their function to excrete nitrogen in the urine. There are several medications that may be involved in this kidney damage, including aminoglycoside antibiotics, anti-fungal drugs, chemotherapy agents, biological therapies, ACE inhibitors, IV contrast dues and NSAIDs. Some health conditions can also have an effect such as diabetes and pyelonephritis.

Post-renal azotemia: is an excess of nitrogen in the blood caused by a blockage in the kidneys that prevents the urine from being excreted from the renal system. This may be a result of an obstruction such as a stone, infection, tumor or enlarged prostate gland.


The kidneys constantly filter the blood to excrete waste products and maintain the balance of electrolyte in the bloodstream. When the blood flow to the kidneys decreases, the filtration rate also reduces and, as a result, the waste products build up in the blood and may reach toxic levels.

The build up of the waste products of nitrogen (e.g. creatinine and urea) is characteristic of azotemia and has the potential to damage organ function. It can be caused by any condition that reduces the blood flow to the kidneys, including heart failure, shock and long-term diarrhea, vomiting, diarrhea or bleeding.


The signs and symptoms of azotemia may include:

  • Infrequent urination
  • Painful urination
  • Discoloration of urine (e.g. dark amber or red-tinge)
  • Fatigue
  • Muscle weakness
  • Peripheral edema
  • Nausea or vomiting
  • Lack of appetite
  • Confusion

If there is an associated infection, fever or chills may also be evident.


Blood tests and urinalysis are useful in the diagnosis of azotemia and to monitor the function of the kidneys. This may include the blood urea nitrogen (BUN) test, creatinine test or the 24-hour urine collection test.

Additionally, diagnostic techniques such as ultrasound and x-ray imaging can be useful to visualize the renal system and identify particular issues. A catheter can also be inserted into the urethra to investigate severe or prolonged cases of azotemia further.

Patients who have been diagnosed with azotemia should be aware of their increased risk of kidney damage or failure and take steps to reduce the risk of complications. All healthcare providers should be informed, as several medications and related health conditions may have an effect on the condition.


The primary treatment goal is to correct the cause of the imbalance quickly before the kidneys become damaged. Intravenous fluids may be administered to increase blood volume. Several pharmacological treatment techniques may be used to manage certain factors that may have caused the condition. These include:

  • Amifostine: to decrease toxicity linked to chemotherapeutic agents
  • Antibiotics: to eradicate infection that may have caused azotemia
  • Insulin: to regulate blood glucose levels that may have caused azotemia
  • Loop diuretics: to excrete excess accumulated fluid in the body
  • Sodium polystyrene sulfonates: to decrease potassium concentration in the blood

Additionally, some health practitioners recommend a specific diet for individuals with compromised renal function to promote the healthy function of the kidneys and prevent damage. This may involve:

  • Reduce carbohydrate intake to control blood glucose levels
  • Monitor protein intake to 15-20% of total diet
  • Increase vegetable and fiber intake to maintain bowel habits
  • Avoid excess potassium and magnesium


  • http://emedicine.medscape.com/article/238545-overview#showall
  • http://chemocare.com/chemotherapy/side-effects/azotemia.aspx
  • https://www.nlm.nih.gov/medlineplus/ency/article/000508.htm
  • http://www.hcpro.com/LTC-275150-1983/Prerenal-Azotemia-Causes-signs-and-symptoms.html
  • http://www.nytimes.com/health/guides/disease/prerenal-azotemia/overview.html

Further Reading

  • All Azotemia Content

Last Updated: Aug 23, 2018

Written by

Yolanda Smith

Yolanda graduated with a Bachelor of Pharmacy at the University of South Australia and has experience working in both Australia and Italy. She is passionate about how medicine, diet and lifestyle affect our health and enjoys helping people understand this. In her spare time she loves to explore the world and learn about new cultures and languages.

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