Introduction #

An Intravenous Urogram (IVU), also known as an Intravenous Pyelogram (IVP), is a special X-ray test that helps doctors see how well your kidneys, ureters, and bladder are working.

It involves injecting a contrast dye into your bloodstream, which travels through your urinary tract, allowing detailed X-ray images to be taken at specific intervals.

Why is an IVU done? #

Your doctor may request an IVU to assess the structure and function of your urinary system. Common reasons include:

• Detecting kidney stones or blockages in the urinary tract

• Evaluating urinary infections that keep coming back

• Checking for tumors, cysts, or abnormal growths in the kidneys or bladder

• Assessing urinary tract injuries

• Investigating blood in the urine (haematuria) or unexplained pain in the lower back or sides

What happens during an IVU procedure? #

• You will lie on an X-ray table, and an initial plain film of your abdomen may be taken.

• A small amount of contrast dye is injected into a vein in your arm.

• As the dye travels through your kidneys, ureters, and bladder, a series of timed X-rays are taken usually over 30 to 60 minutes.

• You may be asked to remain still and occasionally change positions (such as turning slightly to one side) while different images are captured.

• In some cases, a final film is taken after you empty your bladder to assess drainage.

The procedure is generally painless, though you might feel a warm sensation or a metallic taste when the dye is injected, this usually passes quickly.

How should I prepare for an IVU? #

• You may be asked to avoid eating for about 4–6 hours before the procedure.

• Drink plenty of water the day before, unless otherwise instructed.

• A mild laxative or enema may be given the night before to clear your bowel for better image quality.

Inform your doctor or radiographer if you

•  Have kidney disease or previous allergic reactions to contrast dye
• Are pregnant or think you might be
• Have diabetes or are taking metformin (you may need special instructions)

Some centres may check your kidney function (creatinine test) before the procedure.

Can I eat or drink before my IVU? #

You may be asked not to eat for about 4–6 hours before your IVU, but you can drink clear fluids (like water) unless told otherwise. Always follow the preparation instructions given by your imaging center.

What should I expect after the procedure? #

• You can usually go home shortly after your IVU.

• It’s advised to drink plenty of water to help flush the contrast dye from your system.

• Mild, short-term side effects like increased urination or slight nausea may occur but usually settle quickly.

Are there any risks associated with IVU? #

• The test uses a small amount of radiation, which is considered safe and justified when medically needed.

• Allergic reactions to contrast dye are rare and usually mild (e.g., itching or rash).

• Serious reactions such as difficulty breathing or swelling are very uncommon but can be treated promptly by the medical team.

• If you have kidney problems, discuss this with your doctor, your kidney function may be checked before the test.

How long does an IVU take? #

The full procedure usually takes about 30–60 minutes, depending on how quickly the dye passes through your urinary system.

Can I have an IVU if I am pregnant? #

IVU is not recommended during pregnancy, as it involves X-rays and contrast dye, which may pose risks to the developing baby. Always inform your doctor or radiographer if you are or might be pregnant.

Conclusion #

An Intravenous Urogram (IVU) is a safe and effective way to examine the kidneys, ureters, and bladder. It helps detect blockages, stones, or structural problems that may affect how your urinary system works.

Always follow preparation guidelines carefully and inform your healthcare provider about any medical conditions or allergies before the procedure.

Want to learn more? #

There are other imaging tests that evaluate the urinary tract in detail. You can also read about CT Urogram (to be tagged on the website)  to understand how it provides more advanced, cross-sectional images of the same organs.