A DMSA scan uses a radioactive chemical to create specialised pictures of the kidneys. It can help to show whether the kidneys are damaged or scarred.
Note: the information below is a general guide only. The arrangements, and the way tests are performed, may vary between different hospitals. Always follow the instructions given by your doctor or local hospital.
What is a DMSA scan?
DMSA stands for dimercaptosuccinic acid. A DMSA scan uses radioactive chemicals to create special pictures of the kidneys. These pictures can help doctors assess how well the kidneys are working. DMSA travels through the body joined to a radioactive chemical. It builds up in the kidneys. Pictures of the kidneys are then taken using a special camera which can detect the radioactive chemical.
Understanding the kidneys
There are two kidneys, one on each side of the tummy (abdomen). They make urine which drains down the ureters into the bladder. The ureters are tubes which go from each kidney to the bladder. Urine is stored in the bladder and, from time to time, is passed out through a tube called the urethra when we go to the toilet.
The kidneys, ureters, bladder and urethra are called the urinary tract.
How does a DMSA scan work?
A DMSA scan is a type of radionuclide scan. A radionuclide (sometimes called a radioisotope or isotope) is a chemical which emits a type of radioactivity called gamma rays. A tiny amount of radionuclide is put into the body, usually by an injection into a vein. The radioactive chemical is often coupled to another substance. This substance takes the radioactive chemical to the part of the body doctors want to see.
It is possible to make many different types of radionuclides. Different ones tend to build up or concentrate in different organs or tissues. So, the radionuclide used depends on which part of the body is to be scanned. In this case the substance DMSA is used because it builds up in the kidneys. Cells which are most 'active' in the kidney will take up more of the DMSA. So, active parts of the kidney tissue will emit more gamma rays than less active or inactive parts.
Gamma rays are similar to X-rays and are detected by a device called a gamma camera. The gamma rays which are emitted from inside the body are detected by the gamma camera, are converted into an electrical signal, and sent to a computer. The computer builds a picture by converting the differing intensities of radioactivity emitted into different colours or shades of grey. For example, areas of the target organ or tissue which emit lots of gamma rays may be shown as red spots ('hot spots') on the picture on the computer monitor. Areas which emit low levels of gamma rays may be shown as blue ('cold spots'). Various other colours may be used for 'in between' levels of gamma rays emitted.
What is a DMSA scan used for?
This scan is used to check the structure of the kidneys, their size and shape. It is very commonly used in children who have had urinary tract infections. It shows which areas of the kidney are working well and any areas of scarring. Scarring can be caused by a condition in which urine travels back from the bladder to the kidneys. This is called vesico-ureteric reflux. DMSA scans can also look for damage following an injury or reduced blood supply to the kidneys.
A DMSA scan enables doctors to see the functioning tissue of your kidneys. This is because DMSA does not attach itself to areas of the kidneys that are damaged. Doctors can compare the function of each kidney to see if one kidney functions differently to the other. By performing regular DMSA scans they can monitor any changes to inflammation of the kidneys.
Other investigations such as an ultrasound can show the size and shape of the kidneys but not how they are working. This is why a DMSA scan may be recommended, often in addition to other kidney tests or scans.
What happens during a DMSA scan?
The first part of the scan involves a small injection. This is usually into a vein in the back of the hand. Children being scanned may be asked to come to the scanning unit an hour or so before the injection. This allows staff the time to put special EMLA® cream on the back of a child's hand. EMLA® cream numbs the area to reduce the discomfort of the injection.
You may also be asked to provide a urine sample (specimen) to make sure you do not have an active urine infection at the time of the test. If there is an infection, or if you have had a very recent infection, the scan may need to be postponed. This is because infection can alter the results of the scan and make it unreliable.
After the injection there will be a delay, usually around an hour or so, before the scan takes place. This allows enough time for the DMSA substance to travel around the body and build up in the kidneys. Some hospitals will ask you to have some water or go to the toilet during this time, as this may make the pictures clearer.
After the wait the gamma camera is used to take pictures of the kidneys. It can take up to 30 minutes to take all the pictures. During this time you need to remain as still as possible. If you are taking a child to be scanned it might be useful to bring your child's favourite book or toy to keep them occupied. The camera can be quite big and for some pictures it may come quite close to your child's tummy (abdomen). It may be helpful to explain this before the test. Parents are usually allowed to stay with their children throughout the test.
If you are pregnant or breast-feeding you should let your hospital know before you come for the scan, even if you are accompanying a child to be scanned.
What should I do to prepare for a DMSA scan?
Your local hospital should give you information on how to prepare for the scan. If you are pregnant, think you may be pregnant or are breast-feeding you must let the hospital know before the scan. You may be asked to drink lots of fluids before you attend.
Some hospitals recommend that you avoid medicines containing certain substances before the test. Your doctor should be able to advise you on this.
What can I expect after a DMSA scan?
The radioactive chemical you receive is eliminated from your body through the urine. For that reason, you should drink plenty of fluids and urinate frequently following the injection. How much fluid will depend on each individual but you should be well hydrated and, for an adult, this could be 3-4 glasses of water. The colour of your urine won't be affected by a DMSA scan. However, as it contains the radioactive tracer, it is recommended that you wash your hands well after going to the toilet.
In the case of babies and youngsters in nappies who are having a DMSA scan, there will be a small amount of radioactivity in the urine and therefore on the child's nappy. The radiotracer will not affect the baby's skin, but carers should wash the baby's bottom as normal and wash their hands thoroughly. Cloth nappies need to be washed thoroughly and disposable nappies put in a plastic bag and sealed before being disposed of.
If you have contact with children or pregnant women you should let your doctor know. Although the levels of radiation used in the scan are small the doctor may advise special precautions. Your hospital will be able to give you advice on this.
Are there any side-effects or complications from a DMSA scan?
The term 'radioactivity' may sound alarming. But, the radioactive chemicals used in radionuclide scans are considered to be safe, and they leave the body quickly in the urine. The dose of radiation that your body receives is very small. In many cases, the level of radiation involved is not much different to a series of a few normal X-rays. However:
- As with any other types of radiation (such as X-ray), there is a small risk that the gamma rays may affect an unborn child. So, tell your doctor if you are pregnant or if you may be pregnant.
- Rarely, some people have an allergic reaction to the injected chemical.
- Theoretically, it is possible to receive an overdose when the chemical is injected. This is very rare.
Further reading & references
- Davis A, Obi B, Ingram M; Investigating urinary tract infections in children. BMJ. 2013 Jan 30;346:e8654. doi: 10.1136/bmj.e8654.
Disclaimer: This article is for information only and should not be used for the diagnosis or treatment of medical conditions. EMIS has used all reasonable care in compiling the information but make no warranty as to its accuracy. Consult a doctor or other health care professional for diagnosis and treatment of medical conditions. For details see our conditions.
|Original Author: Dr Rachel Hoad-Robson||Current Version: Dr Louise Newson||Peer Reviewer: Dr Helen Huins|
|Last Checked: 02/07/2013||Document ID: 12701 Version: 2||© EMIS|
The authors and editors of this article create up to date content reflecting reliable research evidence, guidance and best clinical practice. Learn more