Transcranial Doppler ultrasonography; TCD ultrasonography; TCD; Transcranial Doppler study
Transcranial doppler ultrasound (TCD) is a diagnostic test. It measures blood flow to and within the brain.
TCD uses sound waves to create images of the blood flow inside the brain.
This is how the test is performed:
- You will lie on your back on a padded table with your head and neck on a pillow. Your neck is stretched slightly. Or you may sit on a chair.
- The technician applies a water-based gel on your temples and eyelids, under your jaw, and at the base of your neck. The gel helps the sound waves get into your tissues.
- A wand, called a transducer, is moved over the area being tested. The wand sends out sound waves. The sound waves go through your body and bounce off the area being studied (in this case, your brain and blood vessels).
- A computer looks at the pattern that the sound waves create when they bounce back. It creates a picture from the sound waves. The Doppler creates a "swishing" sound, which is the sound of your blood moving through the arteries and veins.
- The test can take 30 minutes to 1 hour to complete.
How to Prepare for the Test
No special preparation is needed for this test. You do not need to change into a medical gown.
- Remove contact lenses before the test if you wear them.
- Keep your eyes closed when gel is applied to your eyelids so you don't get it in your eyes.
How the Test will Feel
The gel may feel cold on your skin. You may feel some pressure as the transducer is moved around your head and neck. The pressure should not cause any pain. You may also hear a "whooshing" sound. This is normal.
Why the Test is Performed
The test is done to detect conditions that affect blood flow to the brain:
A normal report shows normal blood flow to the brain. There is no narrowing or blockage in the blood vessels leading to and within the brain.
What Abnormal Results Mean
An abnormal result means an artery may be narrowed or something is changing the blood flow in the arteries of the brain.
There are no risks with having this procedure.
Defresne A, Bonhomme V. Multimodal monitoring. In: Prabhakar H, ed. Essentials of Neuroanesthesia. Cambridge, MA: Elsevier Academic Press; 2017:chap 9.
Ellis JA, Yocum GT, Ornstein E, Joshi S. Cerebral and spinal cord blood flow. In: Cottrell JE, Patel P, eds. Cottrell and Patel's Neuroanesthesia. 6th ed. Philadelphia, PA: Elsevier; 2017:chap 2.
Matta B, Czosnyka M. Transcranial doppler ultrasonography in anesthesia and neurosurgery. In: Cotrell JE, Patel P, eds. Cottrell and Patel's Neuroanesthesia. 6th ed. Philadelphia, PA: Elsevier; 2017:chap 7.
Newell DW, Monteith SJ, Alexandrov AV. Diagnostic and therapeutic neurosonology. In: Winn HR, ed. Youmans and Winn Neurological Surgery. 7th ed. Philadelphia, PA: Elsevier; 2017:chap 363.
Sharma D, Prabhakar H. Transcranial Doppler ultrasonography. In: Prabhakar H, ed. Neuromonitoring Techniques. Cambridge, MA: Elsevier Academic Press; 2018:chap 5.
Purkayastha S, Sorond F. Transcranial Doppler ultrasound: technique and application. Semin Neurol. 2012; 32(4):411-420. PMCID: 3902805 www.ncbi.nlm.nih.gov/pmc/articles/PMC3902805/.