Doppler optical coherence tomography

A medical imaging technique combining Doppler and optical coherence tomography

Doppler optical coherence tomography (DOCT) is an advanced imaging technique that combines the principles of Doppler and optical coherence tomography (OCT) to provide high-resolution images of biological tissues along with information about blood flow dynamics. This technology is particularly useful in ophthalmology, dermatology, and cardiology for assessing microvascular structures and blood flow in real-time.

Principles of Operation[edit | edit source]

Doppler optical coherence tomography operates by integrating the Doppler effect into the OCT imaging process. OCT itself is a non-invasive imaging technique that uses low-coherence light to capture micrometer-resolution, three-dimensional images from within optical scattering media, such as biological tissue. By measuring the frequency shift of the light caused by the motion of scatterers (such as red blood cells), DOCT can provide detailed information about the velocity and direction of blood flow.

Optical Coherence Tomography[edit | edit source]

Optical coherence tomography is based on the principle of low-coherence interferometry. It uses a broadband light source to illuminate the tissue, and the backscattered light is collected and analyzed to construct cross-sectional images. The depth resolution is determined by the coherence length of the light source, while the lateral resolution is determined by the focusing optics.

Doppler Effect[edit | edit source]

The Doppler effect refers to the change in frequency or wavelength of a wave in relation to an observer moving relative to the wave source. In DOCT, this effect is used to measure the velocity of moving particles, such as blood cells, within the tissue. By analyzing the frequency shift of the backscattered light, DOCT can provide quantitative measurements of blood flow velocity.

Applications[edit | edit source]

Doppler optical coherence tomography has a wide range of applications in medical imaging due to its ability to provide both structural and functional information.

Ophthalmology[edit | edit source]

In ophthalmology, DOCT is used to assess the retinal and choroidal blood flow, which is crucial for diagnosing and monitoring diseases such as glaucoma, diabetic retinopathy, and age-related macular degeneration.

Dermatology[edit | edit source]

In dermatology, DOCT can be used to visualize skin microvasculature and assess blood flow in conditions such as psoriasis and skin cancer. It provides a non-invasive method to monitor treatment response and disease progression.

Cardiology[edit | edit source]

In cardiology, DOCT is used to evaluate coronary blood flow and assess the microvascular function. It can help in the diagnosis of coronary artery disease and in the evaluation of therapeutic interventions.

Advantages and Limitations[edit | edit source]

Doppler optical coherence tomography offers several advantages, including high spatial resolution, non-invasiveness, and the ability to provide both structural and functional information. However, it also has limitations, such as limited penetration depth and sensitivity to motion artifacts.

Related pages[edit | edit source]

• Optical coherence tomography
• Doppler effect
• Medical imaging

OCT image of a fingertip