X-ray kymography Vector

Vector X-ray kymography is a radiography method based on the use of a radial-type multi-slit array that rotates during shooting.

Vector X-ray kymography uses a special multi-slit array consisting of many radially located slits. This grating rotates between the X-ray tube and the detector during imaging. A beam of X-ray radiation passes through the slits of the grating and hits the detector, capturing an image of the object from different angles. The result is a set of spatial projections of the object, which are then processed by a computer to produce a three-dimensional image of the internal structure.

The advantage of vector X-ray kymography is the speed of obtaining tomographic data compared to traditional computed tomography. In addition, this technique allows for real-time studies of dynamic processes. Vector X-ray kymography is used in various fields, including medicine, materials science, geology and others.

X-ray kymography is a medical imaging technique that provides images of the internal structure of the body. It is based on the use of X-rays to create images of internal organs and tissues. But the conventional X-ray method does not provide information about the movement of organs. This is why vector x-ray kymography was developed.

Vector X-ray kymology is a new technique that uses a multi-slit radial array for imaging. During shooting, the array rotates around the patient, which allows you to get an image of the internal organs in motion.

The use of vector X-ray kymography allows you to obtain more accurate research results, which is especially important when diagnosing diseases of the heart and lungs. This method can also be used to monitor treatment and the dynamics of the disease.

Thus, vector X-ray kymography is an important tool in medical diagnosis and treatment, which allows one to obtain more accurate and informative images of internal organs.