Micro-Layer Tomography System

Introduction & Background: Tomography or plani-graphy is an x-ray imaging system for preserving a certain plane of a radiography object by diffusing the other planes; however, the desired plane does not obtain an optimum sharpness. Meanwhile, relatively nearer points to the rotating axes fixed point have lesser liner velocity than those lying further from the fixed point. Consequently, unwanted obscuring planes occur gradually, that then render the wanted plane somehow blurred, hence the phenomenon known as "tomographic blurring", which diminishes the clinical value of the image. Thus, computerized imaging is uncertain especially to medical authorities. Besides, there is a possibility of dismissing the lesion in some cases, because of the relatively undesirable deep resolution of the system. The present innovation could be an approach to improve current tomography systems by increasing image resolution, obtaining optimum deep resolution, rapid operation, and cost reduction. Material and Methods: Micro-layer tomography has been designed with the benefit of fast x-ray rotating velocity without tube movement, to make images with deep resolution of millimeter fraction, while there is no need of digital images reconstruction in-struments that allows statistical errors to fall to about zero. Furthermore, high-resolution images could be prepared in all planes, including coronal, sagittal, and transverse ones. Likewise, patient treatment and sys-tem maintenance costs are by far less than those in CT scan and MRI. Results & Conclusion: The system quick operation is highly exceptional; therefore, the tomographic slices could be prepared in about less than 0.02 second. The laboratory samples experienced by this system showed a unique result, suggesting the new device preference.