Shaded Surface Display (SSD) Test

A shaded surface display (SSD) test (sometimes called feature-extraction or iso-surfacing) is a surface-rendered 3D image-producing system that provides a realistically looking three-dimensional view image of the surface of a structure of any organ of real interest image view within the acquired volume set. For volume rendering, two transfer functions are defined: one for the mapping of intensity values to gray values (as in 2D visualization) and another one for the mapping of intensity with regulation values to a 3D transparency image.
Surface rendering techniques characteristically needed the extraction of contours (edges) that define the surface of the structure to be visualized and represent the surface by a mosaic of connected polygons. A tiling latest scientific algorithm system is applied that places surface patches (or tiles) at each contour point, and with hidden surface removal and shading procedure, the surface is rendered visible.
SSD enables accurate 3-D representations of anatomy structure, relying on the grayscale to encode surface reflections from an imaginary source of illumination. SSD images are limited by their dependence on user-selected special threshold settings. The 12-bit CT data is reduced to binary data, each pixel either within or outside of the threshold range image. Because of this, it can overestimate or underestimate arterial, and venous stenosis.
shaded surface display (ssd)

Indications

Indications for shaded surface display (SSD) imaging are developed by the imaging revolution, and some important ones are listed below. These indications include:

  • Evaluating patients with suspected dementia
  • Localizing epileptic foci preoperatively
  • Diagnosing encephalitis
  • Monitoring and assessing vascular spasm following subarachnoid hemorrhage
  • Mapping of brain perfusion during surgical interventions
  • Detecting and evaluating cerebrovascular disease
  • Predicting the prognosis of patients with cerebrovascular accidents
  • Corroborating the clinical impression of brain death
  • Several indications in the field of oncology are listed in this article.
  • Evaluating patients for coronary artery disease.
  • Assessing treatment response and guidance of future therapy in patients with coronary artery disease, cardiomyopathy, and heart failure.
  • Diagnosing coronary artery disease in patients unable to perform a standard exercise stress test.
  • Pre-surgical evaluation of patients with suspected or confirmed coronary artery disease.

Thoraco‐abdominal aorta

  • Diagnosis of congenital and degenerative aortic diseases
  • Assessment of acute aortic injuries and dissections
  • Evaluation of visceral arteries (coeliac, superior mesenteric, and renal arteries)
  • Preoperative planning and follow up
  • Tumor staging and surgical planning
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Renal arteries

  • Assessment of anatomy for donor transplants
  • Diagnosis of renal artery stenosis in hypertensives or deteriorating renal function
  • Assessment of renal arteries post‐intervention (renal artery stenting)

Peripheral arterial system

  • Assessment of peripheral vascular disease
  • Assessment of bypass grafts

Carotid/intracranial circulation

  • Characterization of the atherosclerotic disease
  • Assessment of aortic arch vessels
  • Verification of internal carotid artery stenosis
  • Preoperative planning of endovascular and surgical treatment of intracranial aneurysms and vascular malformations

Cardiac imaging

  • Atypical chest pain
  • Patients with intermediate-risk
  • Young patients with a high risk for coronary disease
  • Coronary artery anomalies
  • Non‐invasive follow‐up following percutaneous transluminal angioplasty and stenting
  • Assessment of myocardial scars, aneurysms, tumors, and thrombi
  • Assessment of coronary artery bypass grafts
  • Assessment of the pulmonary veins before and following radiofrequency ablation
  • the diagnostic accuracy of coronary artery disease; the prognostic value of coronary artery disease with regard to the prediction of major cardiac events; detection and quantification of coronary calcium and characterization of coronary plaques

Bone and spine

  • Intraspinal or intervertebral foramen cervical dumbbell tumors,
  • tumors beyond the intervertebral foramen
  • Spinous process, supraspinal and interspinous ligament,
  • The contralateral paravertebral muscle thus
  • Investigate stability and flexibility problems of cervical vertebrae and
  • Alleviates cervical stiffness.
  • Reveals the contour of the tumor as well as compression upon the spinal cord, the extent of spinal edema as well as mutual relationships among the tumor, dura mater, and nerve root [,].
  • At the same time, VRT is conducive to analyzing tumors at different levels for intratumoral vascular route and evaluating infliction and erosion extent of vessels thus assessing neurosurgical difficulties and risks.
  • Owing to its high resolution based on the reconstruction thickness at the sub-millimeter level,
  • VRT formulates images from different perspectives for locating vertebral artery, confirming vascular route and compression degree as well as visualizing peripheral vessels around the tumor.
  • Sparing nerve roots: nerve roots above the tumor or enwrapped by the tumor could be dissected and protected, while nerve roots coursing through the tumor should be resected due to their involvement in the tumor original.
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