In order to analyze tumors, they have to be cut into thin slices; now, a new technology has been developed that makes pieces of the tumor visible in 3D without cutting them
After cancer surgery, the crucial question is: Are there possibly cancer cells left behind that can continue to grow, or has the entire tumor actually been removed? To find out, the tumor is examined by pathologists. Until now, thin sections were made which were then analyzed under a microscope. A new technique, developed at TU Wien (Vienna), together with the TU Munich, could now initiate a revolution in pathology: Tumor tissue is made transparent and illuminated with a special ultramicroscope. This makes it possible to analyze all the tissue removed in 3D without the need for slicing up the tumor. That way, the reliability of the diagnosis can be significantly increased. The new technique has now been published in the journal “Nature Scientific Reports“.
Tissue samples that save lives
“Under the microscope you can see whether the removed tumor is surrounded by a seam of healthy tissue,” says Prof. Hans Ulrich Dodt from the Institute of Solid State Electronics at TU Wien. “If this is the case, the patient often only needs to recover. If this is not the case, it may be necessary to perform follow-up surgery or additional radiation therapy. Especially after breast cancer operations this happens frequently.”
The problem is that it is never possible to completely examine the entire tumor in this way. “Usually, an approximately 4-micrometer thick section is made every 5 millimeters. This means that only about one-thousandth of the entire tumor volume is actually examined.” In critical areas, a finer spacing may be chosen, but it is impossible to study the entire tissue in this way.
Revolution in pathology
“We are convinced that this method will revolutionize pathology,” says Hans- Ulrich Dodt. “In less time than before, greater reliability in examinations can be achieved. In addition, the new 3D method should also provide completely new insights into cancer development in the future. Since it is now possible for the first time to display the spread of cancer cells in human surgical specimens in three dimensions, understanding of tumor biology should also make significant progress.
The new 3D tumor microscopy should make work in pathology much easier. “Instead of inspecting a large number of histological sections under the microscope, pathologists will in future be able to scroll through the images with the mouse, similarly to how radiologists are working today,” says Hans-Ulrich Dodt. The enormous amount of image data that is generated in the process also opens up completely new opportunities in the field of artificial intelligence, believes Dodt: “Perhaps such computer programs could speed up and simplify tumor diagnostics in the future.”
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