Abstract
In both diagnoses and treatments of diseases, nanomaterials play a critical role. They can be used to detect and target specific cells and proteins in the body, and to deliver drugs and other therapeutic agents directly to these cells and proteins. Nanomaterials can also be used to create new diagnostic tools, such as sensors that can detect the presence of disease-causing agents in the body, and to develop new and more effective treatments for diseases. Nanomaterials have a number of advantages over traditional disease diagnostic methods. They are more sensitive, more specific, and more accurate. Nanomaterials can also be used to detect a wider range of diseases and conditions. Nanomaterials also have the potential to be used in drug delivery. Finally, nanomaterials are less expensive and easier to use than traditional methods. Nanomaterials have made some progress in medical diagnosis, especially in regard to the prevention and treatment of cancer. By using nanomaterials, doctors can detect cancer earlier and more accurately than ever before. Nanomaterials can also help doctors treat cancer more effectively, by killing the cancer cells and preventing them from spreading. In this paper, the characteristics of nanomaterials, the role of nanomaterials in the preparation of biosensors and nanoprobes, and some common nanoimaging techniques are reviewed.
Published Version
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