Cancer Treatments Become Efficient Against Tumors Due to Heat Tapped by Nanohyperthermia [Video]
The persistence of cancer cells to withstand customary treatments has made difficult for physicians to address the disease effectively. This resistance coupled with the side effects brought about therapeutic procedures has resulted in the failure of arresting malignancy situations.
One essential approach in treating tumors is hyperthermia. The process, which is also known as thermotherapy or thermal therapy, involves a method that unmasks affected body areas to extremely hot temperatures.
Although this form of treatment is reinforced with other types of remedies like radiation therapy or chemotherapy, a new approach is now being considered for breaking down carcinoma growths. A study has been recently conducted to further enhance the efficient slant of hyperthermia.
A French study group composed of experts from the National Center for Scientific Research (CNRS), the National Institute of Health and Medical Research (INSERM), Paris Descartes and Paris Diderot Universities have come up with a heating technique to break down malignant tumors. The procedure has been branded as nanohyperthermia.
Based on experimentation results, the approach is stronger than the commonly-used therapies against cancer growths. The procedure undergoes a couple of main processes.
First, carbon nanotubes (CNT) are injected straight into the tumors. The next step is to induce laser radiation into the cylinders.
What separates this kind of treatment from the other remedies is the exclusion of surrounding tissues from getting affected. The body's healthy fabrics are spared from any intrusions or projected damages.
The CNT-spearheaded method is a vital transition from traditional forms of treatments. These long-known invasive processes alter the normal organization of the collagen fibers and extracellular matrix (ECM) which manages similar tissues together.
The result of this modification can contribute to the spread of malignant cells. Although the ECM prevents tumors from intruding, it also affects the healthy tissues proximal to the area.
With the presence of carbon nanotubes, infrared lights ignite only the areas where the CNT penetrates. Around 10 days after cancer cells get exposed to nanohyperthermia, tumors eventually soften down allowing associated therapies to address its malignant approach.