
Cancer… a short word that frightens many people. But in this era where medical technology is rapidly advancing, we have a new option to fight this deadly disease: “Oncothermia,” a method of treating cancer using heat that specifically targets cancer cells. The method is as follows:
Direct destruction of cancer cells Oncothermia uses high-frequency radiofrequency to generate heat in cancer cells. The heat can cause the cancer cell walls to degrade, resulting in cell death.
Enhancing the response of cancer cells to treatment Heat can make cancer cells more sensitive to other treatments, such as radiation therapy or chemotherapy, making them more likely to die when given additional treatments.
Immune system stimulation can stimulate the immune system, especially natural killer cells (NK cells) and T cells (T cells). These stimulated cells can identify and destroy cancer cells more effectively.
Destroying the blood vessels that nourish cancer cells. The heat from oncothermia can destroy the small blood vessels that cancer cells create to nourish themselves, causing cancer tissue to starve and eventually die. And in the treatment of oncothermia, it can also be treated in combination with other treatments. At present, there are 3 main treatment methods to fight cancer as follows:
Oncothermia combined with radiation therapy in cancer treatment
Combining Oncothermia with radiation therapy can greatly improve the effectiveness of cancer treatment. It uses the strengths of both methods to effectively control tumors and improve treatment outcomes. Combining Oncothermia with radiation therapy has the following benefits:
- Oncothermia enhances the response to radiation. Oncothermia improves blood flow and oxygenation in the tumor. A well-oxygenated tumor is more sensitive to radiation, and the heat damages cancer DNA. In addition, the heat from the increased temperature of the tumor causes direct damage to cancer cells.
- Targeted treatment Oncothermia heats cancerous tissue without affecting healthy tissue. It destroys the cancer cell membrane, increases the absorption of radiation by cancer cells, and increases the destruction of cancer cells.
- Immune system stimulation: Heat shock proteins Oncothermia activates heat shock proteins, which can help the immune system recognize cancer cells better, allowing them to help destroy the cancer.
- Improved treatment results help reduce the size of the cancer compared to treatment alone and reduce the recurrence due to the effective targeting เล่น UFABET ผ่านมือถือ สะดวกทุกที่ ทุกเวลา and destruction of cancer cells directly.
Oncothermia in combination with surgery for cancer treatment
Combining Oncothermia with surgery in cancer treatment can enhance the effectiveness of both modalities. Advantages of combined treatment include:
- Cancer reduction and clear cancer margins When the tumor is reduced by oncothermia, the surgeon can clearly define the tumor margins, effectively removing the entire tumor and reducing the risk of complications.
Oncothermia in combination with chemotherapy
- This combination aims to increase the therapeutic effect and improve the efficacy of chemotherapy while minimizing the side effects of the drug.
- Enhanced drug delivery efficiency Oncothermia can enhance the efficiency of chemotherapy drug delivery to the tumor site by increasing blood flow and permeability within the tumor, allowing better drug penetration and distribution.
Increase tumor sensitivity to chemotherapy and reduce drug resistance of cancer cells.
Oncothermia combines targeted therapy with cancer treatment
Combining oncothermia with novel targeted drug approaches that utilize both high and precise temperature conditions offers the following advantages:
- Increased drug efficacy, improves drug permeability to blood vessels and drug delivery to the tumor cell membrane, allowing targeted drugs to penetrate and destroy tumors more effectively, making them more sensitive to therapy.
Cautions: The dosage should be adjusted to the appropriate amount because targeted therapy may increase the risk of side effects such as skin reactions, fatigue, and local discomfort. Close monitoring is recommended.