Hyperthermia uses heat, often radiofrequency, ultrasound, microwaves, or lasers, to target cancer cells. Used as an adjuvant to radiotherapy or chemotherapy to treat cancer, its elevated temperatures enhance the effectiveness of conventional cancer therapies by sensitizing cancer cells to radiation and chemotherapy while minimizing damage to healthy tissues. By doing so, its mechanisms alter tumor microenvironments, improve drug delivery, and induce cytotoxic effects on cancer cells, fostering a multifaceted approach towards combating malignancies.
This BMC Cancer Collection invites contributions exploring diverse aspects of hyperthermia in cancer treatment. Research submissions spanning clinical trials, technological advancements, and computational modeling are welcomed. Papers exploring the nuanced interactions between heat and cancer cells, elucidating optimal treatment protocols, and exploring novel technologies to precisely administer hyperthermia are encouraged. We also invite submissions from papers examining the integration of hyperthermia with immunotherapy or targeted therapies and studies focusing on overcoming biological barriers for effective heat delivery. Other topics of interest include:
- Mechanisms of hyperthermia-induced cytotoxicity
- Hyperthermia in combination with radiation or chemotherapy
- Novel approaches for precise heat delivery to tumors
- Immunomodulatory effects of hyperthermia in cancer treatment
- Clinical trials and outcomes assessing hyperthermia's efficacy
- Technological advancements in hyperthermia treatment modalities
- Computational modeling for predicting hyperthermia treatment responses
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