dc.description.abstract | Breast cancer is a widespread and devastating
disease with significant global morbidity and mortality.
Early detection plays a crucial role in improving outcomes
and survival rates. However, current breast cancer
screening methods, such as mammography, ultrasound,
and magnetic resonance imaging, have limitations,
including false-positive and false-negative results, high
costs, and radiation exposure. This literature review
examines the potential of thermography and thermal
sensors as a non-invasive and radiation-free screening
technique for breast cancer detection. Increased metabolic
activity around tumor cells leads to temperature asymmetry
and alterations in blood flow, which can be detected
through thermographic techniques. Nevertheless, research
studies have shown promising results, demonstrating high
sensitivity and specificity in detecting breast cancer using
thermography. Recent developments in breast cancer
screening involve using surface thermal sensors, such as
integrating flexible antennas into wearable bras and
utilizing thermal sensor arrays. While these advancements
show potential, they require further validation and
improvements. Thermography and thermal sensors hold
promise as a non-invasive, radiation-free, and potentially
cost-effective screening method for breast cancer detection,
and technological advancements are necessary to
overcome current limitations to establish its efficacy as a
standalone or complementary screening tool. | en_US |