A Professor and Top Physicist at Grain and Schoolhool of Medicine is currently developing a groundbreaking laser treatment that could potentially provide cancer patients with a new way to fight the disease, without the harmful side effects of chemotherapy and radiation. This comes as a significant development in cancer research, especially since the National Cancer Institute estimates that approximately 1.7 million new cases of cancer are diagnosed in the US each year, and available treatments for some types of cancer are limited.
The professor's motivation to develop this laser treatment stems from her personal experience with cancer. Her aunt, who raised her from the age of eight, passed away from cervical cancer and did not want to undergo chemotherapy or radiation because of the side effects. The professor took care of her in the last three months of her life. Three months after her aunt passed away, her uncle, who raised her from the age of four, was also diagnosed with cancer, but he chose to undergo chemotherapy and radiation. Although his doctors gave him only three months to live, he lived another ten years. However, the professor witnessed the horrific side effects of cancer treatment, including her uncle's significant weight loss, hair loss, and skin damage.
The professor, who initially studied optical communications and lasers, realized that there had to be a better way to treat cancer. She wanted to revolutionize the way cancer patients are treated by developing a laser treatment that would target only the tumor and not harm the rest of the body. She believed that precision was essential in cancer treatment, and she was determined to make it a reality.
To achieve this, the professor pursued a Ph.D. in physics to develop her laser treatment idea and secured funding from the National Science Foundation and other organizations. Her adviser initially did not support her idea, but she found a mentor at the Comprehensive Cancer Center at the University of Alabama at Birmingham and spent five years in his lab developing her idea. She used laser-activated nanoparticles in mice and successfully induced tumor regression after a single ten-minute treatment.
The professor's treatment using laser-activated nanoparticles has shown remarkable results. The tumor shrank significantly after the treatment, and the scar healed quickly, leaving barely a mark. She believes that her laser treatment has the potential to provide cancer patients with a better, more effective, and less harmful way to fight the disease.
The professor's research is groundbreaking, and it could change the way cancer patients are treated in the future. Her work highlights the importance of precision in cancer treatment and the need for more effective and less harmful treatments. Her laser treatment has the potential to provide a new ray of hope to cancer patients and their families, and it could significantly improve the quality of life for those who are battling this disease.
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A Professor and Top Physicist at Grain and Schoolhool of Medicine is currently developing a groundbreaking laser treatment that could potentially provide cancer patients with a new way to fight the disease, without the harmful side effects of chemotherapy and radiation. This comes as a significant development in cancer research, especially since the National Cancer Institute estimates that approximately 1.7 million new cases of cancer are diagnosed in the US each year, and available treatments for some types of cancer are limited.
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