Oncology & Cancer

Exploring ferroptosis and its implications in lung cancer

An estimated 2.2 million people suffer from lung cancer worldwide, making it the second most common type of cancer. Though improvements in treatment have been made, the overall survival rate of lung cancer patients is low, ...

Oncology & Cancer

How much sun can (and should) I get?

As we slide of out summer, you might be wondering how careful you need to be about sun exposure. Excessive exposure causes skin cancer, but sun exposure also has benefits. How do you balance the two?

Health

Is hyaluronic acid as effective as skincare brands claim?

Hyaluronic acid has become a huge buzzword in the beauty industry, with everything from creams and cleansers to shampoos containing it. Often, these products are marketed to consumers with the promise that hyaluronic acid ...

Health

US finalizes ban on last form of asbestos in use

President Joe Biden's administration on Monday finalized a rule banning the last remaining form of asbestos in the United States, half a century after the government first targeted the cancer-causing mineral.

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Radiation

In physics, radiation describes any process in which energy emitted by one body travels through a medium or through space, ultimately to be absorbed by another body. Non-physicists often associate the word with ionizing radiation (e.g., as occurring in nuclear weapons, nuclear reactors, and radioactive substances), but it can also refer to electromagnetic radiation (i.e., radio waves, infrared light, visible light, ultraviolet light, and X-rays) which can also be ionizing radiation, to acoustic radiation, or to other more obscure processes. What makes it radiation is that the energy radiates (i.e., it travels outward in straight lines in all directions) from the source. This geometry naturally leads to a system of measurements and physical units that are equally applicable to all types of radiation.

This text uses material from Wikipedia, licensed under CC BY-SA