Kulturë
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Turmeric is a member of the ginger family. Native to India and Southeast Asia, people have used turmeric root to flavor their food for thousands of years.
Historically, people associated turmeric with healing properties. Even now, some hail turmeric as a panacea for all ills. Recently, its popularity has surged, as evidenced by the recent turmeric latte fad. However, as with many things in life, the reality rarely matches the hype.
The chemical in turmeric that most interests medical researchers is a polyphenol called diferuloylmethane, which is more commonly called curcumin. Most of the research into turmeric’s potential powers has focused on this chemical.
Turmeric as a healer?
Over the years, researchers have pitted curcumin against a number of symptoms and conditions, including inflammation, metabolic syndrome, arthritis, liver disease, obesity, and neurodegenerative diseases, with varying levels of success.
Above all, though, scientists have focused on cancer. According to the authors of the recent review, of the 12,595 papers that researchers published on curcumin between 1924 and 2018, 37% focus on cancer.
In the current review, which features in the journal Nutrients, the authors mainly focused on cell signaling pathways that play a role in cancer’s growth and development and how turmeric might influence them.
Treatment for cancer has improved vastly over recent decades, but there is still a long path to tread before we can beat cancer. As the authors note, “the search for innovative and more effective drugs” is still vital work.
In their review, the scientists paid particular attention to research involving breast cancer, lung cancer, cancers of the blood, and cancers of the digestive system.
The authors conclude that “curcumin represents a promising candidate as an effective anticancer drug to be used alone or in combination with other drugs.”
According to the review, curcumin can influence a wide range of molecules that play a role in cancer, including transcription factors, which are vital for DNA replication; growth factors; cytokines, which are important for cell signaling; and apoptotic proteins, which help control cell death.
















