The risk of cancer increases if people are exposed to carcinogens (factors causing cancer,ex radiation)
certain environmental fators such as cigarette smoke pollution and uv rays can damage the genes that control the production of enzymes involved in the cycle. uncontrolled cell division that leads to cancer may result
It is estimated that around 7.6 million people died of cancer worldwide each year between 2005 and 2008. The number of cancer deaths can vary by region and country due to factors like access to healthcare and lifestyle choices.
There could be a few factors contributing to this phenomenon. One possibility is that other factors, such as genetics, diet, or lifestyle, may play a role in offsetting the negative effects of smoking on lung cancer risk in Indonesia. Additionally, access to healthcare and early detection of lung cancer may also impact mortality rates. Further research would be needed to fully understand the reasons behind this trend.
In the United States, the Oral Cancer Foundation lists, on their Web site, 40,000 diagnoses and 8,000 deaths. While higher than the death rate for the average cancer, deaths by oral cancer are almost always (87%) caused by people refusing to stop using chewing tobacco and/or alcohol.
Non-communicable diseases such as cardiovascular diseases, cancer, and diabetes are the leading causes of death in Fiji. These diseases are often linked to lifestyle factors such as diet, physical activity, and tobacco and alcohol use.
The number of people who die each year between the ages of 60-70 varies by country and can be influenced by factors like healthcare access, lifestyle choices, and underlying health conditions. In general, this age group is at higher risk for chronic diseases like heart disease and cancer, which can contribute to mortality.
Cancer
I would be interested in studying the role of genetic mutations in cancer development, as well as investigating the impact of environmental factors such as tobacco use or UV exposure on cancer risk. Understanding the interplay between genetics and environmental factors in cancer could provide valuable insights for prevention and treatment strategies.
Both are environmental risk factors associated with the development of lung cancer.
Some cancers do have a genetic component, but more seem to be related to environmental exposures of one sort or another.
There is no causal relationship between protest and cancer.
The hidden variable that may explain the correlation between coffee drinking and cancer development could be factors like smoking or lifestyle choices. Many coffee drinkers may also be smokers or have dietary habits that increase cancer risk, confounding the relationship. Additionally, genetic predispositions or environmental exposures might play a role, making it essential to consider these underlying factors when evaluating the link between coffee and cancer.
Cancer can be influenced by both nature (genetic factors) and nurture (environmental factors). While some people may have a genetic predisposition to certain types of cancer, lifestyle choices such as smoking, diet, and exposure to carcinogens can also increase the risk of developing cancer. It is typically a combination of both genetic and environmental factors that contribute to an individual's likelihood of developing cancer.
heredity contributes to the development of cancer
Lung cancer can be caused by environmental factors such as exposure to tobacco smoke or air pollution. Lead poisoning is another disease that can result from environmental exposure to lead in sources like paint or water.
The relationship between Cancer and DNA cancer begins when mutations distrupt the normal cell cycle, causing cells to divide in an uncontrolled way.
they both could cause lung cancer
DNA mutations play a key role in the development of cancer. Changes in the DNA sequence can lead to uncontrolled cell growth and division, which are characteristics of cancer cells. These mutations can be inherited or acquired over time due to various factors such as exposure to carcinogens or errors in DNA replication. Understanding the relationship between DNA and cancer is crucial for developing targeted treatments and prevention strategies.