Question 1
The first property is the water level. For instance, the cardiovascular and the lymph system helps maintain water balance in the body (Vandenbroucke & Pearce, 2012). They take part in the transportation of fluids in the body and assist in sensing the solute and regulation of body pressure (Miettinen, 2012). internal temperature is the other property. If there is an increase in the body temperature, there is dilation of the blood vessels (Giglia-Mari, Zotter & Vermeulen, 2011). The process allows blood to flow close to the skin and thus lose excess heat to cool the body temperature (Miettinen, 2010). If the blood moves close to the skin, they are exposed to UV light, and that can cause blood and skin cancer.
Question 2
A key challenge in dealing with cancer is the rapid division of the cancer cells that affect other body organs. The current screening of the condition focuses on x-rays that will detect abnormal growth of cells in the body (Ahmad, Ormiston-Smith & Sasieni, 2015). Chemotherapy and radiotherapy are the current treatment approaches that focus on burning the cancerous cells to reduce their multiplication rate. Reducing the cell count is the best approach when dealing with cancerous cells (Ricci et al., 2011). The main focus is to stop the growth of cancerous cells.
Delegate your assignment to our experts and they will do the rest.
Question 3
The cause of cancer revolves around the lifestyle of an individual. That creates a concern for the personal health of people. We consume crucial importance, especially being exposed to eradicative materials (Israel Center for Disease Control, 2014). The development of the condition's progression is because of a lack of an early diagnosis (American Cancer Society, 2016). A key question is on the public health care facilities with limited equipment and personnel that can effectively detect the disease (Grunau et al., 2018). There is a need to create policies and laws that can be used to care for the less fortunate people in the community who cannot afford the cancer treatment cost (Rothman, Greenland & Lash, 2012). A key consideration is on how best to avail the services to every citizen without constraint.
Reference
Ahmad S., Ormiston-Smith, N. & Sasieni, P. (2015). Trends in the lifetime risk of developing cancer in Great Britain: comparison of risk for those born in 1930 to 1960. Br J Cancer, 112 :943–7.
American Cancer Society. (2016). Lifetime Risk of Developing or Dying from Cancer. Retrieved from http://bit.ly/2hyGDR5 . Accessed 7 January 2021.
Giglia-Mari, G., Zotter, A., & Vermeulen, W. (2011). DNA damage response. Cold Spring Harbor Perspective in Biology, 3 (1): 1.
Grunau, G., Gueron, S., Pornov, B., & Linn, S. (2018). The Risk of Cancer might be lower than we think. Alternatives to Lifetime Risk Estimates. Rambam Maimonides Medical Journal, 9 (1), 1-6.
Israel Center for Disease Control. (2014). Retrieved from http://bit.ly/2k8T2wb . Accessed 7 January 2021.
Miettinen, O. (2012). Theoretical Epidemiology. New York, NY: John Wiley & Sons.
Miettinen, S. (2010). Etiologic study vis-à-vis intervention study. European Journal of epidemiology, 25 :671–5
Ricci, P., Cox LA, J. & Dwyer, P. (2011). Acceptable cancer risks: probabilities and beyond. JAPCA, 39 :1046–53
Rothman, K., Greenland, S., & Lash, T. (2012). Modern Epidemiology. 3rd ed. Philadelphia, PA: Lippincott Williams and Wilkins.
Vandenbroucke, P. & Pearce, N. (2012). Incidence rates in dynamic population. International Journal of Epidemiology, 41 :1472–9
