Genes play a significant role in diseases associated with throat diseases, especially in children. Stefano, Challenger & Kream (2016) report that a combination of immunoglobin and genetic factors improves susceptibility for some kids to contract bacteria that cause a sore throat or strep throat. The researchers argue that certain genes reduce the immune system of children and expose them to throat bacteria.
Reasons for Presenting Described Symptoms
Temp of 99.6 F and reddened posterior pharynx that has 3+ enlarged while exudate shows that the patient has strep throat. This assertion has been supported by a lab result that showed positive for strep throat test. Difficulty breathing, swelling of the lips and tongue, and audible wheezing were showed that the patient is allergic to amoxicillin.
Physiologic Response
The physiologic response to stimulus in this scenario is an allergic reaction. An allergic reaction is when the body reacts to new elements that have entered the system. This response occurred because the patient’s antibodies went to fight amoxicillin, thinking that it poses a threat to the body. The reaction between the patient’s antibodies and the drug resulted in the mentioned symptoms.
Cells Involved
The cells involved in this process include mast cells and immunoglobin E antibodies (IgE) (Muro, 2018). The process occurs when the IgE binds to the stimuli and then move to a receptor of the second cell known as basophils or mast cell. In the receptor, the two cells react with the allergen and release a chemical, such as a histamine (Muro, 2018).
How another Factor can Influence the Response
Genetics can change the response in those people with a genetic sequence that embraces the allergy will have a more severe impact compared to people whose genetics have not allergy strings (Muro, 2018).
References
Muro, S. (2018). Alterations in cellular processes involving vesicular trafficking and implications in drug delivery. Biomimetics, 3(3), 19. file:///C:/Users/OnamMagy/Downloads/biomimetics-03-00019-v3.pdf
Stefano, G. B., Challenger, S., & Kream, R. M. (2016). Hyperglycemia-associated alterations in cellular signaling and dysregulated mitochondrial bioenergetics in human metabolic disorders. European journal of nutrition, 55(8), 2339-2345. https://link.springer.com/article/10.1007/s00394-016-1212-2