ATAR Notes: Forum
HSC Stuff => HSC Science Stuff => HSC Subjects + Help => HSC Biology => Topic started by: Victorious on October 12, 2018, 11:12:04 am
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Hi,
This question popped up in the 2016 HSC paper
Name an infectious disease and explain how ONE host response is a defence adaptation. (3 marks)
>My class did MALARIA
and i realised i have almost no detail on host response - does any have a really simple explanation and some examples to share with me!
Thank you
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Hi,
This question popped up in the 2016 HSC paper
Name an infectious disease and explain how ONE host response is a defence adaptation. (3 marks)
>My class did MALARIA
and i realised i have almost no detail on host response - does any have a really simple explanation and some examples to share with me!
Thank you
Really simply, for the host response you can say: "Producing antibodies and a fever"
Or if you want to go into greater depth you can elaborate on the "producing antibodies" bit by talking about the immune response (ie. humoral response [B cells - which you would've learned a lot about in other points in the syllabus) :)
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Really simply, for the host response you can say: "Producing antibodies and a fever"
Or if you want to go into greater depth you can elaborate on the "producing antibodies" bit by talking about the immune response (ie. humoral response [B cells - which you would've learned a lot about in other points in the syllabus) :)
For questions like these, can we use the immune response as a defence adaption? I thought we would have to use the ones listed in the dot-point about defence adaptations such as cell death to pathogen, inflammation response, phagocytosis and lymph system.
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For questions like these, can we use the immune response as a defence adaption? I thought we would have to use the ones listed in the dot-point about defence adaptations such as cell death to pathogen, inflammation response, phagocytosis and lymph system.
Oooo that's a good point. Yes I believe you're right, since they used that exact terminology in the question. (and those things are technically still host responses as they are still defence mechanisms of the host against pathogens)
Since this is a three marker though, I would only use inflammation response and phagocytosis - as this is what you'd typically imagine occurring for a patient with malaria. [The Anopheles mosquito would bite the skin, breaching the skin barrier and inducing a inflammation response. Macrophages would engulf any entering foreign material and destroy it using lysosomes etc.]
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Oooo that's a good point. Yes I believe you're right, since they used that exact terminology in the question. (and those things are technically still host responses as they are still defence mechanisms of the host against pathogens)
Since this is a three marker though, I would only use inflammation response and phagocytosis - as this is what you'd typically imagine occurring for a patient with malaria. [The Anopheles mosquito would bite the skin, breaching the skin barrier and inducing a inflammation response. Macrophages would engulf any entering foreign material and destroy it using lysosomes etc.]
Ahh yes that would be a good way to answer it. But now I checked the sample on the NESA website for this question and they used B/T lymphocytes so idek anymore HAHAHA.
I guess they both are correct (even though the syllabus refers to defence adaptations are something else smh).
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Ahh yes that would be a good way to answer it. But now I checked the sample on the NESA website for this question and they used B/T lymphocytes so idek anymore HAHAHA.
I guess they both are correct (even though the syllabus refers to defence adaptations are something else smh).
Ahhh well when they ask for 'host response' the usual answer is "producing antibodies" which involves B lymphocytes. I guess since the lymph system was part of the 'defence adaptations' according to the stimulus, then the B cells and T cells are also part of these defence adaptations ..... ?