Examples of anaphylactic shock in the following topics:
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- Circulatory shock, commonly known simply as shock, is a life-threatening medical condition that occurs due to inadequate substrates for aerobic cellular respiration.
- Specific subtypes of shock may have additional symptoms.
- Hypovolemic shock is the most common type of shock and is caused by an insufficient circulating volume, typically from haemoeehage although severe vomiting and diarrhea are also potential causes.
- Distributive shock arises due an abnormal distribution of blood to tissues and organs and includes septic, anaphylactic, and neurogenic causes.
- Anaphylactic shock is caused by a severe reaction to an allergen, leading to the release of histamine causing widespread vasodilation and hypotension.
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- The antibodies can be produced in animals, called "serum therapy," although there is a high chance of anaphylactic shock because of immunity against animal serum itself.
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- The clinical manifestation of shock is variable depending on the type of shock and the individual, but there are some general symptoms.
- Specific subtypes of shock may have additional symptoms.
- The symptoms of cardiogenic shock are similar to those of hypovolemic shock, with a weak pulse.
- Distributive shock includes septic, anaphylactic, and neurogenic causes.
- With septic shock, fever may occur and the skin may be warm and sweaty.
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- This extreme reaction is known as anaphylactic shock.
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- The antibodies can be produced in animals, called "serum therapy," although there is a high chance of anaphylactic shock because of immunity against animal serum itself.
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- Type I (or immediate/anaphylactic) hypersensitivity can be caused by the body's response to a foreign substance.
- Type I hypersensitivity is also known as immediate or anaphylactic hypersensitivity.
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- Heat shock response is a cell's response to intense heat, including up-regulation of heat shock proteins.
- Heat shock response is the cellular response to heat shock includes the transcriptional up-regulation of genes encoding heat shock proteins (HSPs) as part of the cell's internal repair mechanism .
- The up-regulation of HSPs during heat shock is generally controlled by a single transcription factor; in eukaryotes this regulation is performed by heat shock factor (HSF), while σ32 is the heat shock sigma factor in Escherichia coli.
- Heat shock protein come in many sizes.
- This is an example of small heat shock proteins produced by Pseudomonas aeruginosa Clonal Variants Isolated from Diverse Niches.
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- Suppose we randomly selected four individuals to participate in the "shock" study.
- P(A = refuse, B = shock, C = shock, D = shock)
- = P(A = refuse) P(B = shock) P(C = shock) P(D = shock)
- Verify that the scenario where Brittany is the only one to refuse to give the most severe shock has probability (0.35)1(0.65)3.
- P(A = shock, B = refuse, C = shock, D = shock) = (0.65)(0.35)(0.65)(0.65) = (0.35)1(0.65)3.
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- A positive demand shock increases the demand (not the quantity demanded), while a negative demand shock decreases the demand.
- In both cases, the shock impacts the price of the good or service.
- Demand shocks may originate from tax rates, money supply, and government spending.
- Demand shocks directly impact investment.
- Positive demand shocks increase consumer spending.
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- The opposite extreme is that the shock heats the gas sufficiently that radiative losses are important near the shock and the gas rapidly cools.
- In this case we must abandon the conservation of energy flux through the shock (fourth equation of this chapter) and find another criterion to understand how the gas changes through the shock.
- Just above the flux the flow enters the shock slightly supersonically and leaves subsonically.
- The ratio of the energy flux entering the radiative shock to that leaving is given by
- This yields a minimum energy ratio for the isothermal shock of