Proteins are apart of this group
Difficulty in breathing is the clinical manifestation that should alert the nurse to the fact that the client may be developing a life-threatening response to the drug atenolol.
At greater doses, Atenolol may function more similarly to non-selective beta-blockers, which means that it will affect both your heart and lungs. A potential drug interaction is a further worry. The beta receptors in your lungs and airways are really activated by some drugs.
It might be harder for your medication to operate well, particularly in an emergency, if your atenolol dose is high enough to block these airway receptors. These are the most severe side effects of atenolol, and they include bradycardia, cardiac failure, and pulmonary edoema. It might be wise to discuss this with your pulmonologist.
The complete question is : An older adult client who has type 1 diabetes and chronic bronchitis is prescribed atenolol for the management of angina pectoris. Which clinical manifestation should alert the nurse to the fact that the client may be developing a life-threatening response to the drug?
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The number of bushes would decrease, as the bird species would need to eat the berries off of the bush. The species would continue multiplying and eating on the food until there is none left, causing the species to have to migrate to a new area that satisfies there needs.
The acids in the dressing and the oxidation are what cause the wilting.
Answer:
Photosynthesis is the process by which plants make their own food in the presence of sunlight by utilizing carbon-dioxide and water and produces oxygen and energy.
The process of photosynthesis has two types of reactions: light-dependent reactions and light-independent reactions.
The light-dependent reactions occur in the thylakoid membranes of chloroplasts in which plants use light energy to form ATP and the reduced electron carrier NADPH.
In this reaction, photosystem II (P700) absorbs lights energy and passed it to reaction center. this energy is then is transferred to photosystem I (P680), that pump an electron to a high energy level. The high-energy electron then travel to an electron transport chain and releases energy. this released energy pump H+ ions into the thylakoid interior from the stroma and build a gradient H+ ions move through gradient and they pass through ATP synthase resulting in the formation of ATP.
The higher energy electron as moves into an electron transport chain, the electron is passed to NADP+ to form NADPH.