Answer:
Autoimmune hemolytic anemia
Explanation:
Autoimmune hemolytic anemia (AIHA) occurs when antibodies directed against the person's own red blood cells (RBCs) cause them to burst (lyse), leading to an insufficient number of oxygen-carrying red blood cells in the circulation.
Answer:
The answer to this question lies in the number of steps, and substances, that are needed in order to yield ATP from ADP. While in anaerobic glycolysis pyruvic acid and lactic acid will yield their energy so that ADP can be re-synthetized into ATP, producing 2 molecules of ATP from that simple chain of reaction, aerobic glycolysis depends on the presence of oxygen, and several more chemical steps, chemical reactions, in order to finally yield all the ATPs it can yield.
Explanation:
When we are talking about intense training, like a sudden sprint, we are talking about the body needing ATP as fast as it possibly can get it so the muscles can move. Because of this immediacy, the body resorts first to its stores in muscle tissue and in the liver, to feed the anaerobic processes for ATP formation. The other process, called the Lactic Acid system, is the second of the anaerobic processes and its benefit is that while not requiring oxygen to produce ATP, it will use the stores of glycogen in the muscle and the liver, and through the chemical reactions of enzymes, it will produce enough ATP to power the exercise for at least a few minutes, without having to resort to the aerobic system. The number of steps taken to yield ATP are much lesser, and thus much more immediate, than in aerobic glycolysis.
Answer:
The client has to drink 1,350 mL between 7 a.m. and 10 p.m.
Explanation:
The answer requires a bit of problem solving analysis.
The client has to receive 1,800 mL in one day (24 hours).
<em>Between 7 a.m. and 10 p.m., he needs to receive 3/4 of the fluid. </em>This means that you have to calculate the amount of fluid by considering the given factors.
So, 3/4 of 1,800 mL is equivalent to 1,350 mL.<em> You can get this by multiplying 3/4 (0.75) to 1,800 and this will give you an answer of 1,350.</em>
Thus, the amount that the client will drink between 7 a.m. and 10 a.m. is 1,350 mL and the remaining 450 mL (1,800 mL minus 1,350 mL) will be consumed within the remaining time period of 21 hours.
<em><u>Answer:</u></em>
Malaria is a life-threatening disease. its tightly transmitted through the bite of an infected anopheles mosquito. When this mosquito bites you the parasite is released into your bloodstream.
When the parasite is inside your body they travel to the Liver, they mature and after several days they affect your red blood cells.
<em><u>SYMPTOMS OF MALARIA.</u></em>
a) Chills
b) High fever
c) Headache,e.t.c.<em><u /></em>
Answer:
Patients who suffer from respiratory pathologies, generally present an increase in fluid in the alveoli, where they produce the gas exchange, that is why if we put the patient to bed completely, the gas exchange surface will be less, because the liquid that presents by the pulmonary emphysema is dispersed in more alveoli and therefore the difficulty of breathing is greater.
The ideal position then in this type of patient, where the problem is in the respiratory system, in the position of approximately 130 degrees, or an intermediate position between 180 and 90 degrees, since in this way the upper limb will not be at the same Height than the lower limb, the emphysema fluid does not disperse through the alveoli on a larger surface, but on a smaller surface, and thus the patient will be able to breathe better, and improve their gas exchange capacity.
Explanation:
The greater the occupied alveolar surface, the less capacity for gas exchange and therefore greater difficulty in breathing ... This would happen in patients who are fully reclined, that is, at 180 degrees.
If we position it well, between 90 and 180, approximately 130 degrees, less alveolar surface occupied by the fluid of the emphysema, greater gas exchange and therefore better breathing.