Answer:
The correct answer is a) all of these
Explanation:
Human body developed many mechanisms to regulate the pH of the body fluid. Carbon dioxide in the blood forms carbonic acid which neutralize the extra base and decrease the pH of blood.
Bicarbonate ions in the blood helps in neutralizing the extra acid in the blood and is reabsorbed by kidneys. Excretion of excess H⁺ ions from kidney also helps in regulating the pH of body fluid.
Almost all the proteins acts as buffer because they have charged regions which can bind to H⁺ or OH⁻ ions thus provide buffering capacity to the blood.
Thus, the correct answer is a all of these.
Answer:
I believe it;s the difference in pressure
Explanation:
This is caused by the diaphragm contracting and therefore expanding the thoracic cavity. This increase in volume causes a decrease in pressure.
The anaesthesia status modifier that indicates the patient's condition at the time anaesthesia was administered is PHYSICAL. Physical Status Modifier has six ranges. Modifier P1 A normal healthy patient Modifier P2 A patient with mild systemic disease Modifier P3 A patient with severe systemic disease Modifier P4 A patient with severe systemic disease that is a constant threat to life Modifier P5 A moribund patient who is not expected to survive without the operation Modifier P6 A declared brain-dead patient whose organs are being removed for donor purposes
<h3>Where are physical level modifiers located?</h3>
The physical level modifiers are located in both the CPT code set and the Healthcare Common Procedure Coding System (HCPCS).
Thus this could be the answer.
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Answer:
a. The sodium channels in his nerves will be blocked.
Explanation:
Tetracaine is an ester-type anesthetic and produces local anesthesia by blocking the sodium ion channels involved in initiation and conduction of neuronal impulses. Tetracaine is rapidly hydrolyzed in the plasma; therefore, volume of distribution could not be determined
Answer:
I hope this answer is correct
Explanation:
Heart rate and exercise intensity share a direct, linear relationship: the more intense the exercise, the higher the heart rate. When you exercise at the highest possible intensity, your heart will reach maximal heart rate (HRmax), the fastest rate it is capable of beating.