In a case of pulmonary alkalosis, the health professional will see signs of hyperpnea or tachypnea and carpopodal spasm. .
<h3>Respiratory alkalosis</h3>
Respiratory alkalosis is the primary decrease in partial pressure of carbon dioxide (PCO2) with or without compensatory reduction in bicarbonate (HCO3−); the pH may be high or close to normal.
The cause is increased respiratory rate and/or volume (hyperventilation). Respiratory alkalosis can be acute or chronic. The chronic form is asymptomatic, but the acute form causes
- Dizziness
- Confusion
- Paresthesias
- Cramps
- and Syncope.
Signs include
- Hyperpnea or tachypnea
- and Carpopodal spasm.
Arterial blood gas and serum electrolytes Treatment is directed at the cause.
With this information, we can conclude that the case of pulmonary alkalosis needs to be correctly followed up by the doctor.
Learn more about Respiratory alkalosis in brainly.com/question/9928463
The best and most correct answer among the choices provided by the question is the fourth choice "this is an example of causation"
Causation<span> is the "causal relationship between conduct and result". That is to say that</span>causation<span> provides a means of connecting conduct with a resulting effect, typically an injury.</span>
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The medical Assistant should apologize for the inconvenience and explain to the patients in the waiting room that there was an emergancy at the hospital and reschedule their appointments.<span />
Answer:
b. To the extent possible, solid reagent should be added to the solid waste container and broken glass should be added to the glass waste. Hazardous materials should never be added to the glass waste, and broken glass should only be allowed in the solid waste with the TA's approval.
Explanation:
All reagents, waste, equipment, and packaging used in a laboratory should be disposed of safely and appropriately to avoid environmental contamination and to avoid an accident if improperly disposed of. In a laboratory each type of reagent, waste, packaging, and equipment must be properly disposed of and specific to each. Therefore, we can conclude that if a solid reagent beaker falls off a laboratory bench and cracks, the correct thing to do is to take the solid reagent as much as possible and add it to the solid waste container and broken glass to glass waste. Hazardous materials should never be added to glass waste, and broken glass should only be allowed on solid waste with AT approval.
