Please write the correct interpretation of the Acid Base Balance in the line provided. Be sure to include if the patient’s condition is uncompensated, partially compensated, fully compensated, or normal for the alterations.
1. pH 7.62 PCO2 44 HCO3 27 ____________________________________
2. pH 7.49 PCO2 25 HCO3 16 ___________________________________
3. pH 7.13 PCO2 45 HCO3 16 ___________________________________
4. pH 7.32 PCO2 50 HCO3 31 ____________________________________
5. pH 7.42 PCO2 41 HCO3 25 ____________________________________
6. pH 7.63 PCO2 36 HCO3 34 ____________________________________
7. pH 7.64 PCO2 53 HCO3 30 ____________________________________
8. pH 7.19 PCO2 48 HCO3 25 ____________________________________
9. pH 7.38 PCO2 34 HCO3 19 ____________________________________
10. pH 7.66 PCO2 50 HCO3 32 ____________________________________
11. pH 7.39 PCO2 47 HCO3 28 ____________________________________
12. pH 7.77 PCO2 42 HCO3 31 ____________________________________
1.
Answer = first condition denotes acute metabolic alkalosis because pH and bicarbonate both are increase.
2.
Answer - partially compansated respiratory alkalosis
3.
Answer - acute metabolic acidosis
4.
Answer - partially compansated metabolic acidosis.
5.
Answer - normal arterial blood gases
6.
Answer - acute metabolic acidosis
7.
Answer - partially compansated metabolic alkalosis.
8.
Answer - uncompensated respiratory acidosis
9.
Answer - compansated metabolic acidosis
10.
Answer - partially compansated metabolic alkalosis.
11.
Answer - compansated respiratory acidosis.
12.
Answer - acute metabolic acidosis.
Normal ABG values are
Ph= 7.35 to 7.45
Pco2 = 35-45mmhg
HCO3 = 22-26
If any two like pH and pco2 both goes down Means respiratory acidosis or when going up means alkalosis.
If pH and Hco3 goes down and up means metabolic acidosis and alkalosis.
If you have any query we will discuss in comment section otherwise please like Thanks
Please write the correct interpretation of the Acid Base Balance in the line provided. Be sure to...
ABG PRACTICE PROBLEMS Normal PH: 7.35 -7.45 PaO2: 95-100 mmHg SaO2: 95-100% PaCo2 35-45 mmHg HCO3: 22-26 mEq/L Interpret the following ABG Values to determine what type of Acid-Base Imbalance is present. Determine if the result is Acidosis or Alkalosis (Respiratory or Metabolic) and if Compensated, Partially Compensated, or Non Compensated 1. pH: 7.30, PacO2: 38, HCO3: 18 TE ODER PODER Answer: 2. pH: 7.25; PaCO2: 50; HCO3 23 SOLO Answer: 3. pH: 7.49; PaCO2: 33; HCO3 : 25 OSOBE...
Please help me with the correct answers and also the rationales for
the correct answers for number 2,5,6,11,17,23,24,25.
324 Quiz 1 Version A 1. Following insertion of a central line, a client begins to have difficulty breathing. The clien, becomes progressively cyanotic and becomes unresponsive. The care team suspects an am embolus that should prompt the nurse to immediately A. Administer a thrombolytic B Place the client on the left side with the clients head down C. Have the client...
please do 3-7 thank you
2. 3. 4. Repeat steps 0.a.-f. for TITRA2 and TITRA3. Write the balanced chemical equation for the reaction between your unknown acid and sodium hydroxide. The generalized chemical formula of your acid (HxA) is found on the unknown sample bottle. “X” denotes the number of hydrogen's that react with the hydroxide on the sodium hydroxide. Go back to the TITRA1 D2 EXPANDED graph and determine the equivalence point volume of sodium hydroxide used to titrate...
please can I have the rationales for the correct answers
324 Quiz 1 Version A 1. Following insertion of a central line, a client begins to have difficulty breathing. The clien, becomes progressively cyanotic and becomes unresponsive. The care team suspects an am embolus that should prompt the nurse to immediately A. Administer a thrombolytic B Place the client on the left side with the clients head down C. Have the client bear down and perform a Valsalva maneuver. D....