Interpret the following Arterial Blood Gas values, include whether the gas is compensated or uncompensated.
1. PH 7.28, CO2 48, HCO3- 32, BE +10
2. PH 7.44, CO2 26, HCO3- 23, BE -1
3. The PH is within the normal range and CO2 and HCO3- are moving in the same direction, how would you classify this blood gas?
4. PH 7.56, CO2 42, HCO3- 34, BE +5
5. PH 7.42, CO2 43, HCO3- 25, BE +2
Interpret the following Arterial Blood Gas values, include whether the gas is compensated or uncompensated. 1....
Provide an interpretation of the following five arterial blood gas results. (10) PCO 35-45 mmHg HCO 22-28 mmol/L BE pH 7.35-7.45 Reference Range +/-3 Results to be interpreted 32 -12 1 7.19 14 2 28 9 7.64 30 3 7.14 30 9.8 -18 4 7.44 40 35 10 5 48 7.56 40 16 Nm n
A nurse is reviewing the arterial blood gas values for a client. The pH is 7.32, PaCO2 48 mm Hg and the HCO3 is 23 mEq/L. The nurse should recognize that these findings indicate of which of the following acid base balances? Respiratory acidosis O Respiratory alkalosis Metabolic acidosis Metabolic alkalosis
Arterial Blood Gas Interpretation Posttest Directions: Complete this test using the answer sheet provided The solution that would be most alkalotic would be the one with a pH of: A. Four Seven C. Nine Fourteen D. A. The normal pH range for blood is: 7.0 - 7.25 B. 7.30 - 7.40 C. 7.35 -7.45 D. 7.45 - 7.55 The respiratory system compensates for changes in the pH level by responding to changes in the levels of: A. CO2 B. H0...
Interpret each of the following ABG results: When completed insert interpretation answer into the course You do not need to add compensated, partial or non-compensated 1. pH: 7.5 PaCO2: 37 HCO3: 38 Interpretation: 2. pH: 7.32 PaCO2: 50 HCO3: 25 control Interpretation: 3. pH: 7.38 PaCo2: 36 HCO3: 27 Interpretation: 4. pH: 7.46 PaC02:32 HCO3: 24 Interpretation: 5. pH: 7.28 PaC02: 43 HCO3: 18 Interpretation:
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 ____________________________________
Please provide your interpretation of the following acid-base values and determine compensation. 1. pH 7.25 Co2 HCO3 Co2 4. pH 745 2. pH 7.40 Co2 37 HCO3 26 3. pH 7.55 HCO3 24 Co2 HCO3 30 5. pH 7.60 Co2 HCO3 38 Please provide your interpretation with determination of compensation and interventions based on the results. 6. pH 731 CO2 50 mm Hg HCO3-22 mEq/L Interpretation: Intervention based on result: 7. PH 7.31. CO2 44 mmHg. HCO3 20 mEq/L Interpretation:...
A nurse assesses a client who is experiencing an acid-base imbalance. The client's arterial blood gas values are pH 7.33, PaO2 88 mm Hg. PaCO2 38 mm Hg, and HCO3- 19 mEq/L. Which assessment should the nurse perform first? A. Cardiac rate and rhythm B. Skin and mucous membranes C. Musculoskeletal strength D. Level of orientation A nurse assesses a client who is admitted with an acid-base imbalance. The client's arterial blood gas values are pH 7.32, PaO2 85 mm...
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...
Arterial blood gas case study 1 A 14-year-old girl with cystic fibrosis has complained of an increased cough productive of green sputum over the last week. She also complained of being increasingly short of breath, and she is noticeably wheezing on physical examination. Arterial blood was drawn and sampled, revealing the following values: pH 7.30 pCO2 50 mm Hg pO2 55 mm Hg Hemoglobin - O2 saturation 45 % [HCO3-] 24 meq / liter Questions: 1....
Question 19 (1 point) What is the interpretation of the following blood gas results? HCO, (mEq L PCO:(mmHg 35 to 45 pH ΣΣ10 Reference Interval 7.35 to 7.45 1S 7.42 26 Results a) Mixed acidosis b) Fully compensated metabolic acidosis c) Laboratory error d) Fully compensated respiratory alkalosis Question 20 (1 point) Where is aldosterone synthesized? a) Brain b) Adrenal medulla c) Adrenal cortex d) Kidney juxtaglomerular cells