Question

In: Nursing

NR226 Week #5 ABG Interpretation Practice Problems Name: ___________________________________   D#: ____________________________ Directions: Answer and Interpret the...

NR226 Week #5 ABG Interpretation Practice Problems

Name: ___________________________________   D#: ____________________________

Directions: Answer and Interpret the following ABG problems and questions, and submit completed activity to Week #5 dropbox in Canvas by Sun 6/7/20 11:59 pm.

  1. What are the 3 processes involved in Acid/Base balance within the body? Please briefly explain what occurs with each process.
  1. Explain the difference between Compensation and Correction of acid/base imbalances. If it is a Respiratory issue which system compensates? Corrects? If it is a Metabolic issue which system compensates? Corrects?
  1. In Respiratory Acidosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Respiratory Acidosis.

  1. In Metabolic Alkalosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Metabolic Alkalosis.
  1. pH 7.56, PaCO2 20, HCO3 20

  1. Metabolic Acidosis, Uncompensated
  2. Respiratory Acidosis, Uncompensated
  3. Respiratory Alkalosis, Partially Compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.23, PaCO2 37, HCO3 18

  1. Respiratory Alkalosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Uncompensated
  4. Metabolic Acidosis, Uncompensated
  1. pH 7.55, PaCO2 47, HCO3 30

  1. Respiratory Acidosis, Partially Compensated
  2. Respiratory Alkalosis, Uncompensated
  3. Metabolic Acidosis, Partially compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.39, PaCO2 48, HCO3 28

  1. Metabolic Alkalosis, Fully Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

  1. pH 7.42, PaCO2 32, HCO3 18

  1. Metabolic Acidosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

NR226 Week #5 ABG Interpretation Practice Problems

Name: ___________________________________   D#: ____________________________

Directions: Answer and Interpret the following ABG problems and questions, and submit completed activity to Week #5

  1. What are the 3 processes involved in Acid/Base balance within the body? Please briefly explain what occurs with each process.
  1. Explain the difference between Compensation and Correction of acid/base imbalances. If it is a Respiratory issue which system compensates? Corrects? If it is a Metabolic issue which system compensates? Corrects?
  1. In Respiratory Acidosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Respiratory Acidosis.

  1. In Metabolic Alkalosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Metabolic Alkalosis.
  1. pH 7.56, PaCO2 20, HCO3 20

  1. Metabolic Acidosis, Uncompensated
  2. Respiratory Acidosis, Uncompensated
  3. Respiratory Alkalosis, Partially Compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.23, PaCO2 37, HCO3 18

  1. Respiratory Alkalosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Uncompensated
  4. Metabolic Acidosis, Uncompensated
  1. pH 7.55, PaCO2 47, HCO3 30

  1. Respiratory Acidosis, Partially Compensated
  2. Respiratory Alkalosis, Uncompensated
  3. Metabolic Acidosis, Partially compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.39, PaCO2 48, HCO3 28

  1. Metabolic Alkalosis, Fully Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

  1. pH 7.42, PaCO2 32, HCO3 18

  1. Metabolic Acidosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

NR226 Week #5 ABG Interpretation Practice Problems

Name: ___________________________________   D#: ____________________________

Directions: Answer and Interpret the following ABG problems and questions, and submit completed activity to Week #5 dropbox in Canvas by Sun 6/7/20 11:59 pm.

  1. What are the 3 processes involved in Acid/Base balance within the body? Please briefly explain what occurs with each process.
  1. Explain the difference between Compensation and Correction of acid/base imbalances. If it is a Respiratory issue which system compensates? Corrects? If it is a Metabolic issue which system compensates? Corrects?
  1. In Respiratory Acidosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Respiratory Acidosis.

  1. In Metabolic Alkalosis what kind of symptoms are occurring with the patient? Which system will start compensating? Give an example of a condition that could cause Metabolic Alkalosis.
  1. pH 7.56, PaCO2 20, HCO3 20

  1. Metabolic Acidosis, Uncompensated
  2. Respiratory Acidosis, Uncompensated
  3. Respiratory Alkalosis, Partially Compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.23, PaCO2 37, HCO3 18

  1. Respiratory Alkalosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Uncompensated
  4. Metabolic Acidosis, Uncompensated
  1. pH 7.55, PaCO2 47, HCO3 30

  1. Respiratory Acidosis, Partially Compensated
  2. Respiratory Alkalosis, Uncompensated
  3. Metabolic Acidosis, Partially compensated
  4. Metabolic Alkalosis, Partially Compensated
  1. pH 7.39, PaCO2 48, HCO3 28

  1. Metabolic Alkalosis, Fully Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

  1. pH 7.42, PaCO2 32, HCO3 18

  1. Metabolic Acidosis, Partially Compensated
  2. Metabolic Alkalosis, Partially Compensated
  3. Respiratory Acidosis, Fully Compensated
  4. Respiratory Alkalosis, Fully Compensated

Solutions

Expert Solution


Related Solutions

NR226 Week #5 IV Fluids & Electrolyte Imbalances Activity Name: _______________________________________ D#: ____________________________ Directions: Answer the...
NR226 Week #5 IV Fluids & Electrolyte Imbalances Activity Name: _______________________________________ D#: ____________________________ Directions: Answer the following questions and submit to Week #5 “IV Fluids Activity” 1 1.Explain what Isotonic, Hypotonic and Hypertonic IV solutions do within the body (what influence do they exert with relation to fluid shifting in/out of cells, etc.) 2.) Give an example of an Isotonic IV solution, a type of patient this solution would be appropriate for, and any contraindications to infusing this type of...
Interpretation Use table 1 to answer the following questions. Interpret the adjusted odds ratios on table...
Interpretation Use table 1 to answer the following questions. Interpret the adjusted odds ratios on table 1 for post-secondary education, employment, and illicit drug use. (3 points) What variables were statistically significant? How do you know they were statistically significant? (2 points) Give one recommendation on what the researchers would have done differently. (2 points) TABLE 1 Variable Crude OR (95% CI) Adjusted ORa (95% CI) Sociodemographic factors Sex 1.33 (0.80–2.23) Postsecondary education 0.45 (0.27–0.76) 0.47 (0.28–0.80)b Employment 0.74 (0.43–1.27)...
C++ Programming Convert problems 6 in to template classes, of week 5 and week 4. Test...
C++ Programming Convert problems 6 in to template classes, of week 5 and week 4. Test each with Implicit int, float, double, long int. Test each with explicit int, float, double, long int. Problem 6: //Box.h #include<iostream> using namespace std; class Box { public:    double Length;    double Width;    double Height; public:    //Default constructor    Box();    //Parameterized constructor    Box(double ,double,double);    //Setter methods    void setWidth ( double n ) ;    void setDepth ( double n ) ;    void setHeight ( double n );...
Answer only e) to h) problems a) to d) have the answer included Problem 1: Relations...
Answer only e) to h) problems a) to d) have the answer included Problem 1: Relations among Useful Discrete Probability Distributions. A Bernoulli experiment consists of only one trial with two outcomes (success/failure) with probability of success p. The Bernoulli distribution is P (X = k) = pkq1-k, k=0,1 The sum of n independent Bernoulli trials forms a binomial experiment with parameters n and p. The binomial probability distribution provides a simple, easy-to-compute approximation with reasonable accuracy to hypergeometric distribution...
Answer only e) to h) problems a) to d) have the answer included Problem 1: Relations...
Answer only e) to h) problems a) to d) have the answer included Problem 1: Relations among Useful Discrete Probability Distributions. A Bernoulli experiment consists of only one trial with two outcomes (success/failure) with probability of success p. The Bernoulli distribution is P (X = k) = pkq1-k, k=0,1 The sum of n independent Bernoulli trials forms a binomial experiment with parameters n and p. The binomial probability distribution provides a simple, easy-to-compute approximation with reasonable accuracy to hypergeometric distribution...
Deadline Due by the end of Week 5 at 11:59pm, ET. Directions Prepare an intra-office memorandum...
Deadline Due by the end of Week 5 at 11:59pm, ET. Directions Prepare an intra-office memorandum for the senior partner explaining how a case management program might be used to organize a case. Specifically explain how the program can help a trial attorney in each phase of the case: Case Intake Investigation Discovery Settlement Negotiations Trial Your memorandum should be a minimum of two pages in length and contain proper spelling and grammar.
ECON350 Tue or False Practice Questions (week 5) 1. It is often the case that purchasing...
ECON350 Tue or False Practice Questions (week 5) 1. It is often the case that purchasing a five-year bonds or five one-year bonds always results in the same returns, hence investors are indifferent between these two options. 2. The YC under the liquidity premium theory is normally upward sloping, but it might kink downward at the very long end of maturity. 3. As debtors are more sensitive to interest rate changes than creditors, higher interest rates would lead to a...
Directions: Answer the following in 5 SENTENCES EACH, correctly and as comprehensively as possible. 1. Which...
Directions: Answer the following in 5 SENTENCES EACH, correctly and as comprehensively as possible. 1. Which level of protein organization is the most significant in determining the final confirmation? 2. Illustrate and explain the Primary Structure of Proteins. 3. What types of bonds are found in the primary structure of a protein? 4. What is the type of reaction is an example of the formation of a peptide bond?
Contracts Answer Practice Problems 1. Lana agrees to work as Michelle’s personal assistant for one year...
Contracts Answer Practice Problems 1. Lana agrees to work as Michelle’s personal assistant for one year at a salary of $24,000. But Lana dies in the ninth month of the contract. Michelle hires a replacement who charges $30,000 to do the same job. Michelle sues Lana’s parents, who control the estate that Lana left behind, to recover the additional money she ended up having to pay as a result of Lana’s death. Discuss whether you think a court will require...
Practice: Look at the following function header: def foo(a, b, c, d, e) answer the following...
Practice: Look at the following function header: def foo(a, b, c, d, e) answer the following questions: How many parameters this function has What is the name of this function If we call the function like this foo( 3, 2, 1, ‘c’, “Wdu”) what values will be assigned to a, b, c, d, e ? If we call function like this foo( 3, 2, 1, ‘c’, “Wdu”) what will be data types of a, b , c, d, and e.
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT