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Deck 22: Metabolic and Respiratory Stress

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exit full mode
Question
In response to metabolic and respiratory stress, the body experiences ____.

A)hypometabolism
B)a breakdown of muscle mass
C)a decrease in carbon dioxide in the blood
D)only minor complications
Use Space or
up arrow
down arrow
to flip the card.
Question
What effect does an increase in the release of catecholamines have on the body?

A)sodium excretion from the kidneys
B)glycogen breakdown in the liver
C)storage of fatty acids in the adipose cells
D)water reabsorption in the kidneys
Question
Effects of prolonged elevated cortisol levels include ____.

A)impaired wound healing
B)increased protein synthesis
C)increased risk of hypoglycemia
D)improved immune response
Question
Which substance is the precursor for the eicosanoids?

A)amino acids
B)fatty acids
C)thiamin
D)vitamin D
Question
Ryan's knee was injured in a basketball game. When he gets home he notices swelling, redness, heat, and pain in his knee. What is causing the redness?

A)accumulation of fluid at the site of the injury
B)dilation of small blood vessels in the injured area
C)the release of chemical mediators
D)edema within the damaged tissues
Question
Which hormone(s)is/are referred to as the "fight-or-flight" hormone(s)?

A)catecholamines
B)glucagon
C)cortisol
D)aldosterone
Question
Long-term use of pharmaceutical forms of cortisol (cortisone, prednisone)results in ____.

A)thickening of the skin
B)dehydration
C)hypothyroidism
D)early osteoporosis
Question
The complication that results when adequate nutrition is reintroduced rapidly is ____.

A)hypotension
B)refeeding syndrome
C)ketoacidosis
D)tachycardia
Question
Chemical mediators that control the inflammatory process are released from ____.

A)the central nervous system
B)damaged tissues
C)the adrenal glands
D)adipose tissue
Question
Which substance is an acute-phase protein?

A)glucagon
B)hepcidin
C)aldosterone
D)eicosanoids
Question
Complications that result from refeeding syndrome include ____.

A)hyperglycemia
B)weight gain
C)hypoxemia
D)hypovolemia
Question
What is a function of C-reactive protein?

A)regulating blood pressure
B)regulating iron metabolism
C)producing and releasing histamine
D)binding dead or dying cells to activate certain immune responses
Question
The accumulation of pus is known as ____.

A)erysipelas
B)impetigo
C)an abscess
D)cellulitis
Question
Shock is characterized by ____.

A)increased blood pressure
B)decreased heart rate
C)increased oxygenation
D)increased respiratory rate
Question
A disruption to the body's chemical environment that threatens its normal and healthy functioning is called ____ stress.

A)metabolic
B)severe
C)physiological
D)dysfunctional
Question
What is a metabolic effect of hormones released during the stress response?

A)glycogenesis
B)gluconeogenesis
C)lipogenesis
D)protein synthesis
Question
When determining resting metabolic rate, a patient's energy needs would generally be increased by which condition?

A)receiving intravenous fluids
B)having open wounds
C)being bedridden
D)having a nasogastric tube
Question
Which hormones promote glycogen breakdown?

A)catecholamines and antidiuretic hormone
B)catecholamines and glucagon
C)cortisol and aldosterone
D)aldosterone and catecholamines
Question
The inflammatory response begins with ____.

A)removal of cellular debris
B)dilation of arterioles and capillaries
C)destruction of microorganisms
D)release of inflammatory mediators
Question
Cytokines are proteins that help regulate ____ development and activity.

A)immune system
B)oxygen
C)hormonal
D)GI tract
Question
What metabolic effect is most commonly seen with inhaled corticosteroids?

A)altered taste sensation
B)hypokalemia
C)hyperphosphatemia
D)low bone density
Question
Which classification of burns involves both the epidermis and dermis and is characterized by a wet, red, and blistery appearance?

A)1st degree
B)2nd degree
C)3rd degree
D)4th degree
Question
Brandon is critically ill and is in the ICU. How many kcalories can be factored to determine Brandon's daily energy needs?

A)15-20 kcal/kg body weight
B)25-30 kcal/kg body weight
C)30-35 kcal/kg body weight
D)35-38 kcal/kg body weight
Question
When parenteral nutrition is necessary for critically ill patients, dextrose is limited to ____ milligrams per kilogram of body weight per minute to prevent hyperglycemia.

A)3
B)5
C)10
D)15
Question
How many grams of protein would a 120-lb. woman require after major physiological stress?

A)65 - 109 grams
B)82 - 109 grams
C)156 - 173 grams
D)144 - 240 grams
Question
What percentage of persons with COPD is affected by malnutrition?

A)20
B)40
C)60
D)80
Question
Which classification of burns destroys both the epidermis and dermis and may also damage underlying tissues?

A)1st degree
B)2nd degree
C)3rd degree
D)4th degree
Question
Maggie, newly diagnosed with COPD, might benefit from which recommendations to help her increase her food intake?

A)eating large meals
B)consuming liquids with meals rather than between meals
C)eating quickly
D)using oxygen at meal times
Question
Which condition is characterized by persistent inflammation and excessive secretions of mucus in the main airways of the lungs?

A)asthma
B)chronic bronchitis
C)emphysema
D)pneumonia
Question
Protein intake should average ____ percent of total calories for clients with burns greater than 10 percent TBSA.

A)10
B)15
C)25
D)30
Question
Shortness of breath is also called ____.

A)cyanosis
B)hypercapnia
C)dyspnea
D)hypoxia
Question
An estimate of the energy needs of a 70-kg man who is critically ill would be ____ kcalories.

A)1050 to 1400
B)1750 to 2100
C)2450 to 2800
D)3150 to 3500
Question
For acutely ill patients with a functional GI tract, enteral feedings started in the first ____ hours after hospitalizations are associated with fewer complications and shorter hospital stays.

A)12-24
B)24-48
C)48-72
D)72-96
Question
Which substances are nonessential amino acids that are sometimes supplemented in patients undergoing metabolic stress?

A)aspartic acid and arginine
B)arginine and glutamine
C)glycine and glutamine
D)alanine and glycine
Question
What best describes why weight loss and malnutrition occurs in the presence of chronic respiratory diseases?

A)Damaged lung tissues use more vitamins and minerals.
B)Excessive carbon dioxide in the blood causes a person to sleep more.
C)Labored breathing requires more energy.
D)Hypoxemia causes the body to excrete excess glycogen.
Question
Burn size in adults is often estimated by dividing the body into 11 parts, each part representing about ____ percent of the total body surface area (TBSA).

A)9
B)12
C)15
D)19
Question
Patients with ARDS may require ____ grams of protein per kilogram body weight daily.

A)0.5 to 1.0
B)1.0 to 1.5
C)1.5  to  2.0
D)2.0  to  2.5
Question
The primary risk factor for COPD is ____.

A)smoking
B)vehicle exhaust
C)genetic factors
D)pollution from coal-fired power plants
Question
Dave has 2nd degree burns on his back torso, left arm, and left leg. This represents about ____ percent of his total body surface area (TBSA).

A)27
B)36
C)45
D)72
Question
What is the suggested kcalorie intake for hypocaloric feedings for obese patients who are critically ill?

A)5-8 kcal/kg actual body weight
B)8-10 kcal/kg actual body weight
C)11-14 kcal/kg actual body weight
D)15-18 kcal/kg actual body weight
Question
A patient with respiratory failure and fluid restrictions would require nutrient-dense formulas of ____ kcal/mL.

A)0.5 to 1.0
B)1.0 to 1.2
C)1.2 to 1.5
D)1.5 to 2.0
Question
What effects are most commonly seen when MODS causes lung failure?

A)hemoptysis
B)poor gas exchange
C)chronic cough
D)increased oxygen saturations
Question
Multiple organ dysfunction syndrome most often affects the kidneys, lungs, and ____.

A)brain
B)heart
C)liver
D)stomach
Question
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). What is the main nutritional goal for Joseph?

A)Increase intake to 75 percent of meals.
B)Increase arginine production.
C)Increase arginine intake.
D)Achieve nitrogen balance and minimize tissue losses.
Question
To decrease the risk of aspiration in patients with respiratory failure who need nutrition support, the healthcare provider should ____.

A)utilize gastric feedings
B)utilize intestinal feeding
C)decrease the amount of free water in the tube feeding
D)select a formula enriched with vitamins A, C, and E
Question
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The registered dietitian is completing her initial assessment for Mr. Delgado. When estimating his energy needs she selects ____ for his stress factor.

A)1.0
B)1.4
C)1.8
D)2.2
Question
Which treatment is most often used to manage MODS?

A)surgery
B)mechanical ventilation
C)induced hypothermia
D)extra-corporeal membrane oxygenation
Question
In what way does advancing age contribute to development of MODS?

A)Older adults do not understand what measures to take to prevent MODS.
B)Older adults take more medications that can cause side effects that lead to MODS.
C)Older adults are prone to infection because of increased skin thickening.
D)Older adults' bodies are less able to deal with the stress of critical illness.
Question
The principle infection associated with MODS is ____.

A)gastroenteritis
B)acute kidney infection
C)a pressure ulcer
D)pneumonia
Question
Mr. Ferell has ARDS. His nurse notices an increase in body weight and edema. The dietitian is consulted. She recommends ____.

A)a change to parenteral nutrition support
B)a change to a nutrient-dense formula
C)that they continue the current nutrition care plan
D)a change to bolus feedings
Question
Enteral formulas specifically for patients with COPD often contain more ____ than standard formulas.

A)carbohydrates
B)potassium
C)iron
D)fat
Question
In what way do blood transfusions contribute to development of MODS? ​

A)​B lood transfusions are immunosuppressive.
B)​T ransfusion reactions cause systemic sepsis.
C)B lood transfusions raise the patient's temperature.
D)​T he transfusion process requires more energy.
Question
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). Having burns increases Joseph's risk for what condition?

A)osteoporosis
B)intestinal ileus or gastrointestinal malfunction
C)bronchitis
D)overhydration
Question
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The nurse orders a nutrition consult due to Joseph's poor intake. What is unlikely to be related to his low intake?

A)pain
B)sedation
C)feeding problems
D)positive nitrogen balance
Question
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The most appropriate way to meet Joseph's nutritional needs is via ____.

A)tube feedings
B)TPN
C)a high-kcalorie/high-protein diet with six small meals/day
D)a high-kcalorie/high-protein diet with three large meals/day
Question
Support of heart and blood vessel function during treatment of MODS is characterized by ____. ​

A)medications to maintain blood pressure
B)surgery to remove excess atherosclerosis
C)central venous access to administer antibiotics
D)medications to dissolve blood clots
Question
Signs of sepsis include ____. ​

A)increased blood pressure
B)bradycardia
C)abnormal body temperature
D)abnormal red blood cell count
Question
Patients who have SIRS that persists for more than ____ are more likely to develop MODS. ​

A)4 hours
B)1 day
C)48 hours
D)3 days
Question
Nutrition support as part of treatment for MODS ____. ​

A)promotes weight gain
B)reduces obesity
C)prevents wasting
D)eliminates infection
Question
Which symptom is associated with systemic inflammatory response syndrome (SIRS)?

A)abnormal body temperature
B)reduced heart and respiratory rates
C)abnormal red blood cell counts
D)impaired inflammatory response
Question
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Margaret is diagnosed with COPD. What is the primary cause?

A)osteoporosis
B)smoking
C)poor appetite
D)sinusitis
Question
Match between columns
Premises:
Responses:
excessive carbon dioxide in the blood
metabolic stress
excessive carbon dioxide in the blood
respiratory stress
excessive carbon dioxide in the blood
wasting
excessive carbon dioxide in the blood
multiple organ dysfunction syndrome
excessive carbon dioxide in the blood
counterregulatory hormones
excessive carbon dioxide in the blood
mast cells
excessive carbon dioxide in the blood
inflammatory response
excessive carbon dioxide in the blood
acute-phase response
excessive carbon dioxide in the blood
systemic inflammatory response syndrome (SIRS)
excessive carbon dioxide in the blood
shock
excessive carbon dioxide in the blood
chronic obstructive pulmonary disease
excessive carbon dioxide in the blood
acute respiratory distress syndrome (ARDS)
excessive carbon dioxide in the blood
hypoxemia
excessive carbon dioxide in the blood
hypercapnia
excessive carbon dioxide in the blood
hypoxia
Question
Match between columns
Premises:
Responses:
low level of oxygen in the blood
metabolic stress
low level of oxygen in the blood
respiratory stress
low level of oxygen in the blood
wasting
low level of oxygen in the blood
multiple organ dysfunction syndrome
low level of oxygen in the blood
counterregulatory hormones
low level of oxygen in the blood
mast cells
low level of oxygen in the blood
inflammatory response
low level of oxygen in the blood
acute-phase response
low level of oxygen in the blood
systemic inflammatory response syndrome (SIRS)
low level of oxygen in the blood
shock
low level of oxygen in the blood
chronic obstructive pulmonary disease
low level of oxygen in the blood
acute respiratory distress syndrome (ARDS)
low level of oxygen in the blood
hypoxemia
low level of oxygen in the blood
hypercapnia
low level of oxygen in the blood
hypoxia
Question
Match between columns
Premises:
Responses:
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
metabolic stress
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
respiratory stress
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
wasting
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
multiple organ dysfunction syndrome
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
counterregulatory hormones
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
mast cells
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
inflammatory response
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
acute-phase response
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
systemic inflammatory response syndrome (SIRS)
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
shock
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
chronic obstructive pulmonary disease
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
acute respiratory distress syndrome (ARDS)
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypoxemia
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypercapnia
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypoxia
Question
Match between columns
Premises:
Responses:
hormones that have metabolic actions that oppose those of insulin
metabolic stress
hormones that have metabolic actions that oppose those of insulin
respiratory stress
hormones that have metabolic actions that oppose those of insulin
wasting
hormones that have metabolic actions that oppose those of insulin
multiple organ dysfunction syndrome
hormones that have metabolic actions that oppose those of insulin
counterregulatory hormones
hormones that have metabolic actions that oppose those of insulin
mast cells
hormones that have metabolic actions that oppose those of insulin
inflammatory response
hormones that have metabolic actions that oppose those of insulin
acute-phase response
hormones that have metabolic actions that oppose those of insulin
systemic inflammatory response syndrome (SIRS)
hormones that have metabolic actions that oppose those of insulin
shock
hormones that have metabolic actions that oppose those of insulin
chronic obstructive pulmonary disease
hormones that have metabolic actions that oppose those of insulin
acute respiratory distress syndrome (ARDS)
hormones that have metabolic actions that oppose those of insulin
hypoxemia
hormones that have metabolic actions that oppose those of insulin
hypercapnia
hormones that have metabolic actions that oppose those of insulin
hypoxia
Question
Match between columns
Premises:
Responses:
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
metabolic stress
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
respiratory stress
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
wasting
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
multiple organ dysfunction syndrome
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
counterregulatory hormones
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
mast cells
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
inflammatory response
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
acute-phase response
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
systemic inflammatory response syndrome (SIRS)
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
shock
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
chronic obstructive pulmonary disease
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
acute respiratory distress syndrome (ARDS)
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypoxemia
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypercapnia
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypoxia
Question
Match between columns
Premises:
Responses:
the breakdown of lean tissue that results from disease or malnutrition
metabolic stress
the breakdown of lean tissue that results from disease or malnutrition
respiratory stress
the breakdown of lean tissue that results from disease or malnutrition
wasting
the breakdown of lean tissue that results from disease or malnutrition
multiple organ dysfunction syndrome
the breakdown of lean tissue that results from disease or malnutrition
counterregulatory hormones
the breakdown of lean tissue that results from disease or malnutrition
mast cells
the breakdown of lean tissue that results from disease or malnutrition
inflammatory response
the breakdown of lean tissue that results from disease or malnutrition
acute-phase response
the breakdown of lean tissue that results from disease or malnutrition
systemic inflammatory response syndrome (SIRS)
the breakdown of lean tissue that results from disease or malnutrition
shock
the breakdown of lean tissue that results from disease or malnutrition
chronic obstructive pulmonary disease
the breakdown of lean tissue that results from disease or malnutrition
acute respiratory distress syndrome (ARDS)
the breakdown of lean tissue that results from disease or malnutrition
hypoxemia
the breakdown of lean tissue that results from disease or malnutrition
hypercapnia
the breakdown of lean tissue that results from disease or malnutrition
hypoxia
Question
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Many of the medications used to treat COPD can cause gastrointestinal effects such as ____.

A)dry mouth
B)ulcers
C)diarrhea
D)constipation
Question
Match between columns
Premises:
Responses:
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
metabolic stress
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
respiratory stress
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
wasting
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
multiple organ dysfunction syndrome
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
counterregulatory hormones
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
mast cells
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
inflammatory response
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
acute-phase response
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
systemic inflammatory response syndrome (SIRS)
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
shock
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
chronic obstructive pulmonary disease
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
acute respiratory distress syndrome (ARDS)
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypoxemia
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypercapnia
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypoxia
Question
Match between columns
Premises:
Responses:
low amount of oxygen in body tissues
metabolic stress
low amount of oxygen in body tissues
respiratory stress
low amount of oxygen in body tissues
wasting
low amount of oxygen in body tissues
multiple organ dysfunction syndrome
low amount of oxygen in body tissues
counterregulatory hormones
low amount of oxygen in body tissues
mast cells
low amount of oxygen in body tissues
inflammatory response
low amount of oxygen in body tissues
acute-phase response
low amount of oxygen in body tissues
systemic inflammatory response syndrome (SIRS)
low amount of oxygen in body tissues
shock
low amount of oxygen in body tissues
chronic obstructive pulmonary disease
low amount of oxygen in body tissues
acute respiratory distress syndrome (ARDS)
low amount of oxygen in body tissues
hypoxemia
low amount of oxygen in body tissues
hypercapnia
low amount of oxygen in body tissues
hypoxia
Question
Match between columns
Premises:
Responses:
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
metabolic stress
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
respiratory stress
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
wasting
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
multiple organ dysfunction syndrome
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
counterregulatory hormones
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
mast cells
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
inflammatory response
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
acute-phase response
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
systemic inflammatory response syndrome (SIRS)
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
shock
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
chronic obstructive pulmonary disease
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
acute respiratory distress syndrome (ARDS)
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypoxemia
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypercapnia
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypoxia
Question
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. The physician makes several recommendations for Margaret. What would be among these recommendations?

A)high-energy supplements
B)low-protein diet
C)extremely limited exercise
D)reduced fiber intake
Question
Match between columns
Premises:
Responses:
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
metabolic stress
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
respiratory stress
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
wasting
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
multiple organ dysfunction syndrome
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
counterregulatory hormones
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
mast cells
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
inflammatory response
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
acute-phase response
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
systemic inflammatory response syndrome (SIRS)
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
shock
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
chronic obstructive pulmonary disease
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
acute respiratory distress syndrome (ARDS)
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypoxemia
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypercapnia
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypoxia
Question
Match between columns
Premises:
Responses:
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
metabolic stress
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
respiratory stress
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
wasting
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
multiple organ dysfunction syndrome
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
counterregulatory hormones
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
mast cells
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
inflammatory response
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
acute-phase response
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
systemic inflammatory response syndrome (SIRS)
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
shock
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
chronic obstructive pulmonary disease
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
acute respiratory distress syndrome (ARDS)
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypoxemia
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypercapnia
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypoxia
Question
Match between columns
Premises:
Responses:
cells within connective tissue that produce and release histamine
metabolic stress
cells within connective tissue that produce and release histamine
respiratory stress
cells within connective tissue that produce and release histamine
wasting
cells within connective tissue that produce and release histamine
multiple organ dysfunction syndrome
cells within connective tissue that produce and release histamine
counterregulatory hormones
cells within connective tissue that produce and release histamine
mast cells
cells within connective tissue that produce and release histamine
inflammatory response
cells within connective tissue that produce and release histamine
acute-phase response
cells within connective tissue that produce and release histamine
systemic inflammatory response syndrome (SIRS)
cells within connective tissue that produce and release histamine
shock
cells within connective tissue that produce and release histamine
chronic obstructive pulmonary disease
cells within connective tissue that produce and release histamine
acute respiratory distress syndrome (ARDS)
cells within connective tissue that produce and release histamine
hypoxemia
cells within connective tissue that produce and release histamine
hypercapnia
cells within connective tissue that produce and release histamine
hypoxia
Question
Match between columns
Premises:
Responses:
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
metabolic stress
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
respiratory stress
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
wasting
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
multiple organ dysfunction syndrome
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
counterregulatory hormones
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
mast cells
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
inflammatory response
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
acute-phase response
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
systemic inflammatory response syndrome (SIRS)
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
shock
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
chronic obstructive pulmonary disease
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
acute respiratory distress syndrome (ARDS)
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypoxemia
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypercapnia
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypoxia
Question
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. What is an example of a corticosteroid that may be prescribed for Margaret?

A)albuterol
B)ipratropium
C)salmeterol
D)fluticasone
Question
Match between columns
Premises:
Responses:
nonspecific responses of the immune system to infection or injury
metabolic stress
nonspecific responses of the immune system to infection or injury
respiratory stress
nonspecific responses of the immune system to infection or injury
wasting
nonspecific responses of the immune system to infection or injury
multiple organ dysfunction syndrome
nonspecific responses of the immune system to infection or injury
counterregulatory hormones
nonspecific responses of the immune system to infection or injury
mast cells
nonspecific responses of the immune system to infection or injury
inflammatory response
nonspecific responses of the immune system to infection or injury
acute-phase response
nonspecific responses of the immune system to infection or injury
systemic inflammatory response syndrome (SIRS)
nonspecific responses of the immune system to infection or injury
shock
nonspecific responses of the immune system to infection or injury
chronic obstructive pulmonary disease
nonspecific responses of the immune system to infection or injury
acute respiratory distress syndrome (ARDS)
nonspecific responses of the immune system to infection or injury
hypoxemia
nonspecific responses of the immune system to infection or injury
hypercapnia
nonspecific responses of the immune system to infection or injury
hypoxia
Question
Match between columns
Premises:
Responses:
failure of more than one organ system that occurs during intensive care; often results in death
metabolic stress
failure of more than one organ system that occurs during intensive care; often results in death
respiratory stress
failure of more than one organ system that occurs during intensive care; often results in death
wasting
failure of more than one organ system that occurs during intensive care; often results in death
multiple organ dysfunction syndrome
failure of more than one organ system that occurs during intensive care; often results in death
counterregulatory hormones
failure of more than one organ system that occurs during intensive care; often results in death
mast cells
failure of more than one organ system that occurs during intensive care; often results in death
inflammatory response
failure of more than one organ system that occurs during intensive care; often results in death
acute-phase response
failure of more than one organ system that occurs during intensive care; often results in death
systemic inflammatory response syndrome (SIRS)
failure of more than one organ system that occurs during intensive care; often results in death
shock
failure of more than one organ system that occurs during intensive care; often results in death
chronic obstructive pulmonary disease
failure of more than one organ system that occurs during intensive care; often results in death
acute respiratory distress syndrome (ARDS)
failure of more than one organ system that occurs during intensive care; often results in death
hypoxemia
failure of more than one organ system that occurs during intensive care; often results in death
hypercapnia
failure of more than one organ system that occurs during intensive care; often results in death
hypoxia
Question
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Margaret is prescribed ____ to improve airflow.

A)bronchodilators
B)corticosteroids
C)oxygen
D)an influenza vaccine
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Deck 22: Metabolic and Respiratory Stress
1
In response to metabolic and respiratory stress, the body experiences ____.

A)hypometabolism
B)a breakdown of muscle mass
C)a decrease in carbon dioxide in the blood
D)only minor complications
B
2
What effect does an increase in the release of catecholamines have on the body?

A)sodium excretion from the kidneys
B)glycogen breakdown in the liver
C)storage of fatty acids in the adipose cells
D)water reabsorption in the kidneys
B
3
Effects of prolonged elevated cortisol levels include ____.

A)impaired wound healing
B)increased protein synthesis
C)increased risk of hypoglycemia
D)improved immune response
A
4
Which substance is the precursor for the eicosanoids?

A)amino acids
B)fatty acids
C)thiamin
D)vitamin D
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5
Ryan's knee was injured in a basketball game. When he gets home he notices swelling, redness, heat, and pain in his knee. What is causing the redness?

A)accumulation of fluid at the site of the injury
B)dilation of small blood vessels in the injured area
C)the release of chemical mediators
D)edema within the damaged tissues
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6
Which hormone(s)is/are referred to as the "fight-or-flight" hormone(s)?

A)catecholamines
B)glucagon
C)cortisol
D)aldosterone
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7
Long-term use of pharmaceutical forms of cortisol (cortisone, prednisone)results in ____.

A)thickening of the skin
B)dehydration
C)hypothyroidism
D)early osteoporosis
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8
The complication that results when adequate nutrition is reintroduced rapidly is ____.

A)hypotension
B)refeeding syndrome
C)ketoacidosis
D)tachycardia
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9
Chemical mediators that control the inflammatory process are released from ____.

A)the central nervous system
B)damaged tissues
C)the adrenal glands
D)adipose tissue
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10
Which substance is an acute-phase protein?

A)glucagon
B)hepcidin
C)aldosterone
D)eicosanoids
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11
Complications that result from refeeding syndrome include ____.

A)hyperglycemia
B)weight gain
C)hypoxemia
D)hypovolemia
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12
What is a function of C-reactive protein?

A)regulating blood pressure
B)regulating iron metabolism
C)producing and releasing histamine
D)binding dead or dying cells to activate certain immune responses
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13
The accumulation of pus is known as ____.

A)erysipelas
B)impetigo
C)an abscess
D)cellulitis
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14
Shock is characterized by ____.

A)increased blood pressure
B)decreased heart rate
C)increased oxygenation
D)increased respiratory rate
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15
A disruption to the body's chemical environment that threatens its normal and healthy functioning is called ____ stress.

A)metabolic
B)severe
C)physiological
D)dysfunctional
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16
What is a metabolic effect of hormones released during the stress response?

A)glycogenesis
B)gluconeogenesis
C)lipogenesis
D)protein synthesis
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17
When determining resting metabolic rate, a patient's energy needs would generally be increased by which condition?

A)receiving intravenous fluids
B)having open wounds
C)being bedridden
D)having a nasogastric tube
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18
Which hormones promote glycogen breakdown?

A)catecholamines and antidiuretic hormone
B)catecholamines and glucagon
C)cortisol and aldosterone
D)aldosterone and catecholamines
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19
The inflammatory response begins with ____.

A)removal of cellular debris
B)dilation of arterioles and capillaries
C)destruction of microorganisms
D)release of inflammatory mediators
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20
Cytokines are proteins that help regulate ____ development and activity.

A)immune system
B)oxygen
C)hormonal
D)GI tract
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21
What metabolic effect is most commonly seen with inhaled corticosteroids?

A)altered taste sensation
B)hypokalemia
C)hyperphosphatemia
D)low bone density
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22
Which classification of burns involves both the epidermis and dermis and is characterized by a wet, red, and blistery appearance?

A)1st degree
B)2nd degree
C)3rd degree
D)4th degree
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23
Brandon is critically ill and is in the ICU. How many kcalories can be factored to determine Brandon's daily energy needs?

A)15-20 kcal/kg body weight
B)25-30 kcal/kg body weight
C)30-35 kcal/kg body weight
D)35-38 kcal/kg body weight
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24
When parenteral nutrition is necessary for critically ill patients, dextrose is limited to ____ milligrams per kilogram of body weight per minute to prevent hyperglycemia.

A)3
B)5
C)10
D)15
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25
How many grams of protein would a 120-lb. woman require after major physiological stress?

A)65 - 109 grams
B)82 - 109 grams
C)156 - 173 grams
D)144 - 240 grams
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26
What percentage of persons with COPD is affected by malnutrition?

A)20
B)40
C)60
D)80
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27
Which classification of burns destroys both the epidermis and dermis and may also damage underlying tissues?

A)1st degree
B)2nd degree
C)3rd degree
D)4th degree
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28
Maggie, newly diagnosed with COPD, might benefit from which recommendations to help her increase her food intake?

A)eating large meals
B)consuming liquids with meals rather than between meals
C)eating quickly
D)using oxygen at meal times
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29
Which condition is characterized by persistent inflammation and excessive secretions of mucus in the main airways of the lungs?

A)asthma
B)chronic bronchitis
C)emphysema
D)pneumonia
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30
Protein intake should average ____ percent of total calories for clients with burns greater than 10 percent TBSA.

A)10
B)15
C)25
D)30
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31
Shortness of breath is also called ____.

A)cyanosis
B)hypercapnia
C)dyspnea
D)hypoxia
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32
An estimate of the energy needs of a 70-kg man who is critically ill would be ____ kcalories.

A)1050 to 1400
B)1750 to 2100
C)2450 to 2800
D)3150 to 3500
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33
For acutely ill patients with a functional GI tract, enteral feedings started in the first ____ hours after hospitalizations are associated with fewer complications and shorter hospital stays.

A)12-24
B)24-48
C)48-72
D)72-96
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34
Which substances are nonessential amino acids that are sometimes supplemented in patients undergoing metabolic stress?

A)aspartic acid and arginine
B)arginine and glutamine
C)glycine and glutamine
D)alanine and glycine
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35
What best describes why weight loss and malnutrition occurs in the presence of chronic respiratory diseases?

A)Damaged lung tissues use more vitamins and minerals.
B)Excessive carbon dioxide in the blood causes a person to sleep more.
C)Labored breathing requires more energy.
D)Hypoxemia causes the body to excrete excess glycogen.
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36
Burn size in adults is often estimated by dividing the body into 11 parts, each part representing about ____ percent of the total body surface area (TBSA).

A)9
B)12
C)15
D)19
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37
Patients with ARDS may require ____ grams of protein per kilogram body weight daily.

A)0.5 to 1.0
B)1.0 to 1.5
C)1.5  to  2.0
D)2.0  to  2.5
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38
The primary risk factor for COPD is ____.

A)smoking
B)vehicle exhaust
C)genetic factors
D)pollution from coal-fired power plants
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39
Dave has 2nd degree burns on his back torso, left arm, and left leg. This represents about ____ percent of his total body surface area (TBSA).

A)27
B)36
C)45
D)72
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40
What is the suggested kcalorie intake for hypocaloric feedings for obese patients who are critically ill?

A)5-8 kcal/kg actual body weight
B)8-10 kcal/kg actual body weight
C)11-14 kcal/kg actual body weight
D)15-18 kcal/kg actual body weight
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41
A patient with respiratory failure and fluid restrictions would require nutrient-dense formulas of ____ kcal/mL.

A)0.5 to 1.0
B)1.0 to 1.2
C)1.2 to 1.5
D)1.5 to 2.0
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42
What effects are most commonly seen when MODS causes lung failure?

A)hemoptysis
B)poor gas exchange
C)chronic cough
D)increased oxygen saturations
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43
Multiple organ dysfunction syndrome most often affects the kidneys, lungs, and ____.

A)brain
B)heart
C)liver
D)stomach
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44
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). What is the main nutritional goal for Joseph?

A)Increase intake to 75 percent of meals.
B)Increase arginine production.
C)Increase arginine intake.
D)Achieve nitrogen balance and minimize tissue losses.
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45
To decrease the risk of aspiration in patients with respiratory failure who need nutrition support, the healthcare provider should ____.

A)utilize gastric feedings
B)utilize intestinal feeding
C)decrease the amount of free water in the tube feeding
D)select a formula enriched with vitamins A, C, and E
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46
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The registered dietitian is completing her initial assessment for Mr. Delgado. When estimating his energy needs she selects ____ for his stress factor.

A)1.0
B)1.4
C)1.8
D)2.2
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47
Which treatment is most often used to manage MODS?

A)surgery
B)mechanical ventilation
C)induced hypothermia
D)extra-corporeal membrane oxygenation
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48
In what way does advancing age contribute to development of MODS?

A)Older adults do not understand what measures to take to prevent MODS.
B)Older adults take more medications that can cause side effects that lead to MODS.
C)Older adults are prone to infection because of increased skin thickening.
D)Older adults' bodies are less able to deal with the stress of critical illness.
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49
The principle infection associated with MODS is ____.

A)gastroenteritis
B)acute kidney infection
C)a pressure ulcer
D)pneumonia
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50
Mr. Ferell has ARDS. His nurse notices an increase in body weight and edema. The dietitian is consulted. She recommends ____.

A)a change to parenteral nutrition support
B)a change to a nutrient-dense formula
C)that they continue the current nutrition care plan
D)a change to bolus feedings
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51
Enteral formulas specifically for patients with COPD often contain more ____ than standard formulas.

A)carbohydrates
B)potassium
C)iron
D)fat
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52
In what way do blood transfusions contribute to development of MODS? ​

A)​B lood transfusions are immunosuppressive.
B)​T ransfusion reactions cause systemic sepsis.
C)B lood transfusions raise the patient's temperature.
D)​T he transfusion process requires more energy.
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53
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). Having burns increases Joseph's risk for what condition?

A)osteoporosis
B)intestinal ileus or gastrointestinal malfunction
C)bronchitis
D)overhydration
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54
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The nurse orders a nutrition consult due to Joseph's poor intake. What is unlikely to be related to his low intake?

A)pain
B)sedation
C)feeding problems
D)positive nitrogen balance
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55
Forty-three-year-old Joseph Delgado is an electrician for a utility company. His past medical history is unremarkable with no problems. He is admitted to the ICU (intensive care unit)with severe electrical burns to his hands, arms, and chest (20-30 percent body surface area). The most appropriate way to meet Joseph's nutritional needs is via ____.

A)tube feedings
B)TPN
C)a high-kcalorie/high-protein diet with six small meals/day
D)a high-kcalorie/high-protein diet with three large meals/day
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56
Support of heart and blood vessel function during treatment of MODS is characterized by ____. ​

A)medications to maintain blood pressure
B)surgery to remove excess atherosclerosis
C)central venous access to administer antibiotics
D)medications to dissolve blood clots
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57
Signs of sepsis include ____. ​

A)increased blood pressure
B)bradycardia
C)abnormal body temperature
D)abnormal red blood cell count
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58
Patients who have SIRS that persists for more than ____ are more likely to develop MODS. ​

A)4 hours
B)1 day
C)48 hours
D)3 days
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59
Nutrition support as part of treatment for MODS ____. ​

A)promotes weight gain
B)reduces obesity
C)prevents wasting
D)eliminates infection
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60
Which symptom is associated with systemic inflammatory response syndrome (SIRS)?

A)abnormal body temperature
B)reduced heart and respiratory rates
C)abnormal red blood cell counts
D)impaired inflammatory response
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61
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Margaret is diagnosed with COPD. What is the primary cause?

A)osteoporosis
B)smoking
C)poor appetite
D)sinusitis
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62
Match between columns
Premises:
Responses:
excessive carbon dioxide in the blood
metabolic stress
excessive carbon dioxide in the blood
respiratory stress
excessive carbon dioxide in the blood
wasting
excessive carbon dioxide in the blood
multiple organ dysfunction syndrome
excessive carbon dioxide in the blood
counterregulatory hormones
excessive carbon dioxide in the blood
mast cells
excessive carbon dioxide in the blood
inflammatory response
excessive carbon dioxide in the blood
acute-phase response
excessive carbon dioxide in the blood
systemic inflammatory response syndrome (SIRS)
excessive carbon dioxide in the blood
shock
excessive carbon dioxide in the blood
chronic obstructive pulmonary disease
excessive carbon dioxide in the blood
acute respiratory distress syndrome (ARDS)
excessive carbon dioxide in the blood
hypoxemia
excessive carbon dioxide in the blood
hypercapnia
excessive carbon dioxide in the blood
hypoxia
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63
Match between columns
Premises:
Responses:
low level of oxygen in the blood
metabolic stress
low level of oxygen in the blood
respiratory stress
low level of oxygen in the blood
wasting
low level of oxygen in the blood
multiple organ dysfunction syndrome
low level of oxygen in the blood
counterregulatory hormones
low level of oxygen in the blood
mast cells
low level of oxygen in the blood
inflammatory response
low level of oxygen in the blood
acute-phase response
low level of oxygen in the blood
systemic inflammatory response syndrome (SIRS)
low level of oxygen in the blood
shock
low level of oxygen in the blood
chronic obstructive pulmonary disease
low level of oxygen in the blood
acute respiratory distress syndrome (ARDS)
low level of oxygen in the blood
hypoxemia
low level of oxygen in the blood
hypercapnia
low level of oxygen in the blood
hypoxia
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64
Match between columns
Premises:
Responses:
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
metabolic stress
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
respiratory stress
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
wasting
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
multiple organ dysfunction syndrome
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
counterregulatory hormones
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
mast cells
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
inflammatory response
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
acute-phase response
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
systemic inflammatory response syndrome (SIRS)
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
shock
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
chronic obstructive pulmonary disease
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
acute respiratory distress syndrome (ARDS)
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypoxemia
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypercapnia
medical emergency that causes dyspnea and pulmonary edema; usually requires assisted (mechanical)ventilation
hypoxia
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65
Match between columns
Premises:
Responses:
hormones that have metabolic actions that oppose those of insulin
metabolic stress
hormones that have metabolic actions that oppose those of insulin
respiratory stress
hormones that have metabolic actions that oppose those of insulin
wasting
hormones that have metabolic actions that oppose those of insulin
multiple organ dysfunction syndrome
hormones that have metabolic actions that oppose those of insulin
counterregulatory hormones
hormones that have metabolic actions that oppose those of insulin
mast cells
hormones that have metabolic actions that oppose those of insulin
inflammatory response
hormones that have metabolic actions that oppose those of insulin
acute-phase response
hormones that have metabolic actions that oppose those of insulin
systemic inflammatory response syndrome (SIRS)
hormones that have metabolic actions that oppose those of insulin
shock
hormones that have metabolic actions that oppose those of insulin
chronic obstructive pulmonary disease
hormones that have metabolic actions that oppose those of insulin
acute respiratory distress syndrome (ARDS)
hormones that have metabolic actions that oppose those of insulin
hypoxemia
hormones that have metabolic actions that oppose those of insulin
hypercapnia
hormones that have metabolic actions that oppose those of insulin
hypoxia
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66
Match between columns
Premises:
Responses:
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
metabolic stress
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
respiratory stress
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
wasting
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
multiple organ dysfunction syndrome
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
counterregulatory hormones
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
mast cells
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
inflammatory response
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
acute-phase response
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
systemic inflammatory response syndrome (SIRS)
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
shock
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
chronic obstructive pulmonary disease
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
acute respiratory distress syndrome (ARDS)
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypoxemia
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypercapnia
a whole-body response to illness or trauma; characterized by raised heart and respiratory rates, abnormal white blood cell counts, and abnormal body temperature
hypoxia
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67
Match between columns
Premises:
Responses:
the breakdown of lean tissue that results from disease or malnutrition
metabolic stress
the breakdown of lean tissue that results from disease or malnutrition
respiratory stress
the breakdown of lean tissue that results from disease or malnutrition
wasting
the breakdown of lean tissue that results from disease or malnutrition
multiple organ dysfunction syndrome
the breakdown of lean tissue that results from disease or malnutrition
counterregulatory hormones
the breakdown of lean tissue that results from disease or malnutrition
mast cells
the breakdown of lean tissue that results from disease or malnutrition
inflammatory response
the breakdown of lean tissue that results from disease or malnutrition
acute-phase response
the breakdown of lean tissue that results from disease or malnutrition
systemic inflammatory response syndrome (SIRS)
the breakdown of lean tissue that results from disease or malnutrition
shock
the breakdown of lean tissue that results from disease or malnutrition
chronic obstructive pulmonary disease
the breakdown of lean tissue that results from disease or malnutrition
acute respiratory distress syndrome (ARDS)
the breakdown of lean tissue that results from disease or malnutrition
hypoxemia
the breakdown of lean tissue that results from disease or malnutrition
hypercapnia
the breakdown of lean tissue that results from disease or malnutrition
hypoxia
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68
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Many of the medications used to treat COPD can cause gastrointestinal effects such as ____.

A)dry mouth
B)ulcers
C)diarrhea
D)constipation
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69
Match between columns
Premises:
Responses:
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
metabolic stress
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
respiratory stress
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
wasting
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
multiple organ dysfunction syndrome
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
counterregulatory hormones
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
mast cells
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
inflammatory response
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
acute-phase response
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
systemic inflammatory response syndrome (SIRS)
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
shock
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
chronic obstructive pulmonary disease
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
acute respiratory distress syndrome (ARDS)
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypoxemia
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypercapnia
group of lung diseases characterized by persistent obstructed airflow through the lungs and airways
hypoxia
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70
Match between columns
Premises:
Responses:
low amount of oxygen in body tissues
metabolic stress
low amount of oxygen in body tissues
respiratory stress
low amount of oxygen in body tissues
wasting
low amount of oxygen in body tissues
multiple organ dysfunction syndrome
low amount of oxygen in body tissues
counterregulatory hormones
low amount of oxygen in body tissues
mast cells
low amount of oxygen in body tissues
inflammatory response
low amount of oxygen in body tissues
acute-phase response
low amount of oxygen in body tissues
systemic inflammatory response syndrome (SIRS)
low amount of oxygen in body tissues
shock
low amount of oxygen in body tissues
chronic obstructive pulmonary disease
low amount of oxygen in body tissues
acute respiratory distress syndrome (ARDS)
low amount of oxygen in body tissues
hypoxemia
low amount of oxygen in body tissues
hypercapnia
low amount of oxygen in body tissues
hypoxia
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71
Match between columns
Premises:
Responses:
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
metabolic stress
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
respiratory stress
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
wasting
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
multiple organ dysfunction syndrome
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
counterregulatory hormones
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
mast cells
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
inflammatory response
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
acute-phase response
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
systemic inflammatory response syndrome (SIRS)
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
shock
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
chronic obstructive pulmonary disease
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
acute respiratory distress syndrome (ARDS)
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypoxemia
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypercapnia
changes in body chemistry resulting from infection, inflammation, or injury; characterized by alterations in plasma proteins
hypoxia
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72
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. The physician makes several recommendations for Margaret. What would be among these recommendations?

A)high-energy supplements
B)low-protein diet
C)extremely limited exercise
D)reduced fiber intake
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73
Match between columns
Premises:
Responses:
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
metabolic stress
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
respiratory stress
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
wasting
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
multiple organ dysfunction syndrome
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
counterregulatory hormones
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
mast cells
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
inflammatory response
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
acute-phase response
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
systemic inflammatory response syndrome (SIRS)
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
shock
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
chronic obstructive pulmonary disease
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
acute respiratory distress syndrome (ARDS)
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypoxemia
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypercapnia
inadequate gas exchange between the air and blood, resulting in lower oxygen and higher carbon dioxide levels
hypoxia
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74
Match between columns
Premises:
Responses:
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
metabolic stress
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
respiratory stress
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
wasting
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
multiple organ dysfunction syndrome
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
counterregulatory hormones
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
mast cells
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
inflammatory response
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
acute-phase response
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
systemic inflammatory response syndrome (SIRS)
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
shock
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
chronic obstructive pulmonary disease
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
acute respiratory distress syndrome (ARDS)
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypoxemia
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypercapnia
a disruption in the body's chemical environment due to the effects of disease or injury; characterized by changes in metabolic rate, heart rate and blood pressure, hormonal status, and nutrient metabolism
hypoxia
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75
Match between columns
Premises:
Responses:
cells within connective tissue that produce and release histamine
metabolic stress
cells within connective tissue that produce and release histamine
respiratory stress
cells within connective tissue that produce and release histamine
wasting
cells within connective tissue that produce and release histamine
multiple organ dysfunction syndrome
cells within connective tissue that produce and release histamine
counterregulatory hormones
cells within connective tissue that produce and release histamine
mast cells
cells within connective tissue that produce and release histamine
inflammatory response
cells within connective tissue that produce and release histamine
acute-phase response
cells within connective tissue that produce and release histamine
systemic inflammatory response syndrome (SIRS)
cells within connective tissue that produce and release histamine
shock
cells within connective tissue that produce and release histamine
chronic obstructive pulmonary disease
cells within connective tissue that produce and release histamine
acute respiratory distress syndrome (ARDS)
cells within connective tissue that produce and release histamine
hypoxemia
cells within connective tissue that produce and release histamine
hypercapnia
cells within connective tissue that produce and release histamine
hypoxia
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76
Match between columns
Premises:
Responses:
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
metabolic stress
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
respiratory stress
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
wasting
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
multiple organ dysfunction syndrome
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
counterregulatory hormones
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
mast cells
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
inflammatory response
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
acute-phase response
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
systemic inflammatory response syndrome (SIRS)
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
shock
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
chronic obstructive pulmonary disease
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
acute respiratory distress syndrome (ARDS)
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypoxemia
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypercapnia
a severe reduction in blood flow that deprives the body's tissues of oxygen and nutrients
hypoxia
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77
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. What is an example of a corticosteroid that may be prescribed for Margaret?

A)albuterol
B)ipratropium
C)salmeterol
D)fluticasone
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78
Match between columns
Premises:
Responses:
nonspecific responses of the immune system to infection or injury
metabolic stress
nonspecific responses of the immune system to infection or injury
respiratory stress
nonspecific responses of the immune system to infection or injury
wasting
nonspecific responses of the immune system to infection or injury
multiple organ dysfunction syndrome
nonspecific responses of the immune system to infection or injury
counterregulatory hormones
nonspecific responses of the immune system to infection or injury
mast cells
nonspecific responses of the immune system to infection or injury
inflammatory response
nonspecific responses of the immune system to infection or injury
acute-phase response
nonspecific responses of the immune system to infection or injury
systemic inflammatory response syndrome (SIRS)
nonspecific responses of the immune system to infection or injury
shock
nonspecific responses of the immune system to infection or injury
chronic obstructive pulmonary disease
nonspecific responses of the immune system to infection or injury
acute respiratory distress syndrome (ARDS)
nonspecific responses of the immune system to infection or injury
hypoxemia
nonspecific responses of the immune system to infection or injury
hypercapnia
nonspecific responses of the immune system to infection or injury
hypoxia
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79
Match between columns
Premises:
Responses:
failure of more than one organ system that occurs during intensive care; often results in death
metabolic stress
failure of more than one organ system that occurs during intensive care; often results in death
respiratory stress
failure of more than one organ system that occurs during intensive care; often results in death
wasting
failure of more than one organ system that occurs during intensive care; often results in death
multiple organ dysfunction syndrome
failure of more than one organ system that occurs during intensive care; often results in death
counterregulatory hormones
failure of more than one organ system that occurs during intensive care; often results in death
mast cells
failure of more than one organ system that occurs during intensive care; often results in death
inflammatory response
failure of more than one organ system that occurs during intensive care; often results in death
acute-phase response
failure of more than one organ system that occurs during intensive care; often results in death
systemic inflammatory response syndrome (SIRS)
failure of more than one organ system that occurs during intensive care; often results in death
shock
failure of more than one organ system that occurs during intensive care; often results in death
chronic obstructive pulmonary disease
failure of more than one organ system that occurs during intensive care; often results in death
acute respiratory distress syndrome (ARDS)
failure of more than one organ system that occurs during intensive care; often results in death
hypoxemia
failure of more than one organ system that occurs during intensive care; often results in death
hypercapnia
failure of more than one organ system that occurs during intensive care; often results in death
hypoxia
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80
Margaret Chen is a 73-year-old widow and mother of 3 adult children. She visits her physician due to decreased appetite, lethargy, weight loss, and a productive cough for the past 2 weeks. Her past medical history includes osteoporosis, sinusitis, respiratory infections, and smoking. Margaret is prescribed ____ to improve airflow.

A)bronchodilators
B)corticosteroids
C)oxygen
D)an influenza vaccine
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Unlock Deck
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