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NurseDive Free Nursing Practice Question
What would be considered early signs/symptoms of pressure injury (Stage 1)?
A. Intact skin with nonblanchable redness, painful,warm, soft localized area over a bony prominence
Intact skin with nonblanchable redness, painful, warm, soft localized area over a bony prominenceStage 1 pressure injuries are characterized by intact skin with nonblanchable redness over a localized area, typically over a bony prominence like the sacrum, heel, or elbow. The skin may feel painful, warm, and soft to the touch. Nonblanchable redness means that when pressure is applied to the area, the redness does not fade or blanch (turn white). This stage indicates that tissue damage has occurred, but the skin is still intact.
B. Shallow, open, shiny, dry injury, pink-red wound bed without sloughing or bruising
Shallow, open, shiny, dry injury, pink-red wound bed without sloughing or bruising: This description is more indicative of a Stage 2 pressure injury, which involves partial-thickness skin loss with an intact or ruptured blister. The wound bed is usually pink or red, and there is no sloughing or bruising.
C. Full-thickness tissue loss, slough and black eschar in wound bed with undermining and tunneling
Full-thickness tissue loss, slough and black eschar in wound bed with undermining and tunneling: This description corresponds to a Stage 3 or Stage 4 pressure injury. Stage 3 involves full-thickness tissue loss with visible subcutaneous fat but no bone, tendon, or muscle exposed. Stage 4 involves extensive tissue loss with exposure of bone, tendon, or muscle. Both stages may include slough (yellow or white tissue) and black eschar (hard, necrotic tissue), along with undermining (tissue destruction under intact skin edges) and tunneling (narrow passageways extending from the wound).
D. Full-thickness tissue loss, subcutaneous fat visible, possible undermining and tunneling
Full-thickness tissue loss, subcutaneous fat visible, possible undermining and tunneling: This description also corresponds to a Stage 3 pressure injury, as it involves full-thickness tissue loss with visible subcutaneous fat. The mention of possible undermining and tunneling further suggests a Stage 3 pressure injury.
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Full Explanation
A. Intact skin with nonblanchable redness, painful, warm, soft localized area over a bony prominence
Stage 1 pressure injuries are characterized by intact skin with nonblanchable redness over a localized area, typically over a bony prominence like the sacrum, heel, or elbow. The skin may feel painful, warm, and soft to the touch. Nonblanchable redness means that when pressure is applied to the area, the redness does not fade or blanch (turn white). This stage indicates that tissue damage has occurred, but the skin is still intact.
B. Shallow, open, shiny, dry injury, pink-red wound bed without sloughing or bruising: This description is more indicative of a Stage 2 pressure injury, which involves partial-thickness skin loss with an intact or ruptured blister. The wound bed is usually pink or red, and there is no sloughing or bruising.
C. Full-thickness tissue loss, slough and black eschar in wound bed with undermining and tunneling: This description corresponds to a Stage 3 or Stage 4 pressure injury. Stage 3 involves full-thickness tissue loss with visible subcutaneous fat but no bone, tendon, or muscle exposed. Stage 4 involves extensive tissue loss with exposure of bone, tendon, or muscle. Both stages may include slough (yellow or white tissue) and black eschar (hard, necrotic tissue), along with undermining (tissue destruction under intact skin edges) and tunneling (narrow passageways extending from the wound).
D. Full-thickness tissue loss, subcutaneous fat visible, possible undermining and tunneling: This description also corresponds to a Stage 3 pressure injury, as it involves full-thickness tissue loss with visible subcutaneous fat. The mention of possible undermining and tunneling further suggests a Stage 3 pressure injury.
Similar Questions
A nurse is caring for several clients. Which of the following clients is most prone to skin infections?
A. A 60 year old client with gastritis
A 60-year-old client with gastritis:Gastritis is inflammation of the stomach lining and typically does not directly increase the risk of skin infections. However, if the gastritis is due to an underlying condition that affects the immune system, such as an autoimmune disorder, the client may have a slightly higher risk of infections, including skin infections, compared to a healthy individual of the same age. Overall, gastritis alone is not a significant risk factor for skin infections compared to the other options.
B. A 20 year old client with closed tibia fracture
A 20-year-old client with a closed tibia fracture:A closed tibia fracture refers to a broken shinbone that does not break the skin. While fractures themselves do not necessarily increase the risk of skin infections, they can indirectly contribute to infection risk if there are complications such as open wounds, surgical procedures, or prolonged immobilization. In this case, because the fracture is closed and presumably not complicated by open wounds or surgery, this client is not significantly prone to skin infections compared to the other options.
C. A 55 year old client taking an ACE inhibitor
A 55-year-old client taking an ACE inhibitor: ACE (angiotensin-converting enzyme) inhibitors are medications commonly used to treat conditions like high blood pressure and heart failure. While these medications can cause side effects like a dry cough or skin rash in some individuals, they do not directly increase the risk of skin infections. Unless the client experiences a severe allergic reaction or develops a rash that becomes infected, the use of ACE inhibitors alone is not a major risk factor for skin infections compared to the other options.
D. A 35 year old client receiving chemotherapy
A 35-year-old client receiving chemotherapy:Chemotherapy is a treatment for cancer that works by targeting rapidly dividing cells, including cancer cells but also affecting some healthy cells like those in the bone marrow responsible for producing white blood cells. As a result, chemotherapy can significantly weaken the immune system, leading to a higher risk of infections, including skin infections. Patients undergoing chemotherapy are particularly susceptible to bacterial, fungal, and viral infections due to their compromised immune response. Therefore, the 35-year-old client receiving chemotherapy is the most prone to skin infections among the options given due to their weakened immune system.
Full Explanation
A. A 60-year-old client with gastritis:
Gastritis is inflammation of the stomach lining and typically does not directly increase the risk of skin infections. However, if the gastritis is due to an underlying condition that affects the immune system, such as an autoimmune disorder, the client may have a slightly higher risk of infections, including skin infections, compared to a healthy individual of the same age. Overall, gastritis alone is not a significant risk factor for skin infections compared to the other options.
B. A 20-year-old client with a closed tibia fracture:
A closed tibia fracture refers to a broken shinbone that does not break the skin. While fractures themselves do not necessarily increase the risk of skin infections, they can indirectly contribute to infection risk if there are complications such as open wounds, surgical procedures, or prolonged immobilization. In this case, because the fracture is closed and presumably not complicated by open wounds or surgery, this client is not significantly prone to skin infections compared to the other options.
C. A 55-year-old client taking an ACE inhibitor:
ACE (angiotensin-converting enzyme) inhibitors are medications commonly used to treat conditions like high blood pressure and heart failure. While these medications can cause side effects like a dry cough or skin rash in some individuals, they do not directly increase the risk of skin infections. Unless the client experiences a severe allergic reaction or develops a rash that becomes infected, the use of ACE inhibitors alone is not a major risk factor for skin infections compared to the other options.
D. A 35-year-old client receiving chemotherapy:
Chemotherapy is a treatment for cancer that works by targeting rapidly dividing cells, including cancer cells but also affecting some healthy cells like those in the bone marrow responsible for producing white blood cells. As a result, chemotherapy can significantly weaken the immune system, leading to a higher risk of infections, including skin infections. Patients undergoing chemotherapy are particularly susceptible to bacterial, fungal, and viral infections due to their compromised immune response. Therefore, the 35-year-old client receiving chemotherapy is the most prone to skin infections among the options given due to their weakened immune system.
A nurse cares for a patient who has a serum potassium of 7.5 mEq/L and is exhibiting cardiovascular changes. Which should the nurse implement first?
A. Provide a heart healthy low potassium diet
Provide a heart-healthy low-potassium diet:While a heart-healthy low-potassium diet is essential for managing chronic hyperkalemia and preventing future occurrences, it is not the first intervention to implement in a patient with a serum potassium level of 7.5 mEq/L and exhibiting cardiovascular changes. The effects of dietary changes on serum potassium levels are gradual and may take days to have a significant impact. In an acute situation like this, immediate interventions are needed to rapidly lower potassium levels and address the associated cardiovascular risks.
B. Prepare to administer sodium polystyrene sulfate 15g by mouth
Prepare to administer sodium polystyrene sulfate 15g by mouth:Sodium polystyrene sulfate is a medication used to exchange sodium for potassium in the gastrointestinal tract, effectively lowering serum potassium levels over hours to days. While it is a valid treatment for hyperkalemia, its onset of action is not immediate enough to address the urgent cardiovascular changes seen in severe hyperkalemia. Therefore, it is not the first-line intervention in this scenario.
C. Prepare the patient for hemodialysis treatment
Prepare the patient for hemodialysis treatment: Hemodialysis is an effective method for rapidly lowering serum potassium levels in cases of severe hyperkalemia. However, it is a more invasive and time-consuming procedure that requires preparation, including vascular access and dialysis setup. It is typically reserved for situations where other interventions have failed or in patients with severe or refractory hyperkalemia. In the context of this scenario, where the patient has a serum potassium level of 7.5 mEq/L and is exhibiting cardiovascular changes, hemodialysis may be considered if initial interventions are not successful, but it is not the first action to implement.
D. Prepare to administer dextrose 20% and 10 units of regular insulin IV push
Full Explanation
A. Provide a heart-healthy low-potassium diet:
While a heart-healthy low-potassium diet is essential for managing chronic hyperkalemia and preventing future occurrences, it is not the first intervention to implement in a patient with a serum potassium level of 7.5 mEq/L and exhibiting cardiovascular changes. The effects of dietary changes on serum potassium levels are gradual and may take days to have a significant impact. In an acute situation like this, immediate interventions are needed to rapidly lower potassium levels and address the associated cardiovascular risks.
B. Prepare to administer sodium polystyrene sulfate 15g by mouth:
Sodium polystyrene sulfate is a medication used to exchange sodium for potassium in the gastrointestinal tract, effectively lowering serum potassium levels over hours to days. While it is a valid treatment for hyperkalemia, its onset of action is not immediate enough to address the urgent cardiovascular changes seen in severe hyperkalemia. Therefore, it is not the first-line intervention in this scenario.
C. Prepare the patient for hemodialysis treatment:
Hemodialysis is an effective method for rapidly lowering serum potassium levels in cases of severe hyperkalemia. However, it is a more invasive and time-consuming procedure that requires preparation, including vascular access and dialysis setup. It is typically reserved for situations where other interventions have failed or in patients with severe or refractory hyperkalemia. In the context of this scenario, where the patient has a serum potassium level of 7.5 mEq/L and is exhibiting cardiovascular changes, hemodialysis may be considered if initial interventions are not successful, but it is not the first action to implement.
A nurse is caring for a patient who has the following arterial blood values: pH 7.12, PaO 56 mm Hg, PaCO 65 mm Hg, and HCO - 22 mEq/L (22 mmol/L). Which clinical situation does the nurse correlate with these values?
A. Diabetic ketoacidosis in a person with emphysema
Diabetic ketoacidosis (DKA) in a person with emphysema:In DKA, there is typically metabolic acidosis due to the accumulation of ketones in the blood, leading to a decrease in pH. However, the respiratory compensation mechanism in DKA usually results in a decreased PaCO2 (respiratory alkalosis) rather than an elevated PaCO2 as seen in the blood gas values provided. Additionally, emphysema is associated with chronic respiratory acidosis, not respiratory alkalosis as indicated by the elevated PaCO2.
B. Diarrhea for 36 hours in an older, frail woman
Diarrhea for 36 hours in an older, frail woman:Prolonged diarrhea can lead to metabolic acidosis due to the loss of bicarbonate through the gastrointestinal tract. The pH of 7.12 and the decreased HCO3- (22 mEq/L) suggest metabolic acidosis. However, the elevated PaCO2 (respiratory acidosis) is not consistent with pure metabolic acidosis caused by diarrhea. Respiratory acidosis typically occurs due to hypoventilation or respiratory dysfunction.
C. Anxiety-induced hyperventiIation in an adolescent
Anxiety-induced hyperventilation in an adolescent: Anxiety-induced hyperventilation can lead to respiratory alkalosis due to excessive blowing off of CO2, resulting in a decrease in PaCO2. The pH of 7.12 is consistent with acidosis, but the elevated PaCO2 contradicts respiratory alkalosis. Anxiety-induced hyperventilation would typically result in a higher pH and lower PaCO2.
D. Bronchial obstruction related to aspiration of a hot dog
Bronchial obstruction related to aspiration of a hot dog:A bronchial obstruction causing inadequate ventilation can lead to respiratory acidosis due to CO2 retention. The pH of 7.12 and the elevated PaCO2 (65 mm Hg) indicate respiratory acidosis. This situation is consistent with the blood gas values provided.
Full Explanation
A. Diabetic ketoacidosis (DKA) in a person with emphysema:
In DKA, there is typically metabolic acidosis due to the accumulation of ketones in the blood, leading to a decrease in pH. However, the respiratory compensation mechanism in DKA usually results in a decreased PaCO2 (respiratory alkalosis) rather than an elevated PaCO2 as seen in the blood gas values provided. Additionally, emphysema is associated with chronic respiratory acidosis, not respiratory alkalosis as indicated by the elevated PaCO2.
B. Diarrhea for 36 hours in an older, frail woman:
Prolonged diarrhea can lead to metabolic acidosis due to the loss of bicarbonate through the gastrointestinal tract. The pH of 7.12 and the decreased HCO3- (22 mEq/L) suggest metabolic acidosis. However, the elevated PaCO2 (respiratory acidosis) is not consistent with pure metabolic acidosis caused by diarrhea. Respiratory acidosis typically occurs due to hypoventilation or respiratory dysfunction.
C. Anxiety-induced hyperventilation in an adolescent:
Anxiety-induced hyperventilation can lead to respiratory alkalosis due to excessive blowing off of CO2, resulting in a decrease in PaCO2. The pH of 7.12 is consistent with acidosis, but the elevated PaCO2 contradicts respiratory alkalosis. Anxiety-induced hyperventilation would typically result in a higher pH and lower PaCO2.
D. Bronchial obstruction related to aspiration of a hot dog:
A bronchial obstruction causing inadequate ventilation can lead to respiratory acidosis due to CO2 retention. The pH of 7.12 and the elevated PaCO2 (65 mm Hg) indicate respiratory acidosis. This situation is consistent with the blood gas values provided.