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NurseDive Free Nursing Practice Question
A client with a history of seizures is scheduled for an electroencephalogram (EEG). Which instruction does the nurse give the client before the test?
A. You may bring some music to listen to for distraction.
You may Bring Some Music to Listen to for Distraction Bringing music for distraction is generally not a standard instruction given before an EEG. While listening to music might help some patients relax, it is not a critical part of the preparation for the test. The primary focus of EEG preparation is to ensure accurate readings of brain activity, which can be influenced by various factors such as medication and sleep.
B. Do not take any sedatives 12 to 24 hours before the test.
Do not Take Any Sedatives 12 to 24 Hours Before the Test Avoiding sedatives before an EEG is crucial because these medications can alter brain activity and affect the test results. Sedatives can suppress the electrical activity in the brain, leading to inaccurate readings. Therefore, it is essential for patients to avoid taking any sedatives 12 to 24 hours before the test to ensure the EEG captures the brain’s natural activity.
C. You will need to have someone to drive you home.
You will Need to Have Someone to Drive You Home This instruction is typically given if the patient is expected to be sedated or if the test involves procedures that might impair their ability to drive. However, for a standard EEG, patients are usually not sedated, and there is no need for someone to drive them home. This instruction is more relevant for other types of medical procedures that involve sedation.
D. Please do not have anything to eat or drink after midnight.
Please Do Not Have Anything to Eat or Drink After Midnight Fasting is not a standard requirement for an EEG. Patients are generally allowed to eat and drink before the test. However, they are often advised to avoid caffeine as it can affect brain activity. The instruction to avoid food and drink after midnight is more commonly associated with procedures that require anesthesia or sedation, not an EEG.
This question is an excerpt from Nurse Dive's nursing test bank - Final Med Surg Comprehensive Proctored Exam (Brooklyn University). Take the full exam now
Full Explanation
Choice A: You May Bring Some Music to Listen to for Distraction
Bringing music for distraction is generally not a standard instruction given before an EEG. While listening to music might help some patients relax, it is not a critical part of the preparation for the test. The primary focus of EEG preparation is to ensure accurate readings of brain activity, which can be influenced by various factors such as medication and sleep.
Choice B: Do Not Take Any Sedatives 12 to 24 Hours Before the Test
Avoiding sedatives before an EEG is crucial because these medications can alter brain activity and affect the test results. Sedatives can suppress the electrical activity in the brain, leading to inaccurate readings. Therefore, it is essential for patients to avoid taking any sedatives 12 to 24 hours before the test to ensure the EEG captures the brain’s natural activity.
Choice C: You Will Need to Have Someone to Drive You Home
This instruction is typically given if the patient is expected to be sedated or if the test involves procedures that might impair their ability to drive. However, for a standard EEG, patients are usually not sedated, and there is no need for someone to drive them home. This instruction is more relevant for other types of medical procedures that involve sedation.
Choice D: Please Do Not Have Anything to Eat or Drink After Midnight
Fasting is not a standard requirement for an EEG. Patients are generally allowed to eat and drink before the test. However, they are often advised to avoid caffeine as it can affect brain activity. The instruction to avoid food and drink after midnight is more commonly associated with procedures that require anesthesia or sedation, not an EEG.
Similar Questions
The nurse is caring for a client who had a hemorrhagic stroke. Which assessment finding is the earliest sign of increasing intracranial pressure (ICP) for this client?
A. Severe hypertension
Severe Hypertension Severe hypertension can be a sign of increased intracranial pressure (ICP), but it is not typically the earliest sign. Hypertension often occurs as a compensatory mechanism to maintain cerebral perfusion pressure. While it is a significant finding, it usually follows other more immediate signs of increased ICP.
B. Dilated and nonreactive pupils
Dilated and Nonreactive Pupils Dilated and nonreactive pupils are a late sign of increased ICP and indicate severe brainstem compression. This finding suggests that the pressure has reached a critical level, leading to brain herniation. It is a very serious sign but not the earliest indicator of increasing ICP.
C. Decreased level of consciousness
Decreased Level of Consciousness A decreased level of consciousness is often the earliest and most sensitive indicator of increasing ICP. Changes in consciousness can range from confusion and lethargy to complete unresponsiveness. This symptom reflects the brain’s response to increased pressure and reduced cerebral perfusion, making it a critical early sign that requires immediate attention.
D. Projectile vomiting
Projectile Vomiting Projectile vomiting can occur with increased ICP due to pressure on the vomiting centers in the brainstem. However, it is not typically the earliest sign. Vomiting often accompanies other symptoms such as headache and changes in consciousness.
E. None
None
F. None
None
Full Explanation
Choice A: Severe Hypertension
Severe hypertension can be a sign of increased intracranial pressure (ICP), but it is not typically the earliest sign. Hypertension often occurs as a compensatory mechanism to maintain cerebral perfusion pressure. While it is a significant finding, it usually follows other more immediate signs of increased ICP.
Choice B: Dilated and Nonreactive Pupils
Dilated and nonreactive pupils are a late sign of increased ICP and indicate severe brainstem compression. This finding suggests that the pressure has reached a critical level, leading to brain herniation. It is a very serious sign but not the earliest indicator of increasing ICP.
Choice C: Decreased Level of Consciousness
A decreased level of consciousness is often the earliest and most sensitive indicator of increasing ICP. Changes in consciousness can range from confusion and lethargy to complete unresponsiveness. This symptom reflects the brain’s response to increased pressure and reduced cerebral perfusion, making it a critical early sign that requires immediate attention.
Choice D: Projectile Vomiting
Projectile vomiting can occur with increased ICP due to pressure on the vomiting centers in the brainstem. However, it is not typically the earliest sign. Vomiting often accompanies other symptoms such as headache and changes in consciousness.
The nurse is taking care of a client diagnosed with advanced liver disease with hepatic encephalopathy. Lactulose (Cephulac) is administered to the patient to reduce which of the following?
A. Ammonia
Lactulose is administered to patients with hepatic encephalopathy to reduce the levels of ammonia in the blood. Hepatic encephalopathy occurs due to the liver’s inability to detoxify ammonia, a byproduct of protein metabolism. Lactulose works by converting ammonia into ammonium, which is then excreted in the stool. This helps to lower blood ammonia levels and alleviate the symptoms of hepatic encephalopathy.
B. Muscle rigidity
e Rigidity Muscle rigidity is one of the hallmark symptoms of Parkinson’s disease. It refers to the stiffness and inflexibility of the muscles, which can affect any part of the body. This rigidity can lead to discomfort and pain, and it contributes to the characteristic stooped posture and shuffling gait seen in Parkinson’s patients.
C. Seizures
Seizures are not typically associated with Parkinson’s disease. While Parkinson’s affects the central nervous system, it primarily impacts motor function rather than causing seizure activity. Therefore, this is not a common finding in Parkinson’s patients.
D. Drooling at times
Drooling, or sialorrhea, is a common symptom in Parkinson’s disease. It occurs due to the decreased ability to swallow saliva, which can result from muscle rigidity and bradykinesia affecting the muscles involved in swallowing. This can be particularly bothersome for patients and may require management strategies.
E. Mask-like facial expression
A mask-like facial expression, also known as hypomimia, is a common feature of Parkinson’s disease. It results from the rigidity and bradykinesia affecting the facial muscles, leading to reduced facial expressions and a fixed, staring appearance.
F. Shuffled gait
A shuffled gait is a characteristic feature of Parkinson’s disease. Patients often take small, shuffling steps and may have difficulty initiating movement. This gait pattern is due to the combination of muscle rigidity, bradykinesia, and postural instability.
Full Explanation
Choice A: Ammonia
Lactulose is administered to patients with hepatic encephalopathy to reduce the levels of ammonia in the blood. Hepatic encephalopathy occurs due to the liver’s inability to detoxify ammonia, a byproduct of protein metabolism. Lactulose works by converting ammonia into ammonium, which is then excreted in the stool. This helps to lower blood ammonia levels and alleviate the symptoms of hepatic encephalopathy.
Choice B: Dysarthria
Dysarthria, or difficulty in articulating words, is a common symptom of Parkinson’s disease. It results from the muscle rigidity and bradykinesia (slowness of movement) that affect the muscles involved in speech. Patients with Parkinson’s often have a soft, monotone voice and may struggle with the clarity of their speech.
Choice C: Muscle Rigidity
Muscle rigidity is one of the hallmark symptoms of Parkinson’s disease. It refers to the stiffness and inflexibility of the muscles, which can affect any part of the body. This rigidity can lead to discomfort and pain, and it contributes to the characteristic stooped posture and shuffling gait seen in Parkinson’s patients.
Choice D: Seizures
Seizures are not typically associated with Parkinson’s disease. While Parkinson’s affects the central nervous system, it primarily impacts motor function rather than causing seizure activity. Therefore, this is not a common finding in Parkinson’s patients.
Choice E: Drooling at Times
Drooling, or sialorrhea, is a common symptom in Parkinson’s disease. It occurs due to the decreased ability to swallow saliva, which can result from muscle rigidity and bradykinesia affecting the muscles involved in swallowing. This can be particularly bothersome for patients and may require management strategies.
Choice F: Mask-like Facial Expression
A mask-like facial expression, also known as hypomimia, is a common feature of Parkinson’s disease. It results from the rigidity and bradykinesia affecting the facial muscles, leading to reduced facial expressions and a fixed, staring appearance.
Choice G: Shuffled Gait
A shuffled gait is a characteristic feature of Parkinson’s disease. Patients often take small, shuffling steps and may have difficulty initiating movement. This gait pattern is due to the combination of muscle rigidity, bradykinesia, and postural instability.
Choice H: Stooped Posture
Stooped posture is another common symptom of Parkinson’s disease. It results from the muscle rigidity and postural instability that affect the patient’s ability to maintain an upright position. This can lead to a forward-leaning posture and balance issues.
A client has been admitted with new-onset status epilepticus. Which seizure precautions would the nurse implement? (Select all that apply.)
A. Suction equipment at the bedside.
: Suction equipment at the bedside. Having suction equipment at the bedside is crucial for a client with status epilepticus. During a seizure, there is a risk of aspiration due to excessive salivation or vomiting. Suction equipment allows the nurse to quickly clear the airway, preventing aspiration and ensuring the client can breathe properly. This precaution is essential to maintain the client’s airway and prevent complications such as aspiration pneumonia.
B. Continuous sedation.
: Continuous sedation. Continuous sedation is not typically a standard precaution for all clients with status epilepticus. While sedation may be necessary in some cases to control seizures, it is not a universal precaution. The primary goal is to stop the seizure activity and stabilize the client. Continuous sedation may be used in specific situations under close medical supervision, but it is not a general precaution that nurses implement for all clients with status epilepticus.
C. Side rails padded.
: Side rails padded. Padding the side rails of the bed is an important precaution to prevent injury during a seizure. Clients experiencing seizures may have uncontrolled movements, which can lead to injury if they hit the hard surfaces of the bed. Padded side rails help to cushion these impacts, reducing the risk of bruises, cuts, or fractures. This precaution is essential for ensuring the client’s safety during seizure activity.
D. Bed in low position.
: Bed in low position. Keeping the bed in a low position is another important safety measure. If a client with status epilepticus were to fall out of bed during a seizure, the lower height reduces the risk of serious injury. This precaution helps to minimize the impact of any potential falls, ensuring the client’s safety. It is a simple yet effective measure to prevent harm during seizure episodes.
E. Intravenous (IV) access.
: Intravenous (IV) access. Establishing intravenous (IV) access is critical for a client with status epilepticus. IV access allows for the rapid administration of medications needed to control seizures and manage the client’s condition. In an emergency, quick access to the bloodstream is essential for delivering life-saving treatments. This precaution ensures that the medical team can promptly and effectively intervene to stop the seizure activity.
Full Explanation
Choice A Reason:
Suction equipment at the bedside.
Having suction equipment at the bedside is crucial for a client with status epilepticus. During a seizure, there is a risk of aspiration due to excessive salivation or vomiting. Suction equipment allows the nurse to quickly clear the airway, preventing aspiration and ensuring the client can breathe properly. This precaution is essential to maintain the client’s airway and prevent complications such as aspiration pneumonia.
Choice B Reason:
Continuous sedation.
Continuous sedation is not typically a standard precaution for all clients with status epilepticus. While sedation may be necessary in some cases to control seizures, it is not a universal precaution. The primary goal is to stop the seizure activity and stabilize the client. Continuous sedation may be used in specific situations under close medical supervision, but it is not a general precaution that nurses implement for all clients with status epilepticus.
Choice C Reason:
Side rails padded.
Padding the side rails of the bed is an important precaution to prevent injury during a seizure. Clients experiencing seizures may have uncontrolled movements, which can lead to injury if they hit the hard surfaces of the bed. Padded side rails help to cushion these impacts, reducing the risk of bruises, cuts, or fractures. This precaution is essential for ensuring the client’s safety during seizure activity.
Choice D Reason:
Bed in low position.
Keeping the bed in a low position is another important safety measure. If a client with status epilepticus were to fall out of bed during a seizure, the lower height reduces the risk of serious injury. This precaution helps to minimize the impact of any potential falls, ensuring the client’s safety. It is a simple yet effective measure to prevent harm during seizure episodes.
Choice E Reason:
Intravenous (IV) access.
Establishing intravenous (IV) access is critical for a client with status epilepticus. IV access allows for the rapid administration of medications needed to control seizures and manage the client’s condition. In an emergency, quick access to the bloodstream is essential for delivering life-saving treatments. This precaution ensures that the medical team can promptly and effectively intervene to stop the seizure activity.