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  • Question 1 - A 30-year-old woman is brought into resus following a car accident. She is...

    Incorrect

    • A 30-year-old woman is brought into resus following a car accident. She is experiencing difficulty breathing, and you are unable to hear breath sounds on the left-hand side. Her trachea is deviated to the right, and her neck veins are distended. You make a clinical diagnosis of a tension pneumothorax and decide to perform a needle thoracocentesis.
      At which anatomical landmark should this procedure be performed?

      Your Answer: 2nd intercostal space midclavicular line

      Correct Answer: 5th intercostal space midaxillary line

      Explanation:

      A tension pneumothorax occurs when there is an air leak from the lung or chest wall that acts like a one-way valve. This causes air to build up in the pleural space without any way to escape. As a result, pressure in the pleural space increases and pushes the mediastinum into the opposite hemithorax. If left untreated, this can lead to cardiovascular instability, shock, and cardiac arrest.

      The clinical features of tension pneumothorax include respiratory distress and cardiovascular instability. Tracheal deviation away from the side of the injury, unilateral absence of breath sounds on the affected side, and a hyper-resonant percussion note are also characteristic. Other signs include distended neck veins and cyanosis, which is a late sign. It’s important to note that both tension pneumothorax and massive haemothorax can cause decreased breath sounds on auscultation. However, percussion can help differentiate between the two conditions. Hyper-resonance suggests tension pneumothorax, while dullness suggests a massive haemothorax.

      Tension pneumothorax is a clinical diagnosis and should not be delayed for radiological confirmation. Requesting a chest X-ray in this situation can delay treatment and put the patient at risk. Immediate decompression through needle thoracocentesis is the recommended treatment. Traditionally, a large-bore needle or cannula is inserted into the 2nd intercostal space in the midclavicular line of the affected hemithorax. However, studies on cadavers have shown better success in reaching the thoracic cavity when the 4th or 5th intercostal space in the midaxillary line is used in adult patients. ATLS now recommends this location for needle decompression in adults. The site for needle thoracocentesis in children remains the same, using the 2nd intercostal space in the midclavicular line. It’s important to remember that needle thoracocentesis is a temporary measure, and the insertion of a chest drain is the definitive treatment.

    • This question is part of the following fields:

      • Resus
      12.9
      Seconds
  • Question 2 - The triage nurse contacts you to urgently evaluate a 5-year-old child who seems...

    Incorrect

    • The triage nurse contacts you to urgently evaluate a 5-year-old child who seems to be experiencing an anaphylactic reaction. You concur with the assessment and decide to administer adrenaline. What is the appropriate dosage of adrenaline to give to this patient?

      Your Answer: 500 micrograms (0.5ml 1 in 1,000) by intramuscular injection

      Correct Answer: 150 micrograms (0.15 ml 1 in 1,000) by intramuscular injection

      Explanation:

      Anaphylaxis is a severe and life-threatening hypersensitivity reaction that can have sudden onset and progression. It is characterized by skin or mucosal changes and can lead to life-threatening airway, breathing, or circulatory problems. Anaphylaxis can be allergic or non-allergic in nature.

      In allergic anaphylaxis, there is an immediate hypersensitivity reaction where an antigen stimulates the production of IgE antibodies. These antibodies bind to mast cells and basophils. Upon re-exposure to the antigen, the IgE-covered cells release histamine and other inflammatory mediators, causing smooth muscle contraction and vasodilation.

      Non-allergic anaphylaxis occurs when mast cells degrade due to a non-immune mediator. The clinical outcome is the same as in allergic anaphylaxis.

      The management of anaphylaxis is the same regardless of the cause. Adrenaline is the most important drug and should be administered as soon as possible. The recommended doses for adrenaline vary based on age. Other treatments include high flow oxygen and an IV fluid challenge. Corticosteroids and chlorpheniramine are no longer recommended, while non-sedating antihistamines may be considered as third-line treatment after initial stabilization of airway, breathing, and circulation.

      Common causes of anaphylaxis include food (such as nuts, which is the most common cause in children), drugs, and venom (such as wasp stings). Sometimes it can be challenging to determine if a patient had a true episode of anaphylaxis. In such cases, serum tryptase levels may be measured, as they remain elevated for up to 12 hours following an acute episode of anaphylaxis.

      The Resuscitation Council (UK) provides guidelines for the management of anaphylaxis, including a visual algorithm that outlines the recommended steps for treatment.
      https://www.resus.org.uk/sites/default/files/2021-05/Emergency%20Treatment%20of%20Anaphylaxis%20May%202021_0.pdf

    • This question is part of the following fields:

      • Resus
      0.2
      Seconds
  • Question 3 - You are a member of the trauma team and have been assigned the...

    Incorrect

    • You are a member of the trauma team and have been assigned the task of inserting an arterial line into the right radial artery. When inserting the radial artery line, what is the angle at which the catheter needle is initially advanced in relation to the skin?

      Your Answer: 20-30 degrees

      Correct Answer: 30-45 degrees

      Explanation:

      The arterial line needle is inserted into the skin at an angle between 30 and 45 degrees. For a more detailed demonstration, please refer to the video provided in the media links section.

      Further Reading:

      Arterial line insertion is a procedure used to monitor arterial blood pressure continuously and obtain frequent blood gas samples. It is typically done when non-invasive blood pressure monitoring is not possible or when there is an anticipation of hemodynamic instability. The most common site for arterial line insertion is the radial artery, although other sites such as the ulnar, brachial, axillary, posterior tibial, femoral, and dorsalis pedis arteries can also be used.

      The radial artery is preferred for arterial line insertion due to its superficial location, ease of identification and access, and lower complication rate compared to other sites. Before inserting the arterial line, it is important to perform Allen’s test to check for collateral circulation to the hand.

      The procedure begins by identifying the artery by palpating the pulse at the wrist and confirming its position with doppler ultrasound if necessary. The wrist is then positioned dorsiflexed, and the skin is prepared and aseptic technique is maintained throughout the procedure. Local anesthesia is infiltrated at the insertion site, and the catheter needle is inserted at an angle of 30-45 degrees to the skin. Once flashback of pulsatile blood is seen, the catheter angle is flattened and advanced a few millimeters into the artery. Alternatively, a guide wire can be used with an over the wire technique.

      After the catheter is advanced, the needle is withdrawn, and the catheter is connected to the transducer system and secured in place with sutures. It is important to be aware of absolute and relative contraindications to arterial line placement, as well as potential complications such as infection, thrombosis, hemorrhage, emboli, pseudo-aneurysm formation, AV fistula formation, arterial dissection, and nerve injury/compression.

      Overall, arterial line insertion is a valuable procedure for continuous arterial blood pressure monitoring and frequent blood gas sampling, and the radial artery is the most commonly used site due to its accessibility and lower complication rate.

    • This question is part of the following fields:

      • Resus
      1.1
      Seconds
  • Question 4 - You are caring for a 72-year-old patient with a history of COPD who...

    Incorrect

    • You are caring for a 72-year-old patient with a history of COPD who has been admitted to the emergency department (ED) due to worsening shortness of breath and suspected sepsis. You are planning to perform an arterial blood gas (ABG) test by puncturing the radial artery. What solution should you use to cleanse the intended puncture site before obtaining the sample?

      Your Answer: 50% Povidone-iodine

      Correct Answer: 70% Alcohol

      Explanation:

      Before performing arterial blood gas sampling, it is necessary to disinfect the skin. This is typically done using alcohol, which should be applied and given enough time to dry completely before proceeding with the skin puncture. In the UK, it is common to use solutions that combine alcohol with Chlorhexidine, such as Chloraprep® (2).

      Further Reading:

      Arterial blood gases (ABG) are an important diagnostic tool used to assess a patient’s acid-base status and respiratory function. When obtaining an ABG sample, it is crucial to prioritize safety measures to minimize the risk of infection and harm to the patient. This includes performing hand hygiene before and after the procedure, wearing gloves and protective equipment, disinfecting the puncture site with alcohol, using safety needles when available, and properly disposing of equipment in sharps bins and contaminated waste bins.

      To reduce the risk of harm to the patient, it is important to test for collateral circulation using the modified Allen test for radial artery puncture. Additionally, it is essential to inquire about any occlusive vascular conditions or anticoagulation therapy that may affect the procedure. The puncture site should be checked for signs of infection, injury, or previous surgery. After the test, pressure should be applied to the puncture site or the patient should be advised to apply pressure for at least 5 minutes to prevent bleeding.

      Interpreting ABG results requires a systematic approach. The core set of results obtained from a blood gas analyser includes the partial pressures of oxygen and carbon dioxide, pH, bicarbonate concentration, and base excess. These values are used to assess the patient’s acid-base status.

      The pH value indicates whether the patient is in acidosis, alkalosis, or within the normal range. A pH less than 7.35 indicates acidosis, while a pH greater than 7.45 indicates alkalosis.

      The respiratory system is assessed by looking at the partial pressure of carbon dioxide (pCO2). An elevated pCO2 contributes to acidosis, while a low pCO2 contributes to alkalosis.

      The metabolic aspect is assessed by looking at the bicarbonate (HCO3-) level and the base excess. A high bicarbonate concentration and base excess indicate alkalosis, while a low bicarbonate concentration and base excess indicate acidosis.

      Analyzing the pCO2 and base excess values can help determine the primary disturbance and whether compensation is occurring. For example, a respiratory acidosis (elevated pCO2) may be accompanied by metabolic alkalosis (elevated base excess) as a compensatory response.

      The anion gap is another important parameter that can help determine the cause of acidosis. It is calculated by subtracting the sum of chloride and bicarbonate from the sum of sodium and potassium.

    • This question is part of the following fields:

      • Resus
      1.1
      Seconds
  • Question 5 - A 32 year old male presents to the emergency department complaining of sudden...

    Incorrect

    • A 32 year old male presents to the emergency department complaining of sudden shortness of breath. While being assessed by the nurse, the patient mentions that he is currently 28 weeks into his partner's pregnancy. Suddenly, the patient collapses and the nurse urgently calls for your assistance. Upon examination, you find that the patient has no detectable pulse and is not breathing. You make the decision to initiate cardiopulmonary resuscitation (CPR). What is the most likely reversible cause of cardiac arrest that this patient is at a high risk for?

      Your Answer: Hypovolaemia

      Correct Answer: Thrombosis

      Explanation:

      Pregnant or postpartum women have a significantly higher risk of developing a venous thrombosis compared to women who are not pregnant. In fact, their risk is 10 times greater. Specifically, pregnant or postpartum women have a 1 in 500 chance of developing a venous thrombosis, whereas non-pregnant women have a much lower risk of 1 in 5000. It is important to remember the reversible causes of cardiac arrest, which are categorized as the 4 T’s and the 4 H’s, as mentioned in the notes below the algorithm.

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

    • This question is part of the following fields:

      • Resus
      0.4
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  • Question 6 - A 35 year old male is brought into the emergency department with burns...

    Incorrect

    • A 35 year old male is brought into the emergency department with burns to the face and neck. It is decided to insert a central line into the femoral vein.

      What is the positioning of the femoral vein in relation to the femoral artery?

      Your Answer: The femoral vein lies immediately lateral to the femoral artery

      Correct Answer: The femoral vein lies immediately medial to the femoral artery

      Explanation:

      A central venous catheter (CVC) is a type of catheter that is inserted into a large vein in the body, typically in the neck, chest, or groin. It has several important uses, including CVP monitoring, pulmonary artery pressure monitoring, repeated blood sampling, IV access for large volumes of fluids or drugs, TPN administration, dialysis, pacing, and other procedures such as placement of IVC filters or venous stents.

      When inserting a central line, it is ideal to use ultrasound guidance to ensure accurate placement. However, there are certain contraindications to central line insertion, including infection or injury to the planned access site, coagulopathy, thrombosis or stenosis of the intended vein, a combative patient, or raised intracranial pressure for jugular venous lines.

      The most common approaches for central line insertion are the internal jugular, subclavian, femoral, and PICC (peripherally inserted central catheter) veins. The internal jugular vein is often chosen due to its proximity to the carotid artery, but variations in anatomy can occur. Ultrasound can be used to identify the vessels and guide catheter placement, with the IJV typically lying superficial and lateral to the carotid artery. Compression and Valsalva maneuvers can help distinguish between arterial and venous structures, and doppler color flow can highlight the direction of flow.

      In terms of choosing a side for central line insertion, the right side is usually preferred to avoid the risk of injury to the thoracic duct and potential chylothorax. However, the left side can also be used depending on the clinical situation.

      Femoral central lines are another option for central venous access, with the catheter being inserted into the femoral vein in the groin. Local anesthesia is typically used to establish a field block, with lidocaine being the most commonly used agent. Lidocaine works by blocking sodium channels and preventing the propagation of action potentials.

      In summary, central venous catheters have various important uses and should ideally be inserted using ultrasound guidance. There are contraindications to their insertion, and different approaches can be used depending on the clinical situation. Local anesthesia is commonly used for central line insertion, with lidocaine being the preferred agent.

    • This question is part of the following fields:

      • Resus
      0.5
      Seconds
  • Question 7 - You are called into the emergency room to assist with multiple trauma patients...

    Correct

    • You are called into the emergency room to assist with multiple trauma patients after a car accident. The patient you are assigned to has significant bruising on their chest, muffled heart sounds, and low blood pressure despite receiving fluids. During an ultrasound scan, a large buildup of fluid around the heart is observed. Due to the high number of injured individuals, the cardiac surgery team is unable to immediately take the patient to the operating room. You are given the task of performing a pericardiocentesis. Which of the following changes in the patient's electrocardiogram (ECG) would indicate that the needle has been successfully inserted into the ventricle?

      Your Answer: ST elevation

      Explanation:

      ST elevation and ventricular ectopics indicate that the needle has made contact with the ventricle. In such cases, it is recommended to retract the needle until the ECG pattern returns to its normal baseline.

      Further Reading:

      Cardiac tamponade, also known as pericardial tamponade, occurs when fluid accumulates in the pericardial sac and compresses the heart, leading to compromised blood flow. Classic clinical signs of cardiac tamponade include distended neck veins, hypotension, muffled heart sounds, and pulseless electrical activity (PEA). Diagnosis is typically done through a FAST scan or an echocardiogram.

      Management of cardiac tamponade involves assessing for other injuries, administering IV fluids to reduce preload, performing pericardiocentesis (inserting a needle into the pericardial cavity to drain fluid), and potentially performing a thoracotomy. It is important to note that untreated expanding cardiac tamponade can progress to PEA cardiac arrest.

      Pericardiocentesis can be done using the subxiphoid approach or by inserting a needle between the 5th and 6th intercostal spaces at the left sternal border. Echo guidance is the gold standard for pericardiocentesis, but it may not be available in a resuscitation situation. Complications of pericardiocentesis include ST elevation or ventricular ectopics, myocardial perforation, bleeding, pneumothorax, arrhythmia, acute pulmonary edema, and acute ventricular dilatation.

      It is important to note that pericardiocentesis is typically used as a temporary measure until a thoracotomy can be performed. Recent articles published on the RCEM learning platform suggest that pericardiocentesis has a low success rate and may delay thoracotomy, so it is advised against unless there are no other options available.

    • This question is part of the following fields:

      • Resus
      0.4
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  • Question 8 - A 68 year old female is brought into the emergency department by family...

    Incorrect

    • A 68 year old female is brought into the emergency department by family members after complaining of chest discomfort while having a glass of wine with them at home. During triage, the patient suddenly loses consciousness and becomes non-responsive. The triage nurse immediately calls for assistance and starts performing CPR. Upon your arrival, you connect the defibrillator leads and briefly pause CPR to assess the heart rhythm. Which of the following cardiac rhythms can be treated with defibrillation?

      Your Answer: Asystole

      Correct Answer: Ventricular fibrillation

      Explanation:

      Defibrillation is a procedure used to treat two specific cardiac rhythms, ventricular fibrillation and pulseless ventricular tachycardia. It involves delivering an electrical shock randomly during the cardiac cycle to restore a normal heart rhythm. It is important to note that defibrillation is different from cardioversion, which involves delivering energy synchronized to the QRS complex.

      Further Reading:

      In the event of an adult experiencing cardiorespiratory arrest, it is crucial for doctors to be familiar with the Advanced Life Support (ALS) algorithm. They should also be knowledgeable about the proper technique for chest compressions, the appropriate rhythms for defibrillation, the reversible causes of arrest, and the drugs used in advanced life support.

      During chest compressions, the rate should be between 100-120 compressions per minute, with a depth of compression of 5-6 cm. The ratio of chest compressions to rescue breaths should be 30:2. It is important to change the person giving compressions regularly to prevent fatigue.

      There are two shockable ECG rhythms that doctors should be aware of: ventricular fibrillation (VF) and pulseless ventricular tachycardia (pVT). These rhythms require defibrillation.

      There are four reversible causes of cardiorespiratory arrest, known as the 4 H’s and 4 T’s. The 4 H’s include hypoxia, hypovolemia, hypo or hyperkalemia or metabolic abnormalities, and hypothermia. The 4 T’s include thrombosis (coronary or pulmonary), tension pneumothorax, tamponade, and toxins. Identifying and treating these reversible causes is crucial for successful resuscitation.

      When it comes to resus drugs, they are considered of secondary importance during CPR due to the lack of high-quality evidence for their efficacy. However, adrenaline (epinephrine) and amiodarone are the two drugs included in the ALS algorithm. Doctors should be familiar with the dosing, route, and timing of administration for both drugs.

      Adrenaline should be administered intravenously at a concentration of 1 in 10,000 (100 micrograms/mL). It should be repeated every 3-5 minutes. Amiodarone is initially given at a dose of 300 mg, either from a pre-filled syringe or diluted in 20 mL of Glucose 5%. If required, an additional dose of 150 mg can be given by intravenous injection. This is followed by an intravenous infusion of 900 mg over 24 hours. The first dose of amiodarone is given after 3 shocks.

    • This question is part of the following fields:

      • Resus
      0.4
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  • Question 9 - You are resuscitating a 38-year-old male patient with extensive burns. Your attending physician...

    Correct

    • You are resuscitating a 38-year-old male patient with extensive burns. Your attending physician requests you to insert a femoral central venous line. How should the patient be positioned for this procedure?

      Your Answer: Patient supine with slight abduction and external rotation of thigh/hip

      Explanation:

      To insert a femoral line, the patient should be lying on their back with a pillow placed under their buttocks to elevate the groin area. The thigh should be slightly moved away from the body and rotated outward.

      Further Reading:

      A central venous catheter (CVC) is a type of catheter that is inserted into a large vein in the body, typically in the neck, chest, or groin. It has several important uses, including CVP monitoring, pulmonary artery pressure monitoring, repeated blood sampling, IV access for large volumes of fluids or drugs, TPN administration, dialysis, pacing, and other procedures such as placement of IVC filters or venous stents.

      When inserting a central line, it is ideal to use ultrasound guidance to ensure accurate placement. However, there are certain contraindications to central line insertion, including infection or injury to the planned access site, coagulopathy, thrombosis or stenosis of the intended vein, a combative patient, or raised intracranial pressure for jugular venous lines.

      The most common approaches for central line insertion are the internal jugular, subclavian, femoral, and PICC (peripherally inserted central catheter) veins. The internal jugular vein is often chosen due to its proximity to the carotid artery, but variations in anatomy can occur. Ultrasound can be used to identify the vessels and guide catheter placement, with the IJV typically lying superficial and lateral to the carotid artery. Compression and Valsalva maneuvers can help distinguish between arterial and venous structures, and doppler color flow can highlight the direction of flow.

      In terms of choosing a side for central line insertion, the right side is usually preferred to avoid the risk of injury to the thoracic duct and potential chylothorax. However, the left side can also be used depending on the clinical situation.

      Femoral central lines are another option for central venous access, with the catheter being inserted into the femoral vein in the groin. Local anesthesia is typically used to establish a field block, with lidocaine being the most commonly used agent. Lidocaine works by blocking sodium channels and preventing the propagation of action potentials.

      In summary, central venous catheters have various important uses and should ideally be inserted using ultrasound guidance. There are contraindications to their insertion, and different approaches can be used depending on the clinical situation. Local anesthesia is commonly used for central line insertion, with lidocaine being the preferred agent.

    • This question is part of the following fields:

      • Resus
      0.8
      Seconds
  • Question 10 - A 42 year old male is brought into the ED resuscitation room. The...

    Correct

    • A 42 year old male is brought into the ED resuscitation room. The paramedics report the patient was discovered outdoors and unconscious. CPR was initiated in the ambulance. You observe that the patient is hypothermic with a temperature of 30.4ºC. What modifications would you make to the management of cardio-respiratory arrest based on this finding?

      Your Answer: Pulse check for up to 1 minute

      Explanation:

      In patients with hypothermia, the pulse check during CPR should be extended to 1 minute. Additionally, several adjustments need to be made to the CPR protocol. Firstly, mechanical ventilation should be used due to the stiffness of the chest wall. Secondly, the dosing or omission of cardiac arrest drugs should be adjusted based on the patient’s temperature. The defibrillation pattern should also be modified, with 3 shocks attempted before re-attempting defibrillation only when the body temperature is above 30ºC. Certain electrolyte disturbances, such as mild hypokalemia, should not be treated as potassium levels typically rise with Rewarming. It is important to plan for prolonged resuscitation in these cases. Lastly, uncorrected ABG results should be used, without adjusting for temperature.

      Further Reading:

      Hypothermic cardiac arrest is a rare situation that requires a tailored approach. Resuscitation is typically prolonged, but the prognosis for young, previously healthy individuals can be good. Hypothermic cardiac arrest may be associated with drowning. Hypothermia is defined as a core temperature below 35ºC and can be graded as mild, moderate, severe, or profound based on the core temperature. When the core temperature drops, basal metabolic rate falls and cell signaling between neurons decreases, leading to reduced tissue perfusion. Signs and symptoms of hypothermia progress as the core temperature drops, initially presenting as compensatory increases in heart rate and shivering, but eventually ceasing as the temperature drops into moderate hypothermia territory.

      ECG changes associated with hypothermia include bradyarrhythmias, Osborn waves, prolonged PR, QRS, and QT intervals, shivering artifact, ventricular ectopics, and cardiac arrest. When managing hypothermic cardiac arrest, ALS should be initiated as per the standard ALS algorithm, but with modifications. It is important to check for signs of life, re-warm the patient, consider mechanical ventilation due to chest wall stiffness, adjust dosing or withhold drugs due to slowed drug metabolism, and correct electrolyte disturbances. The resuscitation of hypothermic patients is often prolonged and may continue for a number of hours.

      Pulse checks during CPR may be difficult due to low blood pressure, and the pulse check is prolonged to 1 minute for this reason. Drug metabolism is slowed in hypothermic patients, leading to a build-up of potentially toxic plasma concentrations of administered drugs. Current guidance advises withholding drugs if the core temperature is below 30ºC and doubling the drug interval at core temperatures between 30 and 35ºC. Electrolyte disturbances are common in hypothermic patients, and it is important to interpret results keeping the setting in mind. Hypoglycemia should be treated, hypokalemia will often correct as the patient re-warms, ABG analyzers may not reflect the reality of the hypothermic patient, and severe hyperkalemia is a poor prognostic indicator.

      Different warming measures can be used to increase the core body temperature, including external passive measures such as removal of wet clothes and insulation with blankets, external active measures such as forced heated air or hot-water immersion, and internal active measures such as inhalation of warm air, warmed intravenous fluids, gastric, bladder, peritoneal and/or pleural lavage and high volume renal haemofilter.

    • This question is part of the following fields:

      • Resus
      1
      Seconds
  • Question 11 - A 72 year old female is brought into the emergency department due to...

    Incorrect

    • A 72 year old female is brought into the emergency department due to near-fainting. Whilst in the department the patient loses consciousness and on examination there is no detectable pulse. You begin cardiopulmonary resuscitation (CPR). What is the ratio of chest compressions to rescue breaths used during CPR?

      Your Answer: 60:1

      Correct Answer: 30:2

      Explanation:

      The ratio of chest compressions to rescue breaths during CPR is now 30:2. Prior to 2005, the ratio used was 15:2.

      Further Reading:

      In the event of an adult experiencing cardiorespiratory arrest, it is crucial for doctors to be familiar with the Advanced Life Support (ALS) algorithm. They should also be knowledgeable about the proper technique for chest compressions, the appropriate rhythms for defibrillation, the reversible causes of arrest, and the drugs used in advanced life support.

      During chest compressions, the rate should be between 100-120 compressions per minute, with a depth of compression of 5-6 cm. The ratio of chest compressions to rescue breaths should be 30:2. It is important to change the person giving compressions regularly to prevent fatigue.

      There are two shockable ECG rhythms that doctors should be aware of: ventricular fibrillation (VF) and pulseless ventricular tachycardia (pVT). These rhythms require defibrillation.

      There are four reversible causes of cardiorespiratory arrest, known as the 4 H’s and 4 T’s. The 4 H’s include hypoxia, hypovolemia, hypo or hyperkalemia or metabolic abnormalities, and hypothermia. The 4 T’s include thrombosis (coronary or pulmonary), tension pneumothorax, tamponade, and toxins. Identifying and treating these reversible causes is crucial for successful resuscitation.

      When it comes to resus drugs, they are considered of secondary importance during CPR due to the lack of high-quality evidence for their efficacy. However, adrenaline (epinephrine) and amiodarone are the two drugs included in the ALS algorithm. Doctors should be familiar with the dosing, route, and timing of administration for both drugs.

      Adrenaline should be administered intravenously at a concentration of 1 in 10,000 (100 micrograms/mL). It should be repeated every 3-5 minutes. Amiodarone is initially given at a dose of 300 mg, either from a pre-filled syringe or diluted in 20 mL of Glucose 5%. If required, an additional dose of 150 mg can be given by intravenous injection. This is followed by an intravenous infusion of 900 mg over 24 hours. The first dose of amiodarone is given after 3 shocks.

    • This question is part of the following fields:

      • Resus
      0.4
      Seconds
  • Question 12 - You are summoned to the resuscitation room to assist with a 68-year-old patient...

    Incorrect

    • You are summoned to the resuscitation room to assist with a 68-year-old patient who has experienced cardiac arrest. The team has initiated the initial round of chest compressions and has connected the monitoring equipment. You propose a brief pause in chest compressions to assess if the rhythm is suitable for defibrillation. The patient's rhythm is indeed defibrillated. However, despite administering three successive shocks, there is no spontaneous return of circulation. What are the two appropriate medications to administer now, and what are their respective doses?

      Your Answer: Lidocaine 100 mg IV & amiodarone 300 mg IV

      Correct Answer: Adrenaline 1 mg IV & amiodarone 300 mg IV

      Explanation:

      After the third shock is administered to patients with a shockable rhythm, it is recommended to administer two drugs: adrenaline and amiodarone. Adrenaline should be given at a dose of 1 mg intravenously (or intraosseously) for adult patients in cardiac arrest with a shockable rhythm. For adult patients in cardiac arrest who are in ventricular fibrillation or pulseless ventricular tachycardia, amiodarone should be given at a dose of 300 mg intravenously (or intraosseously) after three shocks have been administered. In cases where amiodarone is unavailable, lidocaine may be used as an alternative.

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

    • This question is part of the following fields:

      • Resus
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  • Question 13 - You are called into the pediatric resuscitation room to assist with a child...

    Correct

    • You are called into the pediatric resuscitation room to assist with a child who has arrested. The team have just started the first cycle of chest compressions and have attached monitoring. You suggest briefly pausing chest compressions to check if the rhythm is shockable.

      How long should the brief pause in chest compressions last?

      Your Answer: ≤ 5 seconds

      Explanation:

      The duration of the pause in chest compressions should be kept short, not exceeding 5 seconds. This applies to both pausing to assess the rhythm and pausing to administer a shock if the rhythm is deemed shockable. It is important to note that a pulse check lasting less than two seconds may fail to detect a palpable pulse, particularly in individuals with a slow heart rate (bradycardia).

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

    • This question is part of the following fields:

      • Resus
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  • Question 14 - You are managing a 32-year-old woman with septic shock in the resuscitation room....

    Incorrect

    • You are managing a 32-year-old woman with septic shock in the resuscitation room. The on-call intensive care team evaluates her and decides to insert a central venous catheter.
      Which of the following veins would be the most suitable choice for central venous access?

      Your Answer: External jugular vein

      Correct Answer: Internal jugular vein

      Explanation:

      The internal jugular vein is a significant vein located close to the surface of the body. It is often chosen for the insertion of central venous catheters due to its accessibility. To locate the vein, a needle is inserted into the middle of a triangular area formed by the lower heads of the sternocleidomastoid muscle and the clavicle. It is important to palpate the carotid artery to ensure that the needle is inserted to the side of the artery.

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      • Resus
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  • Question 15 - A 72 year old female is brought into the emergency department due to...

    Incorrect

    • A 72 year old female is brought into the emergency department due to near-fainting. Whilst in the department, the patient loses consciousness and upon examination, no pulse is detected. You begin cardiopulmonary resuscitation (CPR). Which two medications (aside from oxygen) are administered as part of the advanced life support resuscitation protocol?

      Your Answer: Amiodarone and aspirin

      Correct Answer: Adrenaline and amiodarone

      Explanation:

      According to the ALS algorithm, the main drugs used during CPR are oxygen, adrenaline, and amiodarone. Adrenaline is administered every 3-5 minutes as per the 2021 UK ALS algorithm. Amiodarone is given after 3 shocks.

      Further Reading:

      In the event of an adult experiencing cardiorespiratory arrest, it is crucial for doctors to be familiar with the Advanced Life Support (ALS) algorithm. They should also be knowledgeable about the proper technique for chest compressions, the appropriate rhythms for defibrillation, the reversible causes of arrest, and the drugs used in advanced life support.

      During chest compressions, the rate should be between 100-120 compressions per minute, with a depth of compression of 5-6 cm. The ratio of chest compressions to rescue breaths should be 30:2. It is important to change the person giving compressions regularly to prevent fatigue.

      There are two shockable ECG rhythms that doctors should be aware of: ventricular fibrillation (VF) and pulseless ventricular tachycardia (pVT). These rhythms require defibrillation.

      There are four reversible causes of cardiorespiratory arrest, known as the 4 H’s and 4 T’s. The 4 H’s include hypoxia, hypovolemia, hypo or hyperkalemia or metabolic abnormalities, and hypothermia. The 4 T’s include thrombosis (coronary or pulmonary), tension pneumothorax, tamponade, and toxins. Identifying and treating these reversible causes is crucial for successful resuscitation.

      When it comes to resus drugs, they are considered of secondary importance during CPR due to the lack of high-quality evidence for their efficacy. However, adrenaline (epinephrine) and amiodarone are the two drugs included in the ALS algorithm. Doctors should be familiar with the dosing, route, and timing of administration for both drugs.

      Adrenaline should be administered intravenously at a concentration of 1 in 10,000 (100 micrograms/mL). It should be repeated every 3-5 minutes. Amiodarone is initially given at a dose of 300 mg, either from a pre-filled syringe or diluted in 20 mL of Glucose 5%. If required, an additional dose of 150 mg can be given by intravenous injection. This is followed by an intravenous infusion of 900 mg over 24 hours. The first dose of amiodarone is given after 3 shocks.

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      • Resus
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  • Question 16 - A 65 year old female is brought into the hospital after experiencing a...

    Incorrect

    • A 65 year old female is brought into the hospital after experiencing a cardiac arrest at the nearby soccer field where she was watching a game. The patient was promptly assessed by the medical team at the field and received a shock from an automated defibrillator device, leading to a return of spontaneous circulation.

      Your consultant informs you that the objective now is to minimize the severity of the post-cardiac arrest syndrome. Which of the following is NOT one of the four elements of the post-cardiac arrest syndrome?

      Your Answer: Persistent precipitating pathology

      Correct Answer: Post-cardiac arrest renal dysfunction

      Explanation:

      The post-cardiac arrest syndrome consists of four components. The first component is post-cardiac arrest brain injury, which refers to any damage or impairment to the brain that occurs after a cardiac arrest. The second component is post-cardiac arrest myocardial dysfunction, which is a condition where the heart muscle does not function properly after a cardiac arrest.

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

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  • Question 17 - A 45-year-old patient is admitted to the emergency department with severe burns. It...

    Incorrect

    • A 45-year-old patient is admitted to the emergency department with severe burns. It is determined that a central venous catheter needs to be inserted. Before the central line insertion, the skin on the front of the neck is numbed with 1% lidocaine.

      Which vein in the anterior neck triangle is utilized for the placement of the central venous line?

      Your Answer: Internal carotid vein

      Correct Answer: Internal jugular vein

      Explanation:

      The internal jugular vein is situated in the anterior triangle of the neck and is frequently utilized for the insertion of central lines. It is important for candidates to have a good understanding of the anatomy of the anterior triangle, including its contents, according to the RCEM.

      Further Reading:

      A central venous catheter (CVC) is a type of catheter that is inserted into a large vein in the body, typically in the neck, chest, or groin. It has several important uses, including CVP monitoring, pulmonary artery pressure monitoring, repeated blood sampling, IV access for large volumes of fluids or drugs, TPN administration, dialysis, pacing, and other procedures such as placement of IVC filters or venous stents.

      When inserting a central line, it is ideal to use ultrasound guidance to ensure accurate placement. However, there are certain contraindications to central line insertion, including infection or injury to the planned access site, coagulopathy, thrombosis or stenosis of the intended vein, a combative patient, or raised intracranial pressure for jugular venous lines.

      The most common approaches for central line insertion are the internal jugular, subclavian, femoral, and PICC (peripherally inserted central catheter) veins. The internal jugular vein is often chosen due to its proximity to the carotid artery, but variations in anatomy can occur. Ultrasound can be used to identify the vessels and guide catheter placement, with the IJV typically lying superficial and lateral to the carotid artery. Compression and Valsalva maneuvers can help distinguish between arterial and venous structures, and doppler color flow can highlight the direction of flow.

      In terms of choosing a side for central line insertion, the right side is usually preferred to avoid the risk of injury to the thoracic duct and potential chylothorax. However, the left side can also be used depending on the clinical situation.

      Femoral central lines are another option for central venous access, with the catheter being inserted into the femoral vein in the groin. Local anesthesia is typically used to establish a field block, with lidocaine being the most commonly used agent. Lidocaine works by blocking sodium channels and preventing the propagation of action potentials.

      In summary, central venous catheters have various important uses and should ideally be inserted using ultrasound guidance. There are contraindications to their insertion, and different approaches can be used depending on the clinical situation. Local anesthesia is commonly used for central line insertion, with lidocaine being the preferred agent.

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  • Question 18 - You diagnose a pediatric trauma patient with a right sided tension pneumothorax and...

    Incorrect

    • You diagnose a pediatric trauma patient with a right sided tension pneumothorax and plan to perform needle thoracentesis. Which of the following is the most appropriate anatomical landmark to use for needle insertion?

      Your Answer: 4th intercostal space posterior axillary line

      Correct Answer: 5th intercostal space midaxillary line

      Explanation:

      A pneumothorax is an abnormal collection of air in the pleural cavity of the lung. It can be classified by cause as primary spontaneous, secondary spontaneous, or traumatic. Primary spontaneous pneumothorax occurs without any obvious cause in the absence of underlying lung disease, while secondary spontaneous pneumothorax occurs in patients with significant underlying lung diseases. Traumatic pneumothorax is caused by trauma to the lung, often from blunt or penetrating chest wall injuries.

      Tension pneumothorax is a life-threatening condition where the collection of air in the pleural cavity expands and compresses normal lung tissue and mediastinal structures. It can be caused by any of the aforementioned types of pneumothorax. Immediate management of tension pneumothorax involves the ABCDE approach, which includes ensuring a patent airway, controlling the C-spine, providing supplemental oxygen, establishing IV access for fluid resuscitation, and assessing and managing other injuries.

      Treatment of tension pneumothorax involves needle thoracocentesis as a temporary measure to provide immediate decompression, followed by tube thoracostomy as definitive management. Needle thoracocentesis involves inserting a 14g cannula into the pleural space, typically via the 4th or 5th intercostal space midaxillary line. If the patient is peri-arrest, immediate thoracostomy is advised.

      The pathophysiology of tension pneumothorax involves disruption to the visceral or parietal pleura, allowing air to flow into the pleural space. This can occur through an injury to the lung parenchyma and visceral pleura, or through an entry wound to the external chest wall in the case of a sucking pneumothorax. Injured tissue forms a one-way valve, allowing air to enter the pleural space with inhalation but prohibiting air outflow. This leads to a progressive increase in the volume of non-absorbable intrapleural air with each inspiration, causing pleural volume and pressure to rise within the affected hemithorax.

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  • Question 19 - You are summoned to the resuscitation room to provide assistance with a 68-year-old...

    Incorrect

    • You are summoned to the resuscitation room to provide assistance with a 68-year-old individual who is undergoing treatment for cardiac arrest. After three defibrillation attempts and the administration of adrenaline and amiodarone, the patient experiences a restoration of spontaneous circulation.

      What is the recommended target SpO2 following a cardiac arrest?

      Your Answer: 88-92%

      Correct Answer: 94-98%

      Explanation:

      The recommended target SpO2, which measures the percentage of oxygen saturation in the blood, following a cardiac arrest is 94-98%. This range ensures that the patient receives adequate oxygenation without the risk of hyperoxia, which is an excess of oxygen in the body.

      Further Reading:

      Cardiopulmonary arrest is a serious event with low survival rates. In non-traumatic cardiac arrest, only about 20% of patients who arrest as an in-patient survive to hospital discharge, while the survival rate for out-of-hospital cardiac arrest is approximately 8%. The Resus Council BLS/AED Algorithm for 2015 recommends chest compressions at a rate of 100-120 per minute with a compression depth of 5-6 cm. The ratio of chest compressions to rescue breaths is 30:2.

      After a cardiac arrest, the goal of patient care is to minimize the impact of post cardiac arrest syndrome, which includes brain injury, myocardial dysfunction, the ischaemic/reperfusion response, and the underlying pathology that caused the arrest. The ABCDE approach is used for clinical assessment and general management. Intubation may be necessary if the airway cannot be maintained by simple measures or if it is immediately threatened. Controlled ventilation is aimed at maintaining oxygen saturation levels between 94-98% and normocarbia. Fluid status may be difficult to judge, but a target mean arterial pressure (MAP) between 65 and 100 mmHg is recommended. Inotropes may be administered to maintain blood pressure. Sedation should be adequate to gain control of ventilation, and short-acting sedating agents like propofol are preferred. Blood glucose levels should be maintained below 8 mmol/l. Pyrexia should be avoided, and there is some evidence for controlled mild hypothermia but no consensus on this.

      Post ROSC investigations may include a chest X-ray, ECG monitoring, serial potassium and lactate measurements, and other imaging modalities like ultrasonography, echocardiography, CTPA, and CT head, depending on availability and skills in the local department. Treatment should be directed towards the underlying cause, and PCI or thrombolysis may be considered for acute coronary syndrome or suspected pulmonary embolism, respectively.

      Patients who are comatose after ROSC without significant pre-arrest comorbidities should be transferred to the ICU for supportive care. Neurological outcome at 72 hours is the best prognostic indicator of outcome.

    • This question is part of the following fields:

      • Resus
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  • Question 20 - You are resuscitating a trauma patient who is 42 years old and your...

    Incorrect

    • You are resuscitating a trauma patient who is 42 years old and your consultant asks you to perform a central venous catheter insertion. During your discussion, you consider which approach carries the greatest risk of pneumothorax.

      Your Answer: Femoral

      Correct Answer: Subclavian

      Explanation:

      The subclavian approach for central lines carries the highest risk of pneumothorax. However, it does have advantages such as being accessible during airway control and having easily identifiable landmarks for insertion, even in obese patients. It is important to note that the carotid is not used for CVC’s.

      Further Reading:

      A central venous catheter (CVC) is a type of catheter that is inserted into a large vein in the body, typically in the neck, chest, or groin. It has several important uses, including CVP monitoring, pulmonary artery pressure monitoring, repeated blood sampling, IV access for large volumes of fluids or drugs, TPN administration, dialysis, pacing, and other procedures such as placement of IVC filters or venous stents.

      When inserting a central line, it is ideal to use ultrasound guidance to ensure accurate placement. However, there are certain contraindications to central line insertion, including infection or injury to the planned access site, coagulopathy, thrombosis or stenosis of the intended vein, a combative patient, or raised intracranial pressure for jugular venous lines.

      The most common approaches for central line insertion are the internal jugular, subclavian, femoral, and PICC (peripherally inserted central catheter) veins. The internal jugular vein is often chosen due to its proximity to the carotid artery, but variations in anatomy can occur. Ultrasound can be used to identify the vessels and guide catheter placement, with the IJV typically lying superficial and lateral to the carotid artery. Compression and Valsalva maneuvers can help distinguish between arterial and venous structures, and doppler color flow can highlight the direction of flow.

      In terms of choosing a side for central line insertion, the right side is usually preferred to avoid the risk of injury to the thoracic duct and potential chylothorax. However, the left side can also be used depending on the clinical situation.

      Femoral central lines are another option for central venous access, with the catheter being inserted into the femoral vein in the groin. Local anesthesia is typically used to establish a field block, with lidocaine being the most commonly used agent. Lidocaine works by blocking sodium channels and preventing the propagation of action potentials.

      In summary, central venous catheters have various important uses and should ideally be inserted using ultrasound guidance. There are contraindications to their insertion, and different approaches can be used depending on the clinical situation. Local anesthesia is commonly used for central line insertion, with lidocaine being the preferred agent.

    • This question is part of the following fields:

      • Resus
      0.5
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SESSION STATS - PERFORMANCE PER SPECIALTY

Resus (4/20) 20%
Passmed