One-Lung Ventilation Techniques Indian Medical PG Practice Questions and MCQs
Practice Indian Medical PG questions for One-Lung Ventilation Techniques. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
One-Lung Ventilation Techniques Indian Medical PG Question 1: Which of the following surgical incisions is associated with the highest risk of postoperative pulmonary complications ?
- A. Median sternotomy
- B. Horizontal laparotomy
- C. Vertical laparotomy
- D. Lateral thoracotomy (Correct Answer)
One-Lung Ventilation Techniques Explanation: ***Lateral thoracotomy***
- **Lateral thoracotomy** is associated with the **highest risk of postoperative pulmonary complications** among common surgical incisions, with complication rates ranging from **15-70%** depending on the procedure.
- This incision **directly violates the chest wall** with rib resection or spreading, causing severe postoperative pain that significantly impairs respiratory mechanics.
- The procedure disrupts **intercostal muscles**, damages **intercostal nerves**, and violates the **pleura**, leading to immediate risks like **pneumothorax**, **hemothorax**, and **pleural effusion**.
- Severe pain leads to **splinting**, **shallow breathing**, **impaired cough**, and **reduced lung expansion**, markedly increasing the risk of **atelectasis**, **pneumonia**, and **respiratory failure**.
- The **ipsilateral lung** is particularly affected with reduced functional residual capacity and impaired secretion clearance.
*Vertical laparotomy*
- **Upper abdominal vertical incisions** are indeed associated with high pulmonary complication rates (**30-50%**), second only to thoracotomy.
- Pain leads to **diaphragmatic splinting** and impaired respiratory mechanics, increasing risk of **atelectasis** and **pneumonia**.
- However, the chest wall itself remains intact, making complications generally less severe than with thoracotomy.
*Median sternotomy*
- While a major thoracic procedure, **median sternotomy** has relatively **lower pulmonary complication rates** compared to lateral thoracotomy.
- The sternal split preserves **intercostal muscles** and **nerve integrity**, resulting in less severe pain and better preserved respiratory mechanics.
- Postoperative pain management is generally more effective than with lateral thoracotomy.
*Horizontal laparotomy*
- **Transverse abdominal incisions** (e.g., Pfannenstiel, transverse supraumbilical) cause significantly less pain than vertical incisions.
- These incisions follow **natural tissue planes**, cause less muscle disruption, and allow better respiratory mechanics.
- Lower pain levels facilitate **effective coughing**, **deep breathing**, and **early mobilization**, reducing pulmonary complication risk.
One-Lung Ventilation Techniques Indian Medical PG Question 2: What happens to gas exchange when the Va/Q ratio approaches infinity?
- A. Partial pressure of O2 becomes negligible.
- B. No exchange of O2 and CO2 occurs. (Correct Answer)
- C. Partial pressure of CO2 becomes negligible.
- D. Partial pressures of both CO2 and O2 remain normal.
One-Lung Ventilation Techniques Explanation: ***No exchange of O2 and CO2 occurs.***
- When the **Va/Q ratio approaches infinity**, it signifies a scenario of **ventilation without perfusion** (Q approaches zero).
- This represents **alveolar dead space** - despite adequate ventilation, there is **no blood flow** to participate in gas exchange.
- Therefore, **no O2 enters the blood** and **no CO2 leaves the blood**, making this the most accurate description of what happens to gas exchange.
*Partial pressure of O2 becomes negligible.*
- This statement is incorrect because with **no blood flow** (Q = 0), the alveolar air retains high O2 partial pressure.
- O2 is being delivered via ventilation but not removed by blood, so **alveolar PO2** would approach that of **inspired air (~150 mmHg)**, not become negligible.
*Partial pressure of CO2 becomes negligible.*
- While this statement is technically true (alveolar PCO2 would approach zero/inspired air levels), it doesn't directly answer what happens to **gas exchange**.
- With no blood flowing through the alveolus, no **CO2 from venous blood** can reach the alveolus to be excreted.
- However, the question asks about **gas exchange** itself, not just partial pressures, making the first option more comprehensive.
*Partial pressures of both CO2 and O2 remain normal.*
- This statement is incorrect as the **Va/Q mismatch** significantly alters the partial pressures of both gases.
- In infinite Va/Q scenario (dead space ventilation), **alveolar PO2 would be high** (approaching inspired air ~150 mmHg) and **alveolar PCO2 would be low** (approaching zero).
One-Lung Ventilation Techniques Indian Medical PG Question 3: At the end of anaesthesia after discontinuation of nitrous oxide and removal of endotracheal tube, 100% oxygen is administered to the patient to prevent:
- A. Second gas effect
- B. Bronchospasm
- C. Hyperoxia
- D. Diffusion Hypoxia (Correct Answer)
One-Lung Ventilation Techniques Explanation: ***Diffusion Hypoxia***
- Post-anaesthesia administration of 100% oxygen prevents **diffusion hypoxia**, a phenomenon where **nitrous oxide** rapidly diffuses out of the blood into the alveoli, diluting alveolar oxygen and carbon dioxide.
- This rapid outflow of nitrous oxide can lead to a significant drop in **partial pressure of oxygen** in the alveoli, causing hypoxemia if not counteracted with high inspired oxygen.
*Second gas effect*
- The **second gas effect** refers to the phenomenon where the rapid uptake of a highly soluble anesthetic (like nitrous oxide) accelerates the uptake of a co-administered less soluble anesthetic.
- This is an effect related to the **induction phase** of anesthesia, not emergence, and is distinct from the issues arising from nitrous oxide washout.
*Bronchospasm*
- **Bronchospasm** is an acute constriction of the bronchioles, often triggered by irritants, allergens, or certain medications.
- While it can occur during emergence from anesthesia, it is not directly prevented by administering 100% oxygen and is typically managed with bronchodilators.
*Hyperoxia*
- **Hyperoxia** is a condition of excess oxygen in the body, which can be detrimental, but it is not the primary concern immediately following the discontinuation of nitrous oxide.
- Administering 100% oxygen in this context is a **controlled, short-term measure** to prevent a more immediate and severe issue (hypoxia) rather than causing chronic hyperoxia.
One-Lung Ventilation Techniques Indian Medical PG Question 4: Procedure of choice for control of massive hemoptysis?
- A. Rigid bronchoscopy and Photocoagulation
- B. Bronchial artery embolization (Correct Answer)
- C. Balloon catheter tamponade
- D. Flexible bronchoscopy and cautery
One-Lung Ventilation Techniques Explanation: ***Bronchial artery embolization***
- **Bronchial artery embolization (BAE)** is the preferred initial treatment for **massive hemoptysis** due to its high success rate and minimally invasive nature.
- It works by identifying and occluding the bleeding bronchial arteries, which are the most common source of massive hemoptysis.
*Rigid bronchoscopy and Photocoagulation*
- **Rigid bronchoscopy** is primarily used for **airway control**, foreign body removal, and occasionally for direct visualization and tamponade in massive hemoptysis.
- While **photocoagulation** can be used to treat small bleeds, it is generally ineffective for massive or widespread hemorrhage.
*Balloon catheter tamponade*
- **Balloon catheter tamponade** can provide temporary control of bleeding by compressing the bleeding site but is not a definitive long-term solution.
- It carries risks of tracheal injury and can obstruct the airway, making it a bridging measure until a more definitive treatment can be performed.
*Flexible bronchoscopy and cautery*
- **Flexible bronchoscopy** is useful for localizing the bleeding site but is **less effective** for controlling massive hemoptysis due to limited suction and instrument channels.
- **Cautery** applied through a flexible bronchoscope is generally insufficient for significant bleeding and carries a risk of worsening the hemorrhage.
One-Lung Ventilation Techniques Indian Medical PG Question 5: Which of the following is not true about ventilation-perfusion ratio (V/Q)?
- A. Low V/Q in shunt
- B. High V/Q in dead space
- C. V/Q is highest at lung base (Correct Answer)
- D. Normal V/Q is approximately 0.8
One-Lung Ventilation Techniques Explanation: ***V/Q is highest at lung base***
- This statement is **incorrect** because the **V/Q ratio is actually lowest at the lung base** and highest at the apex due to gravity's differential effects on ventilation and perfusion.
- At the lung base, both ventilation and perfusion are highest, but **perfusion increases more significantly than ventilation**, leading to a lower V/Q ratio.
*Low V/Q in shunt*
- A **shunt** represents an extreme form of low V/Q, where there is **perfusion without ventilation (V/Q = 0)**.
- This results in **unoxygenated blood** returning to the systemic circulation.
*High V/Q in dead space*
- **Dead space ventilation** occurs when there is **ventilation without perfusion (V/Q = infinity)**.
- This means that air enters the alveoli but **no gas exchange** can occur because there is no blood flow.
*Normal V/Q is approximately 0.8*
- The **overall average V/Q ratio** for healthy lungs is indeed approximately **0.8**.
- This value reflects the balance between **total alveolar ventilation** (around 4 L/min) and **total pulmonary blood flow** (around 5 L/min).
One-Lung Ventilation Techniques Indian Medical PG Question 6: Identify the instrument shown in the image:
- A. Nasogastric tube
- B. Uncuffed endotracheal (ET) tube (Correct Answer)
- C. Oropharyngeal tube
- D. Tracheostomy tube
One-Lung Ventilation Techniques Explanation: ***Uncuffed endotracheal (ET) tube***
- This image displays a transparent, flexible tube with a distinct connector at one end and no inflated cuff near the distal tip, which is characteristic of an **uncuffed endotracheal tube**.
- Uncuffed ET tubes are commonly used in **pediatric patients** where a cuff could potentially damage the narrower, cone-shaped trachea.
*Nasogastric tube*
- A nasogastric tube typically has a much **smaller diameter** and a distinctly different tip design, often with multiple side ports for fluid aspiration or administration.
- It does not feature the large, universal connector seen on endotracheal tubes.
*Oropharyngeal tube*
- An oropharyngeal (Guedel) airway is a **rigid, curved device** inserted into the mouth to maintain an open airway, and it looks distinctly different from the flexible tube shown.
- It does not extend into the trachea like an ET tube.
*Tracheostomy tube*
- A tracheostomy tube is typically shorter, often with a curved neck flange for securement to the neck, and frequently made with an outer and inner cannula, which are absent in the image.
- While it helps maintain an airway, its design is specific for insertion directly into a tracheostomy stoma, unlike the longer tube for oral/nasal intubation.
One-Lung Ventilation Techniques Indian Medical PG Question 7: A man is brought to casualty who met with an accident. He sustained multiple rib fractures with paradoxical movement of chest. Management is:
- A. Strapping
- B. Intermittent positive pressure ventilation (Correct Answer)
- C. Tracheostomy
- D. Consult cardiothoracic surgeon
One-Lung Ventilation Techniques Explanation: ***Intermittent positive pressure ventilation***
- **Flail chest** with paradoxical movement indicates severe respiratory compromise requiring immediate support.
- **Positive pressure ventilation** stabilizes the chest wall internally and improves oxygenation.
*Strapping*
- **Strapping** the chest for rib fractures is now discouraged as it can restrict breathing and increase the risk of atelectasis and pneumonia.
- It does not effectively stabilize a flail segment; instead, it can worsen respiratory distress.
*Tracheostomy*
- While a **tracheostomy** might be considered for long-term airway management in severe trauma, it is not the primary immediate management for flail chest with paradoxical movement.
- The initial priority is to stabilize ventilation, which can often be achieved with endotracheal intubation and mechanical ventilation.
*Consult cardiothoracic surgeon*
- Consulting a **cardiothoracic surgeon** is important for definitive management and considering surgical stabilization, but it is not the immediate first-line management in the emergency setting for stabilizing paradoxical chest movement.
- The immediate priority is to secure the airway and support ventilation.
One-Lung Ventilation Techniques Indian Medical PG Question 8: You are in the operating room and notice the tracing in yellow colour on this device. What does it indicate?
- A. O2 pressure in exhaled air
- B. Capnography (Correct Answer)
- C. O2 pressure in inhaled air
- D. Airway pressure
One-Lung Ventilation Techniques Explanation: ***Capnography***
- The yellow tracing displays a waveform that is characteristic of a **capnogram**, which measures the concentration of **carbon dioxide (CO2)** in the expired breath over time.
- The rectangular shape with a sudden rise, plateau, and rapid fall is typical of the **CO2 waveform** during a respiratory cycle.
*O2 pressure in exhaled air*
- While oxygen levels can be monitored, the characteristic waveform shown with its distinct plateau phase is specific to **carbon dioxide** measurement.
- Oxygen monitoring provides different types of waveforms or numerical values, such as **pulsus oximetry**, which shows oxygen saturation.
*O2 pressure in inhaled air*
- Monitoring devices typically display **inspired oxygen concentration (FiO2)** as a numerical value rather than a waveform.
- The waveform shown is indicative of gas exchange dynamics during **exhalation**, not inhalation.
*Airway pressure*
- Airway pressure tracings typically show a waveform that correlates with the **inspiratory and expiratory phases** of breathing, indicating the pressure within the airway.
- However, the specific shape and plateau of the waveform in yellow are distinct from typical **airway pressure** curves and are characteristic of CO2.
One-Lung Ventilation Techniques Indian Medical PG Question 9: A 10-year-old boy, unconscious with 2 days history of fever, comes to pediatric ICU with respiratory rate 46/min, blood pressure 110/80 mmHg, and Glasgow Coma Scale E1 V1 M3. The next step in management is
- A. Give 0.9% NaCl
- B. Dopamine at the rate of 5-10 mcg/kg/min & furosemide
- C. Intubate and ventilate (Correct Answer)
- D. Start dopamine at the rate of 5-10 mcg/kg/min
One-Lung Ventilation Techniques Explanation: ***Intubate and ventilate***
- The patient has a **Glasgow Coma Scale (GCS) of E1V1M3**, indicating a severe reduction in consciousness and inability to protect the airway.
- **Respiratory rate of 46/min** also suggests significant respiratory distress or central neurological insult requiring ventilatory support.
*Give 0.9% NaCl*
- While **fluid resuscitation** might be considered in other contexts, giving a large bolus of normal saline without assessing volume status could worsen **cerebral edema** in a patient with severe neurological compromise.
- His **blood pressure of 110/80 mmHg** is within a relatively normal range, so there is no immediate indication for fluid for hypotension.
*Dopamine at the rate of 5-10 mcg/kg/min & furosemide*
- **Dopamine** is a vasopressor and inotrope used for **hypotension** or poor cardiac output; the patient's blood pressure is stable, so this is not immediately indicated.
- **Furosemide** is a diuretic primarily used for **fluid overload** or to reduce intracranial pressure; however, without a clear diagnosis or signs of fluid overload, it's not the initial priority.
*Start dopamine at the rate of 5-10 mcg/kg/min*
- **Dopamine** is used to support blood pressure in states of **shock or hypotension**, which is not immediately apparent given the patient's stable blood pressure of 110/80 mmHg.
- Addressing the **critically low GCS** and potential for airway compromise and respiratory failure is the primary and most urgent intervention.
One-Lung Ventilation Techniques Indian Medical PG Question 10: A 30-year-old male was intubated for surgery. What is the best method to confirm the correct position of the endotracheal tube?
- A. Capnography (Correct Answer)
- B. X-ray chest
- C. Auscultation
- D. Chest expansion
One-Lung Ventilation Techniques Explanation: ***Capnography***
- **Continuous waveform capnography** directly measures exhaled carbon dioxide, which is present in the trachea but absent in the esophagus.
- The presence of a consistent waveform indicates **endotracheal intubation**, making it the most reliable method for immediate confirmation.
*X-ray chest*
- While an **X-ray chest** can confirm the tube's position within the trachea and its depth, it is not an immediate method and may delay detection of esophageal intubation.
- It mainly serves to confirm appropriate depth and exclude complications like **pneumothorax**, rather than primary confirmation of tracheal placement.
*Auscultation*
- **Auscultation** for bilateral breath sounds in the axillae and absence of sounds over the epigastrium can suggest proper placement, but it can be misleading in noisy environments or with gastric insufflation.
- It is a subjective method and does not directly confirm the presence of **CO2** from the lungs.
*Chest expansion*
- Observing **bilateral chest expansion** is an initial sign of successful ventilation but does not definitively confirm tracheal placement as esophageal intubation can also cause some chest movement.
- It is a less reliable indicator compared to direct **CO2 detection**.
More One-Lung Ventilation Techniques Indian Medical PG questions available in the OnCourse app. Practice MCQs, flashcards, and get detailed explanations.
