Anesthesiology
7 questionsWhich anaesthetic belongs to the ester group?
Critical temperature of oxygen is?
Which of the following is a characteristic of the Supreme Laryngeal Mask Airway (LMA)?
What is the PRIMARY application of capnography during patient monitoring?
Circuit of choice for controlled ventilation ?
Which of the following anesthetics is known to increase intraocular pressure?
Who coined the term "balanced anaesthesia"?
NEET-PG 2013 - Anesthesiology NEET-PG Practice Questions and MCQs
Question 1361: Which anaesthetic belongs to the ester group?
- A. Lignocaine
- B. Propofol
- C. Procaine (Correct Answer)
- D. Benzocaine
Explanation: ***Procaine*** - **Procaine** is a classical **ester-type** local anesthetic, characterized by an ester linkage between the aromatic and amine parts of its chemical structure. - Ester-type local anesthetics are metabolized by **plasma pseudocholinesterase**, leading to a shorter duration of action compared to amides. *Benzocaine* - **Benzocaine** is also an ester local anesthetic, but it is typically used topically due to its poor water solubility and absorption. - While an ester, the question implies a common injectable agent, making procaine a more representative answer for the "ester group" in general anesthetic use. *Lignocaine* - **Lignocaine** (also known as lidocaine) is an **amide-type** local anesthetic, which can be identified by an amide linkage in its chemical structure. - Amide local anesthetics are primarily metabolized in the **liver** and generally have a longer duration of action than esters. *Propofol* - **Propofol** is a **short-acting intravenous general anesthetic** and is not classified as a local anesthetic or belonging to the ester group. - It works by potentiation of **GABA-A receptors** and is used for induction and maintenance of general anesthesia.
Question 1362: Critical temperature of oxygen is?
- A. -118°C (Correct Answer)
- B. 400°C
- C. 20°C
- D. 36.5°C
Explanation: ***-118°C*** - The **critical temperature** is the temperature above which a gas cannot be liquefied, no matter how much pressure is applied. - For oxygen, its critical temperature is approximately **-118°C**, meaning it can only exist as a gas above this temperature, regardless of pressure. *400°C* - This temperature is significantly **above** the critical temperature of oxygen, so oxygen would always be a gas at this temperature. - It does not represent any specific physical property of oxygen in relation to its phase changes. *20°C* - This temperature is also well **above** oxygen's critical temperature, so oxygen would remain in its gaseous state. - This is approximately room temperature, where oxygen is commonly found as a gas. *36.5°C* - This is close to typical human body temperature and is far **above** the critical temperature of oxygen. - At this temperature, oxygen exists only as a gas.
Question 1363: Which of the following is a characteristic of the Supreme Laryngeal Mask Airway (LMA)?
- A. Designed specifically for infants
- B. Utilizes high pressure, low volume cuff design
- C. Includes a built-in drain tube (Correct Answer)
- D. Does not have a bite block
Explanation: ***Includes a built-in drain tube*** - The **Supreme Laryngeal Mask Airway (LMA)** features an integrated **drain tube** to facilitate gastric decompression and reduce the risk of aspiration. - This design allows for the passage of a gastric tube, which can be useful during longer procedures or in patients with a higher risk of gastric content regurgitation. *Designed specifically for infants* - While LMAs are available in various sizes for all age groups, the **Supreme LMA** is not designed *specifically* for infants; it is a general-purpose LMA available in multiple sizes for different patient populations. - Other LMA types, such as the LMA Unique, are more commonly associated with a broader pediatric application. *Utilizes high pressure, low volume cuff design* - The **Supreme LMA** actually utilizes a **low pressure, high volume cuff** design, which helps contour to the perilaryngeal anatomy and minimizes pressure on mucosal tissues. - A high pressure, low volume cuff is associated with traditional endotracheal tubes and could lead to increased tissue ischemia if used with an LMA. *Does not have a bite block* - The **Supreme LMA** incorporates an **integrated bite block** within its design to prevent occlusion of the airway tube from patient biting. - This feature helps maintain airway patency and protects the LMA from damage, making it a key characteristic.
Question 1364: What is the PRIMARY application of capnography during patient monitoring?
- A. Correct intubation (Correct Answer)
- B. Pulmonary embolism
- C. Adequate ventilation
- D. Significant metabolic change
Explanation: ***Correct intubation*** - Capnography is the **gold standard** for confirming **endotracheal tube (ETT) placement** by detecting carbon dioxide in exhaled breath. - A persistent waveform indicates the ETT is in the **trachea**, while absence suggests esophageal intubation. *Pulmonary embolism* - While capnography can show a **decrease in end-tidal CO2 (ETCO2)** due to increased dead space in pulmonary embolism, it is not its primary or most definitive diagnostic application. - Other diagnostic methods like CT pulmonary angiogram are preferred for confirming pulmonary embolism. *Adequate ventilation* - Capnography provides information about **ETCO2 levels**, which can indirectly reflect adequate ventilation by showing CO2 elimination. - However, it's more direct application is intubation confirmation, and other measures like **tidal volume** and **respiratory rate** are also crucial for assessing overall ventilation. *Significant metabolic change* - Capnography can show changes in CO2 production reflecting metabolic rate, such as in **hypermetabolic states** (e.g., fever, sepsis) or hypometabolic states. - While useful for monitoring trends, its primary role is not for diagnosing such changes but rather intubation confirmation.
Question 1365: Circuit of choice for controlled ventilation ?
- A. Magill circuit
- B. Type C
- C. Type E
- D. Type D (Correct Answer)
Explanation: **Type D** - The **Type D circuit** (also known as the **Bain circuit** or a modified Mapleson D circuit) is highly efficient for **controlled ventilation** due to its fresh gas flow entering near the patient, effectively sweeping away exhaled gases. - Its design maintains a relatively constant **expiratory resistance**, making it suitable for precise control of ventilation parameters. *Magill circuit* - The **Magill circuit** (Mapleson A) is efficient for **spontaneous ventilation** but requires a high fresh gas flow to prevent rebreathing during controlled ventilation. - During controlled ventilation, a high minute volume is required to flush out expired gases efficiently, which can be wasteful of anesthetic agents. *Type C* - The **Type C circuit** (Mapleson C circuit) is a simple system useful for **resuscitation** and short procedures but is inefficient for prolonged controlled ventilation. - It has a high resistance to gas flow and a tendency for significant rebreathing during both spontaneous and controlled breathing, leading to high CO2 levels. *Type E* - The **Type E circuit** (Mapleson E circuit) is a basic T-piece system, primarily used for **spontaneous breathing in infants and children**. - It lacks a reservoir bag and adjustable pressure limiting valve, making it unsuitable for controlling ventilation effectively in adults.
Question 1366: Which of the following anesthetics is known to increase intraocular pressure?
- A. Thiopental
- B. Alfentanil
- C. Ketamine (Correct Answer)
- D. Propofol
Explanation: ***Ketamine*** - **Ketamine** is known to increase **intraocular pressure (IOP)**, making it generally avoided in patients with **glaucoma** or those undergoing ocular surgery. - This effect is due to its influence on sympathetic nervous system activity and extraocular muscle tone. *Thiopental* - **Thiopental**, a barbiturate, typically causes a **reduction in intraocular pressure**, which can be beneficial in certain ocular procedures. - Its mechanism involves decreasing cerebral blood flow and metabolic rate, indirectly leading to a decrease in IOP. *Alfentanil* - **Alfentanil**, an opioid, generally has **minimal to no significant effect on intraocular pressure**. - Its primary actions are analgesia and sedation, without direct impact on oculomotor tone or fluid dynamics. *Propofol* - **Propofol** is known to **decrease intraocular pressure**, making it a favorable agent for ophthalmic surgery. - This effect is attributed to a reduction in cerebral blood flow and an inhibition of aqueous humor production.
Question 1367: Who coined the term "balanced anaesthesia"?
- A. Simpson
- B. Fischer
- C. Morton
- D. Lundy (John S. Lundy) (Correct Answer)
Explanation: ***Lundy (John S. Lundy)*** - **John S. Lundy** is credited with coining the term "**balanced anaesthesia**" in the early 20th century. - This concept describes the use of **multiple anesthetic agents** in combination, each contributing to different aspects of anesthesia (e.g., hypnosis, analgesia, muscle relaxation). *Simpson* - **Sir James Young Simpson** was a Scottish physician who pioneered the use of **chloroform** and ether as anesthetics in the mid-19th century. - While he significantly advanced the field of anesthesia, he did not coin the term "balanced anaesthesia." *Fischer* - **Emil Fischer** was a German chemist who won the Nobel Prize in Chemistry for his work on sugar and purine syntheses. - His contributions were primarily in organic chemistry and biochemistry, not directly in the field of clinical anesthesia terminology. *Morton* - **William T.G. Morton** was an American dentist who famously demonstrated the first public use of **ether** for surgical anesthesia in 1846. - He is known for popularizing ether as a surgical anesthetic but did not coin the term "balanced anaesthesia."
Biochemistry
1 questionsCritical temperature for liquid nitrogen is ?
NEET-PG 2013 - Biochemistry NEET-PG Practice Questions and MCQs
Question 1361: Critical temperature for liquid nitrogen is ?
- A. 36.5°C
- B. -20°C
- C. -147°C (Correct Answer)
- D. -242°C
Explanation: ***-147°C*** - The **critical temperature** is the temperature above which a gas cannot be liquefied, no matter how much pressure is applied. For **liquid nitrogen**, this value is approximately **-147°C**. - At temperatures above **-147°C**, nitrogen exists only in its gaseous phase. *36.5°C* - This temperature is close to **human body temperature** and is not relevant to the critical temperature of nitrogen. - Nitrogen would be in a gaseous state at this temperature and below its critical pressure. *-20°C* - While a low temperature, **-20°C** is still well above nitrogen's **critical temperature**. - At **-20°C**, nitrogen would be a gas unless subjected to very high pressures. *-242°C* - This temperature is below the **critical temperature** of nitrogen, but it is also below its **boiling point** of **-196°C**. - At **-242°C**, nitrogen would be a liquid, but this value is not its critical temperature.
Dermatology
1 questionsPotato nose is seen in ?
NEET-PG 2013 - Dermatology NEET-PG Practice Questions and MCQs
Question 1361: Potato nose is seen in ?
- A. Acne vulgaris
- B. Rhinosporoidosis
- C. Acne rosacea (Correct Answer)
- D. Lupus vulgaris
Explanation: ***Acne rosacea*** - **Potato nose**, also known as **rhinophyma**, is a severe manifestation of **acne rosacea**, characterized by thickened, red, and bumpy skin on the nose. - This condition results from **hyperplasia of sebaceous glands** and connective tissue in the nose, leading to its characteristic bulbous appearance. *Acne vulgaris* - This common skin condition is characterized by **comedones**, **papules**, **pustules**, and sometimes cysts, primarily on the face, chest, and back. - It does **not typically cause rhinophyma** or significant thickening of nasal skin. *Rhinosporoidosis* - This is a **chronic granulomatous fungal infection** affecting mucous membranes, particularly the nose. - While it can cause nasal polyps and masses, it does **not result in the sebaceous gland hyperplasia** and thickened skin characteristic of rhinophyma. *Lupus vulgaris* - Lupus vulgaris is a chronic and progressive form of **cutaneous tuberculosis**, often affecting the face. - It presents with **reddish-brown plaques** and nodules that can ulcerate and scar but does **not lead to the specific nasal hypertrophy** seen in rhinophyma.
Internal Medicine
1 questionsLovibond profile sign is seen in ?
NEET-PG 2013 - Internal Medicine NEET-PG Practice Questions and MCQs
Question 1361: Lovibond profile sign is seen in ?
- A. Koilonychia (spoon nails)
- B. Platynochia (flat nails)
- C. Nail clubbing (Correct Answer)
- D. Onycholysis (separation of the nail from the nail bed)
Explanation: Nail clubbing - The Lovibond profile sign (Lovibond's angle or profile sign) is a clinical finding where the angle between the nail plate and the proximal nail fold straightens or becomes greater than 180 degrees. - This sign is a key indicator of nail clubbing, which is often associated with underlying systemic conditions such as respiratory or cardiac diseases [1]. Koilonychia (spoon nails) - Koilonychia presents as concave or spoon-shaped nails, where the nail plate is depressed centrally with everted edges [1]. - This condition is typically associated with iron deficiency anemia and does not involve an alteration of the Lovibond angle. Platynochia (flat nails) - Platynochia refers to nails that are unusually flat without the normal convex curvature. - This is a descriptive term for nail shape and is not specifically evaluated by the Lovibond profile sign. Onycholysis (separation of the nail from the nail bed) - Onycholysis is the detachment of the nail plate from the nail bed, usually starting at the distal free edge. - This condition is unrelated to the angle of the nail and the nail fold, which are assessed by the Lovibond profile sign.