Neutralization test is
Vital staining technique is used to demonstrate:
Commonest cause of nosocomial infection is
Causative agents of "Vincent's angina"
All the following are common nosocomial infections except:
Hebra nose is caused by:
Weil felix reaction for Scrub typhus shows positivity for -
NEET-PG 2015 - Microbiology NEET-PG Practice Questions and MCQs
Question 81: Neutralization test is
- A. Widal test
- B. Weil-Felix test
- C. Paul-Bunnell test
- D. Nagler reaction (Correct Answer)
Explanation: ***Nagler reaction*** - The **Nagler reaction** is a biochemical test used to identify **Clostridium perfringens**, based on its ability to produce **alpha-toxin (lecithinase)**, which hydrolyzes lecithin in egg yolk agar. - It is a neutralization test because the lecithinase activity can be **inhibited (neutralized)** by antitoxin, leading to a diminished zone of opalescence or turbidity around colonies grown on egg yolk agar. *Widal test* - The **Widal test** is an **agglutination test** used to diagnose **typhoid fever** by detecting antibodies against *Salmonella typhi* O and H antigens in a patient's serum. - It measures the presence of antibodies that cause bacterial clumping, not the neutralization of a toxin. *Weil-Felix test* - The **Weil-Felix test** is an **agglutination test** used to diagnose **rickettsial infections** like epidemic typhus, scrub typhus, and Rocky Mountain spotted fever. - It detects antibodies that cross-react with specific **Proteus vulgaris** antigens, and is not a neutralization assay for toxins or enzymes. *Paul Bunnel test* - The **Paul-Bunnell test** is an **agglutination test** used to diagnose **infectious mononucleosis** by detecting heterophile antibodies that agglutinate sheep red blood cells. - It relies on the clumping of red blood cells by antibodies and does not involve the neutralization of a microbial product.
Question 82: Vital staining technique is used to demonstrate:
- A. Bacterial toxins
- B. Dead bacteria
- C. Living bacteria (Correct Answer)
- D. Fungal spores
Explanation: ***Living bacteria*** - **Vital staining** uses dyes taken up by living cells without killing them, allowing for the observation of their morphology and some physiological activities without fixation. - Examples include methylene blue and neutral red, which can stain living cells like bacteria and protozoa, helping to differentiate them from non-living matter or dead cells. *Bacterial toxins* - **Bacterial toxins** are substances produced by bacteria that can harm a host and are typically detected using immunological assays or biological functional tests, not vital staining. - Vital staining focuses on the cellular components and viability of the bacteria themselves, not on secreted products like toxins. *Dead bacteria* - **Dead bacteria** often have compromised cell membranes and would either not take up vital stains in the same way as living bacteria or might take up certain stains (like trypan blue or propidium iodide) that are specifically used to identify dead cells by penetrating their damaged membranes. - Vital staining's primary purpose is to visualize *living* structures, relying on intact cell membranes and metabolic activity. *Fungal spores* - While some **fungal spores** can be stained with various techniques, vital staining methods are generally employed to distinguish living, metabolically active cells (including some fungal cells) from dead ones or debris. - However, the question specifically refers to "vital staining technique" in general terms, and the most classic and direct association is with the demonstration of living microbial cells, especially bacteria.
Question 83: Commonest cause of nosocomial infection is
- A. Staphylococci (Correct Answer)
- B. Klebsiella
- C. Enterobacteriaceae
- D. Pseudomonas
Explanation: ***Staphylococci*** - **Staphylococci**, particularly *Staphylococcus aureus* (including MRSA) and coagulase-negative staphylococci, are the **most common cause** of nosocomial infections according to current surveillance data from CDC, WHO, and Indian hospital studies. - They are the leading cause of **surgical site infections**, **catheter-related bloodstream infections**, **ventilator-associated pneumonia**, and **skin and soft tissue infections** in hospital settings. - Their ability to form biofilms on medical devices, antibiotic resistance (especially MRSA), and widespread colonization of healthcare workers and patients make them the predominant nosocomial pathogen. *Enterobacteriaceae* - The family **Enterobacteriaceae** (including *E. coli*, *Klebsiella*, *Enterobacter*) represents a major group of gram-negative nosocomial pathogens. - They are very common causes of **urinary tract infections**, **pneumonia**, and **bloodstream infections**, particularly associated with indwelling catheters and ventilators. - While collectively representing a large proportion of nosocomial infections, they are the **second most common** group after Staphylococci in most contemporary studies. *Pseudomonas* - *Pseudomonas aeruginosa* is an important nosocomial pathogen, particularly in **ventilator-associated pneumonia**, **burn infections**, and infections in immunocompromised patients. - It accounts for approximately 10-15% of nosocomial infections and is especially problematic due to its intrinsic antibiotic resistance. *Klebsiella* - **Klebsiella** (particularly *K. pneumoniae*) is a member of the Enterobacteriaceae family and an important individual pathogen causing **pneumonia** and **urinary tract infections** in healthcare settings. - While a common pathogen, it represents only a subset of both the Enterobacteriaceae family and overall nosocomial infections, making it less common than the entire Staphylococci group.
Question 84: Causative agents of "Vincent's angina"
- A. Borrelia burgdorferi and Lactobacillus
- B. Leptospira and Treponema pallidum
- C. Borrelia recurrentis and Bacteroides
- D. Borrelia vincenti and Fusobacterium nucleatum (Correct Answer)
Explanation: ***Borrelia vincenti and Fusobacterium nucleatum*** - **Vincent's angina**, also known as **acute necrotizing ulcerative gingivitis (ANUG)**, is polymicrobial and characteristically involves a synergistic infection of **spirochetes** (like *Borrelia vincenti*, now classified as *Treponema vincentii*) and **fusobacteria** (like *Fusobacterium nucleatum*). - These organisms thrive in an anaerobic environment, leading to the characteristic ulcerative and necrotic lesions of the gingiva and oral mucosa. - This synergistic infection produces the classic "fusospirochaetal" complex seen on microscopy. *Borrelia burgdorferi and Lactobacillus* - *Borrelia burgdorferi* is the causative agent of **Lyme disease**, a tick-borne illness causing systemic symptoms, not Vincent's angina. - *Lactobacillus* species are common commensal bacteria found in the oral cavity, gut, and vagina, and are not pathogenic in the context of Vincent's angina. *Leptospira and Treponema pallidum* - *Leptospira* species cause **leptospirosis**, a zoonotic disease with symptoms like fever, headache, and muscle aches, often affecting the kidneys and liver. - *Treponema pallidum* is the causative agent of **syphilis**, a sexually transmitted infection, which presents with different oral lesions (e.g., chancre, mucous patches) that are distinct from Vincent's angina. *Borrelia recurrentis and Bacteroides* - *Borrelia recurrentis* causes **relapsing fever**, characterized by recurrent episodes of fever and other systemic symptoms, transmitted by lice or ticks. - While *Bacteroides* are common anaerobic bacteria in the oral flora, they are not the primary synergistic pair specifically associated with the distinct clinical presentation of Vincent's angina, as are the spirochetes and fusobacteria.
Question 85: All the following are common nosocomial infections except:
- A. Staph. aureus
- B. Mycobacterium (Correct Answer)
- C. Enterobacteriaceae
- D. P. aeruginosa
Explanation: ***Mycobacterium*** - **Mycobacterium** species are not typically considered common causes of **acute nosocomial infections** because they are slow-growing and usually cause chronic infections. - While healthcare workers or patients can acquire tuberculosis in healthcare settings, it is less common for *Mycobacterium* to be the cause of rapidly developing, typical healthcare-associated infections like pneumonia or bloodstream infections. *Staph. aureus* - **_Staphylococcus aureus_** is a very common cause of **nosocomial infections**, particularly **MRSA (methicillin-resistant *S. aureus*)**, leading to surgical site infections, bloodstream infections, and pneumonia. - It colonizes healthcare workers and patients, making it easily transmissible in hospital environments. *Enterobacteriaceae* - **Enterobacteriaceae** (e.g., _E. coli_, _Klebsiella_, _Enterobacter_) are frequently implicated in **nosocomial infections**, especially **urinary tract infections (UTIs)**, pneumonia, and bloodstream infections. - These bacteria are part of the normal flora but can cause serious infections when introduced into sterile sites or in immunocompromised patients. *P. aeruginosa* - **_Pseudomonas aeruginosa_** is a significant cause of **nosocomial infections**, particularly in intensive care units (ICUs) and among immunocompromised patients. - It is known for causing **ventilator-associated pneumonia (VAP)**, UTIs, and wound infections, often exhibiting multidrug resistance.
Question 86: Hebra nose is caused by:
- A. C. diphtheriae
- B. Pseudomonas
- C. Staph aureus
- D. Frisch bacillus (Correct Answer)
Explanation: ***Frisch bacillus*** - **Frisch bacillus**, also known as *Klebsiella rhinoscleromatis*, is the causative agent of **rhinoscleroma**, which often presents as a condition causing tumor-like growths in the nose, leading to the characteristic "Hebra nose." - **Hebra nose** refers to the chronic, deforming nasal lesion associated with late stages of **rhinoscleroma**, characterized by hardening and widening of the nose. *C. diphtheriae* - *Corynebacterium diphtheriae* causes **diphtheria**, primarily affecting the respiratory tract and skin. - It forms a **pseudomembrane** in the throat and can lead to systemic complications due to toxin production, but it does not cause Hebra nose. *Pseudomonas* - *Pseudomonas aeruginosa* is an opportunistic pathogen commonly causing **nosocomial infections**, such as pneumonia, urinary tract infections, and wound infections. - While it can cause various infections, it is not associated with the specific nasal deformity known as Hebra nose. *Staph aureus* - *Staphylococcus aureus* is a common bacterium causing a wide range of infections, including **skin infections** (e.g., boils, cellulitis), **pneumonia**, and **sepsis**. - Although it can cause nasal colonization and local infections, it does not cause the chronic, deforming condition known as Hebra nose.
Question 87: Weil felix reaction for Scrub typhus shows positivity for -
- A. OX-19
- B. OX-K (Correct Answer)
- C. OX-2
- D. OXK + OX19
Explanation: ***Correct Answer: OX-K*** - The **Weil-Felix reaction** for Scrub typhus specifically detects antibodies against the **OX-K antigen**, which is derived from *Proteus mirabilis* but shares antigenic determinants with *Orientia tsutsugamushi* (causative agent of Scrub typhus). - A positive **OX-K** reaction indicates the presence of these antibodies, suggesting an active or recent infection with **Scrub typhus**. - This is the **characteristic and specific finding** for Scrub typhus in the Weil-Felix test. *Incorrect: OX-19* - This antigen is used to detect **epidemic typhus** (*Rickettsia prowazekii*) and **murine typhus** (*Rickettsia typhi*) in the Weil-Felix reaction. - It does not show significant cross-reactivity with *Orientia tsutsugamushi*, the causative agent of Scrub typhus. - Would be **negative** in Scrub typhus cases. *Incorrect: OX-2* - The **OX-2 antigen** is primarily used to detect **spotted fever group rickettsiae**, such as *Rickettsia rickettsii* (Rocky Mountain spotted fever). - It is **not relevant** for the diagnosis of Scrub typhus and would typically show a negative result in such cases. *Incorrect: OXK + OX19* - While both antigens are part of the Weil-Felix reaction panel, positivity for **OX-K alone** is characteristic of Scrub typhus. - **OX-19 positivity** points to epidemic or murine typhus, which are different rickettsial diseases. - This combination is not the typical pattern for Scrub typhus.