Neonatal Infections Indian Medical PG Practice Questions and MCQs
Practice Indian Medical PG questions for Neonatal Infections. These multiple choice questions (MCQs) cover important concepts and help you prepare for your exams.
Neonatal Infections Indian Medical PG Question 1: Which organism is most associated with neonatal meningitis and skin rash?
- A. VZV
- B. Group B Streptococcus (GBS)
- C. HSV-2 (Correct Answer)
- D. Enterovirus 71
Neonatal Infections Explanation: ***HSV-2***
- **Neonatal herpes simplex virus (HSV)** infection, often caused by HSV-2 acquired during vaginal delivery, can manifest with **meningitis** and characteristic **skin vesicles** or a rash.
- The rash typically presents as clustered **vesicles on an erythematous base** and can be widespread, making it a key diagnostic clue alongside neurological symptoms.
*VZV*
- **Varicella-zoster virus (VZV)** can cause neonatal varicella, which presents with a rash but **meningitis** is a much less common complication, typically associated with more severe disseminated disease.
- The rash of neonatal varicella usually appears as **macules, papules, vesicles, and scabs** in various stages of healing, rather than the clustered vesicles seen in HSV.
*Group B Streptococcus (GBS)*
- **GBS** is a leading cause of **neonatal meningitis** and sepsis, but it typically does **not cause a skin rash** in affected infants.
- While GBS can cause systemic signs of infection and neurological symptoms, cutaneous manifestations are not characteristic.
*Enterovirus 71*
- **Enterovirus 71** is known to cause hand, foot, and mouth disease, which includes a **rash** and can, in severe cases, cause **meningitis** or encephalitis.
- However, the rash is typically maculopapular or vesicular on the palms, soles, and buttocks, and this association is less common for neonatal meningitis with widespread skin findings compared to HSV.
Neonatal Infections Indian Medical PG Question 2: Most appropriate sample for diagnosing congenital CMV infection in a neonate?
- A. Throat swab
- B. CSF
- C. Urine within 3 weeks (Correct Answer)
- D. Blood PCR
Neonatal Infections Explanation: ***Urine within 3 weeks***
- **Urine culture** or **PCR** for CMV collected within the first **3 weeks of life** is the gold standard for diagnosing congenital CMV infection.
- This timing is crucial to differentiate congenital infection from postnatal acquisition, as delayed testing can lead to misdiagnosis.
*Throat swab*
- While CMV can be shed in the **saliva**, a throat swab is less reliable for diagnosing congenital infection within the neonatal period, yielding more false negatives.
- Saliva samples are more commonly used if urine is not feasible, but still ideally performed within the **first few weeks** and may require confirmation.
*CSF*
- **Cerebrospinal fluid (CSF)** testing for CMV is typically performed to assess for **central nervous system involvement** in symptomatic infants, rather than for the primary diagnosis of congenital infection.
- A positive CSF CMV PCR indicates neurological complications but is not the primary diagnostic sample for the initial detection of congenital CMV.
*Blood PCR*
- **Blood PCR** for CMV can be used, but its sensitivity and specificity for diagnosing congenital CMV are generally lower than urine, especially in asymptomatic cases.
- Active **CMV replication** in the blood does not always equate to a congenital infection, as newborns can acquire the virus postnatally.
Neonatal Infections Indian Medical PG Question 3: According to neonatal resuscitation protocol, how much oxygen to give in a term neonate with apnea and bradycardia initially?
- A. 100%
- B. 21% (Correct Answer)
- C. 50%
- D. 30%
Neonatal Infections Explanation: ***21%***
- According to **NRP (Neonatal Resuscitation Program) 2020 guidelines**, for **term neonates (≥35 weeks gestation)** requiring resuscitation, the initial recommendation is to use **room air (21% oxygen)** to minimize the risk of hyperoxia and oxidative injury.
- Multiple randomized controlled trials have demonstrated that room air is as effective as 100% oxygen for initial resuscitation.
- Supplemental oxygen is only added if **oxygen saturation targets** are not met despite adequate ventilation, and should be titrated using **pulse oximetry**.
*30%*
- This concentration is **higher than room air** and is not the initial recommendation for term neonates needing resuscitation.
- Starting with a higher oxygen concentration can lead to **oxidative stress** without immediate benefit.
- Higher initial concentrations (21-30%) are reserved for **preterm neonates (<35 weeks)**.
*100%*
- Administering **100% oxygen** can be harmful to a neonate, potentially causing **oxidative injury** to developing organs, including the lungs, brain, and retina.
- This was the old practice but has been **discontinued** based on evidence showing increased mortality and morbidity.
- High concentrations are no longer recommended even in severe cases; oxygen should be titrated to saturation targets.
*50%*
- While lower than 100%, 50% oxygen is still **not the initial recommended concentration** for term neonates in resuscitation protocols.
- The goal is to start with **21% oxygen** and gradually increase based on **pulse oximetry monitoring** and target saturation ranges if 21% is insufficient.
Neonatal Infections Indian Medical PG Question 4: Which of the following is the most common cause of early-onset neonatal sepsis?
- A. Listeria monocytogenes
- B. Group B Streptococcus (Correct Answer)
- C. Klebsiella pneumoniae
- D. Escherichia coli
Neonatal Infections Explanation: ***Group B Streptococcus***
- **Group B Streptococcus (GBS)**, or *Streptococcus agalactiae*, is the **most common bacterial cause of early-onset neonatal sepsis** (within the first 7 days of life) in many populations.
- Transmission typically occurs vertically from the mother's vaginal flora during birth.
- **Intrapartum antibiotic prophylaxis** in GBS-positive mothers has significantly reduced incidence in developed countries.
*Escherichia coli*
- **E. coli** is the **second most common cause of early-onset sepsis** and the **leading cause in preterm and very low birth weight infants**.
- Can be transmitted from the maternal genital tract during delivery.
- Associated with higher mortality rates than GBS, particularly in preterm neonates.
*Listeria monocytogenes*
- While *Listeria monocytogenes* can cause **neonatal sepsis and meningitis**, it is far less common than GBS or E. coli.
- Associated with maternofetal transmission from **foodborne infection** in the mother.
- Can cause early or late-onset disease.
*Klebsiella pneumoniae*
- *Klebsiella pneumoniae* is more commonly associated with **late-onset neonatal sepsis**, particularly in **premature or critically ill neonates** in NICU settings.
- Often associated with **hospital-acquired infections** and invasive procedures.
- In some regions, particularly in developing countries, it can also cause early-onset disease.
Neonatal Infections Indian Medical PG Question 5: A mother brings her 1-month-old infant to the pediatrician. She says the baby is crying more than usual and is vomiting and does not want to eat. Meningitis is suspected, and a lumbar puncture is done, which shows the following results; Opening pressure = 240 mm H2O (normal = 100-200 mm H2O), WBC count: 1200/mm3, Protein: 200 mg/dL, Glucose: 30 mg/dL, Gram stain: gram-positive rods, Which of the following organisms is most likely responsible for this infant's meningitis?
- A. Neisseria meningitidis
- B. Streptococcus agalactiae
- C. Escherichia coli
- D. Listeria monocytogenes (Correct Answer)
Neonatal Infections Explanation: ***Listeria monocytogenes***
- The presence of **gram-positive rods** in the CSF of a 1-month-old infant with meningitis, coupled with the classic CSF findings (high WBC, high protein, low glucose), is highly suggestive of *Listeria monocytogenes*.
- This organism is a significant cause of **neonatal meningitis** and is known for its rod-shaped morphology.
*Neisseria meningitidis*
- This organism is a **gram-negative diplococcus**, which is inconsistent with the gram stain result of **gram-positive rods**.
- While it causes meningitis, its typical presentation and Gram stain morphology differ significantly.
*Streptococcus agalactiae*
- Also known as **Group B Streptococcus (GBS)**, this is a common cause of neonatal meningitis but is characterized as **gram-positive cocci in chains**, not rods.
- The gram stain finding rules out GBS in this case.
*Escherichia coli*
- *E. coli* is a **gram-negative rod** and can cause neonatal meningitis.
- However, the CSF gram stain in this case indicated **gram-positive rods**, which rules out *E. coli*.
Neonatal Infections Indian Medical PG Question 6: An appropriate single antibiotic for the empiric treatment of presumed bacterial meningitis in a six month old child would be:
- A. Cefotaxime (Correct Answer)
- B. Ampicillin
- C. Cefadroxil
- D. Cefuroxime
Neonatal Infections Explanation: ***Cefotaxime***
- As a **third-generation cephalosporin**, cefotaxime has excellent penetration into the **cerebrospinal fluid (CSF)** and provides broad-spectrum coverage against common bacterial meningitis pathogens in young children, including *Streptococcus pneumoniae*, *Neisseria meningitidis*, and *Haemophilus influenzae*.
- In a 6-month-old child, cefotaxime is an excellent choice for empiric therapy. While both cefotaxime and ceftriaxone are appropriate at this age, cefotaxime is specifically preferred over ceftriaxone in **neonates younger than 28 days** due to concerns about biliary pseudolithiasis and bilirubin displacement, which can worsen jaundice and increase the risk of kernicterus.
*Ampicillin*
- While effective against *Listeria monocytogenes* (particularly important in neonates and infants <3 months) and Group B *Streptococcus*, ampicillin provides **insufficient coverage** for many other common causes of bacterial meningitis in this age group, particularly penicillin-resistant *Streptococcus pneumoniae* and *Haemophilus influenzae*.
- Its use alone as empiric therapy for bacterial meningitis in a 6-month-old would be inadequate, often warranting combination therapy with a third-generation cephalosporin in younger infants.
*Cefadroxil*
- Cefadroxil is a **first-generation cephalosporin** primarily used for skin, soft tissue, and urinary tract infections.
- It has **poor penetration into the CSF** and therefore is not an appropriate choice for treating meningitis.
*Cefuroxime*
- Cefuroxime is a **second-generation cephalosporin** with limited activity against *Streptococcus pneumoniae* and certain **Gram-negative bacteria** compared to third-generation cephalosporins.
- While it has some central nervous system penetration, its efficacy is **inferior to third-generation cephalosporins** like cefotaxime or ceftriaxone for treating bacterial meningitis, especially considering the potential for resistant strains.
Neonatal Infections Indian Medical PG Question 7: How long should a child be isolated after being diagnosed with bacterial meningitis to prevent further transmission?
- A. Till 12 hrs after admission
- B. Till cultures become negative
- C. Till 24 hours after starting antibiotics (Correct Answer)
- D. Till antibiotics course is complete
Neonatal Infections Explanation: ***Till 24 hours after starting antibiotics***
- This duration is crucial because, after **24 hours of effective antibiotic therapy**, the bacterial load in the nasopharynx (the primary site of transmission) is significantly reduced.
- At this point, the child is generally considered **non-infectious**, and the risk of airborne transmission to others is minimal.
*Till 12 hrs after admission*
- This period is generally too short to ensure the child is non-infectious, as it may not be enough time for antibiotics to adequately reduce the bacterial load.
- Active shedding of bacteria through respiratory droplets can still occur, posing a risk of transmission.
*Till cultures become negative*
- Waiting for cultures to become negative is an overly stringent and impractical approach to isolation, as it can take several days for culture results.
- Clinical guidelines prioritize a more immediate and practical strategy for isolation based on antibiotic efficacy and reduced transmission risk.
*Till antibiotics course is complete*
- Isolating for the entire course of antibiotics is usually unnecessary and excessive, as the child is typically no longer contagious long before the full course is finished.
- Prolonged isolation can create logistical challenges and is not based on the infectious period for bacterial meningitis.
Neonatal Infections Indian Medical PG Question 8: A patient at 37 weeks' gestation came to the hospital without antenatal check-up and presented with onset of labor. On examination, the mother is Hep B positive. What management should be given to the neonate?
- A. Hep B vaccine+ IG (Correct Answer)
- B. Hep B vaccine only
- C. Only IG
- D. First IG then Hep B vaccine after 1 month
Neonatal Infections Explanation: ***Hep B vaccine + IG***
- Neonates born to mothers with **positive hepatitis B surface antigen (HBsAg)** should receive both the **hepatitis B vaccine** and **hepatitis B immune globulin (HBIG)** within **12 hours of birth**.
- This combination provides both **passive immunity** (from HBIG) and **active immunity** (from the vaccine) to rapidly protect the newborn from perinatal hepatitis B transmission.
*Hep B vaccine only*
- Administering only the **hepatitis B vaccine** would provide active immunity, but the **onset of protection is slower**, leaving the neonate vulnerable during the immediate high-risk period of exposure.
- While essential for long-term protection, the vaccine alone is **insufficient for immediate post-exposure prophylaxis** in a high-risk scenario.
*Only IG*
- Administering only **HBIG** provides immediate passive immunity, offering short-term protection, but it **does not confer long-lasting immunity**.
- Without the vaccine, the infant would remain susceptible to future HBV infection once the passive antibodies wane, which typically occurs within a few months.
*First IG then Hep B vaccine after 1 month*
- Delaying the **hepatitis B vaccine** by a month would leave the neonate inadequately protected against subsequent exposure or potential continued viral replication after the HBIG's passive immunity declines.
- The goal in this high-risk situation is to initiate **both passive and active immunity as quickly as possible** to maximize protection against perinatal transmission.
Neonatal Infections Indian Medical PG Question 9: A neonate develops sepsis with organism showing CAMP test positive. Likely organism?
- A. S. aureus
- B. E. coli
- C. Listeria
- D. Group B Streptococcus (Correct Answer)
Neonatal Infections Explanation: ***Group B Streptococcus***
- **Group B Streptococcus (GBS)**, or *Streptococcus agalactiae*, is the **most common cause of neonatal sepsis** and is the **classic organism** associated with a **positive CAMP test**.
- The **CAMP test** (Christie-Atkins-Munch-Petersen) detects synergistic hemolysis between the CAMP factor produced by GBS and *Staphylococcus aureus* beta-lysin, resulting in an **arrowhead-shaped zone of enhanced hemolysis**.
- GBS is strongly associated with **early-onset neonatal sepsis** (within first 7 days), transmitted vertically during delivery.
- When the CAMP test is mentioned in the context of neonatal sepsis, **GBS is the intended answer** due to its classical association and epidemiological importance.
*S. aureus*
- *Staphylococcus aureus* can cause **sepsis** in neonates but is **CAMP test negative**.
- It provides the beta-lysin used in the CAMP test to detect other organisms but does not produce the CAMP factor itself.
*E. coli*
- *Escherichia coli* is a **Gram-negative rod** and a frequent cause of **neonatal sepsis** and meningitis.
- As a Gram-negative bacterium, *E. coli* is **CAMP test negative**. The CAMP test is specific for certain Gram-positive bacteria.
*Listeria*
- *Listeria monocytogenes* is **also CAMP test positive**, which can cause diagnostic confusion.
- However, it causes a distinct clinical pattern: **granulomatosis infantiseptica**, meningoencephalitis, and is associated with **maternal ingestion of contaminated food**.
- Listeria is **less common** than GBS as a cause of neonatal sepsis and is not the classic teaching association for CAMP positivity.
- The CAMP positivity of Listeria is **weaker** and shows a different pattern (reverse CAMP) compared to the strong, characteristic arrowhead pattern of GBS.
Neonatal Infections Indian Medical PG Question 10: During delayed cord clamping, how much blood is typically transferred to the neonate?
- A. 50-100 mL (Correct Answer)
- B. 120-150 mL
- C. 150-180 mL
- D. 100-200 mL
Neonatal Infections Explanation: ***50-100 mL***
- **Delayed cord clamping (DCC)** allows for the transfer of a significant volume of **placental blood** back to the neonate.
- This typically results in an increase of approximately **50-100 mL** of blood volume in the infant, contributing to improved iron stores and hematocrit levels.
*120-150 mL*
- This volume is generally **higher than the average transfer** seen with standard delayed cord clamping, though individual variations can occur.
- While beneficial, such a large transfer might only occur with **prolonged clamping times** or specific neonatal interventions.
*150-180 mL*
- This range represents a **substantially larger volume** than what is typically transferred during routine delayed cord clamping.
- This volume is **uncommon** and might lead to concerns like **polycythemia** if it occurred.
*100-200 mL*
- While the lower end of this range (100 mL) can sometimes be achieved, 200 mL is generally **considered excessive** for typical delayed cord clamping.
- Such a large volume could contribute to **hyperbilirubinemia** and **polycythemia** in the neonate.
More Neonatal Infections Indian Medical PG questions available in the OnCourse app. Practice MCQs, flashcards, and get detailed explanations.
