What is the best management for a human bite?
Supraomohyoid dissection is a type of?
Which of the following neck dissections is considered the most conservative?
ESWL is contraindicated in which of the following stones -
A 65 year old male presents with CA prostate. The tumour is limited to the capsule and it is palpable on PR examination. The patient is diagnosed as stage T2a. What is the most appropriate treatment option?
Prostate cancer that is limited to the capsule and not the urethra would be staged as -
A high-riding prostate is indicative of which injury?
Which of the following is NOT a feature of membranous urethral injury?
What is the optimal timing for administering antibiotic prophylaxis before surgery?
Surgery for undescended testis is recommended at what age?
NEET-PG 2015 - Surgery NEET-PG Practice Questions and MCQs
Question 11: What is the best management for a human bite?
- A. Ampicillin plus sulbactam (Correct Answer)
- B. Clindamycin plus TMP-SMX
- C. Fluoroquinolone
- D. Doxycycline
Explanation: ***Ampicillin plus sulbactam*** - This combination is effective against the common **aerobic and anaerobic bacteria** found in human bite wounds, including **Eikenella corrodens** and oral streptococci. - The sulbactam component provides **beta-lactamase inhibition**, which is crucial as many oral bacteria produce these enzymes, rendering ampicillin alone ineffective. *Clindamycin plus TMP-SMX* - While clindamycin covers many anaerobes, it has **poor activity against Eikenella corrodens**, a key pathogen in human bites. - **TMP-SMX (trimethoprim-sulfamethoxazole)** also lacks reliable coverage against many oral anaerobes and Eikenella. *Fluoroquinolone* - **Fluoroquinolones** generally have good Gram-negative coverage but often possess **limited activity against oral anaerobes and streptococci** relevant to human bites. - There is a **growing concern for resistance** with fluoroquinolone monotherapy in these types of infections. *Doxycycline* - Doxycycline has a broad spectrum but is **not the first-line choice for human bites** due to inconsistent activity against common oral anaerobes and Eikenella corrodens. - It may be considered in specific cases, but **empiric coverage needs to be broader** for initial management of these **polymicrobial infections**.
Question 12: Supraomohyoid dissection is a type of?
- A. Selective neck dissection (Correct Answer)
- B. Modified radical neck dissection
- C. Radical neck dissection
- D. Posterolateral dissection
Explanation: ***Selective neck dissection*** - **Supraomohyoid dissection** specifically refers to a type of selective neck dissection, characterized by the removal of lymph node levels **I, II, and III**. - This procedure is commonly performed for early-stage oral cavity cancers due to their typical lymphatic spread patterns. *Modified radical neck dissection* - This dissection preserves one or more **non-lymphatic structures** (e.g., sternocleidomastoid muscle, internal jugular vein, spinal accessory nerve) that are typically removed in a radical neck dissection. - It involves a broader range of lymph node levels (typically **I-V**) compared to a supraomohyoid dissection. *Radical neck dissection* - This is a more extensive procedure involving the removal of all lymph node groups (levels **I-V**), along with the **sternocleidomastoid muscle**, **internal jugular vein**, and **spinal accessory nerve**. - It is reserved for advanced neck disease due to its significant morbidity. *Posterolateral dissection* - **Posterolateral neck dissection** is a term not commonly used within the standard classification of neck dissections (radical, modified radical, selective). - Lymphatic dissection is typically categorized based on anatomical levels rather than a general directional term like posterolateral.
Question 13: Which of the following neck dissections is considered the most conservative?
- A. Supraomohyoid neck dissection (Correct Answer)
- B. Radical neck dissection
- C. Modified radical neck dissection
- D. All options are conservative.
Explanation: ***Supraomohyoid neck dissection*** - This dissection is highly **selective**, removing only lymph nodes from **levels I, II, and III**, which are the most superficial and anterior groups in the neck. - It preserves the **internal jugular vein**, spinal accessory nerve, and sternocleidomastoid muscle, minimizing functional and cosmetic morbidity. *Radical neck dissection* - This is the **most extensive** neck dissection, involving the removal of all lymph node levels (I-V), the **internal jugular vein**, the **spinal accessory nerve**, and the **sternocleidomastoid muscle**. - It is reserved for advanced cancers with extensive nodal involvement due to its significant associated morbidity and functional deficits. *Modified radical neck dissection* - This dissection removes lymph nodes in levels I-V but **spares at least one non-lymphatic structure**, such as the spinal accessory nerve, internal jugular vein, or sternocleidomastoid muscle. - While less radical than a full radical neck dissection, it is still more extensive than a supraomohyoid dissection as it targets a broader range of lymph node levels. *All options are conservative.* - This statement is incorrect because **radical neck dissection** is by definition the most extensive and least conservative surgical approach to neck nodal disease. - The different types of neck dissections represent a spectrum of extensiveness, with supraomohyoid being the most selective and conservative.
Question 14: ESWL is contraindicated in which of the following stones -
- A. Urate stones
- B. Phosphate stones
- C. Oxalate Stones
- D. Cystine stones (Correct Answer)
Explanation: ***Cysteine stones*** - **Cystine stones** are very dense and hard, making them resistant to fragmentation by the shock waves generated during **Extracorporeal Shock Wave Lithotripsy (ESWL)**. - Due to their resistance to fragmentation, ESWL is generally ineffective for cystine stones, and other treatments like **ureteroscopy** or **percutaneous nephrolithotomy (PCNL)** are often preferred. *Oxalate Stones* - **Calcium oxalate stones** are generally **amenable to ESWL** as they are effectively fragmented by shock waves. - They are the **most common type of kidney stone** and often respond well to lithotripsy. *Urate stones* - **Uric acid stones** are typically **radiolucent** but are often **well-fragmented by ESWL**. - Their non-calcium composition does not hinder the effectiveness of shock waves. *Phosphate stones* - **Struvite (magnesium ammonium phosphate) stones** and **calcium phosphate stones** generally respond well to ESWL. - While sometimes large and branched (**staghorn calculi**), the individual components are susceptible to shock wave fragmentation, though multiple sessions or adjunctive therapies might be needed.
Question 15: A 65 year old male presents with CA prostate. The tumour is limited to the capsule and it is palpable on PR examination. The patient is diagnosed as stage T2a. What is the most appropriate treatment option?
- A. External beam radiation therapy
- B. Androgen deprivation therapy (ADT)
- C. Active surveillance
- D. Surgical removal of the prostate (Radical prostatectomy) (Correct Answer)
Explanation: ***Surgical removal of the prostate (Radical prostatectomy)*** - **Radical prostatectomy** is the **definitive treatment of choice** for **localized prostate cancer (T2a)** in patients with **good life expectancy (>10 years)**. - For a **65-year-old patient** with tumor confined to the prostate, **surgical removal offers excellent disease control** and potential cure. - This is the **preferred option** when the patient is **medically fit for surgery** and has adequate life expectancy. *External beam radiation therapy* - **External beam radiation therapy (EBRT)** is also an effective treatment for **localized T2a prostate cancer** with comparable long-term survival outcomes. - However, **radical prostatectomy is generally preferred** in younger, healthier patients as it: - Provides definitive pathological staging - Allows for immediate assessment of surgical margins - Preserves radiation as a salvage option if needed - EBRT is better suited for patients who are **not surgical candidates** due to comorbidities or patient preference. *Active surveillance* - **Active surveillance** is appropriate for **very low-risk prostate cancer** (T1c, PSA <10, Gleason ≤6). - For **T2a disease** (palpable tumor), the risk of progression is significant, making active surveillance **not the most appropriate first-line option**. - Would be considered only in patients with limited life expectancy or significant comorbidities. *Androgen deprivation therapy (ADT)* - **ADT** is used for **advanced, locally advanced, or metastatic prostate cancer** to reduce testosterone and slow tumor growth. - It is **not curative** and not appropriate as **monotherapy for localized T2a disease**. - May be used as adjuvant therapy with radiation in higher-risk cases, but not as primary treatment alone.
Question 16: Prostate cancer that is limited to the capsule and not the urethra would be staged as -
- A. T1
- B. T2 (Correct Answer)
- C. T3
- D. T0
Explanation: ***T2*** - A T2 stage indicates that the prostate cancer is **confined within the prostate capsule**, meaning it has not spread beyond the outer layer of the prostate gland. - While it is not limited to the urethra, the key defining characteristic of T2 is **capsular confinement**, which is described in the question. *T1* - T1 stage prostate cancer is typically **non-palpable** on digital rectal exam (DRE) and not visible on imaging. - It is often found incidentally, for example, during a **transurethral resection of the prostate (TURP)** for benign prostatic hyperplasia. *T3* - A T3 stage indicates that the prostate cancer has **extended beyond the prostate capsule**, but has not metastasized to distant sites. - This typically involves invasion into the **seminal vesicles** or other periprostatic tissues. *T0* - T0 means there is **no evidence of primary tumor**, which is not consistent with a diagnosed prostate cancer. - This staging is used when there is no measurable tumor.
Question 17: A high-riding prostate is indicative of which injury?
- A. Extraperitoneal Bladder rupture
- B. Intraperitoneal Bladder Rupture
- C. Membranous Urethral Injury (Correct Answer)
- D. Bulbar Urethral Injury
Explanation: ***Membranous Urethral Injury*** - A **high-riding prostate** is a classic sign of **membranous urethral injury**, often resulting from **pelvic fractures**. - The disruption of the **urethra** above the perineal membrane causes the prostate to be displaced superiorly and appear "high." *Extraperitoneal Bladder rupture* - This typically occurs with **pelvic fractures** and involves urine leaking into the **retropubic space**. - While associated with pelvic trauma, it does not directly cause a high-riding prostate; the bladder itself may be ruptured, but the relative position of the prostate is not significantly altered. *Intraperitoneal Bladder Rupture* - This type of rupture usually results from a direct blow to a **full bladder** and involves urine extravasating into the **peritoneal cavity**. - It does not cause a high-riding prostate, as the injury is to the dome of the bladder, not the structures supporting the prostate. *Bulbar Urethral Injury* - A **bulbar urethral injury** usually results from a **straddle injury** and is located in the anterior urethra. - This type of injury does not affect the anatomical position of the prostate, which is posterior and superior to the bulbar urethra.
Question 18: Which of the following is NOT a feature of membranous urethral injury?
- A. blood at the meatus
- B. Retention of urine
- C. Pelvic fracture
- D. Perineal butterfly hematoma (Correct Answer)
Explanation: ***Perineal butterfly hematoma*** - A **perineal butterfly hematoma** is more characteristic of an injury to the **anterior urethra**, specifically the bulbar urethra, often caused by a straddle injury. - It occurs due to the extravasation of blood into the subcutaneous tissue of the perineum, outlining the shape of a butterfly. *blood at the meatus* - **Blood at the meatus** is a classic sign of urethral injury, regardless of the segment (anterior or posterior). - It indicates disruption of the urethral mucosa and bleeding from the damaged blood vessels. *Retention of urine* - **Retention of urine** can occur due to either a complete or partial urethral transection, preventing normal urine flow. - The inability to void can lead to bladder distension and is a significant symptom in assessing urethral trauma severity. *Pelvic fracture* - **Pelvic fractures** are frequently associated with **membranous urethral injuries** because the membranous urethra is fixed within the pelvic ring. - Shear forces from pelvic trauma can cause the prostatomembranous junction to avulse.
Question 19: What is the optimal timing for administering antibiotic prophylaxis before surgery?
- A. Immediately before induction of anesthesia
- B. 30-60 minutes before incision (Correct Answer)
- C. 2-3 hours before surgery
- D. Immediately after surgery
Explanation: ***30-60 minutes before incision*** - This is the **optimal timing** recommended by WHO, CDC, and major surgical guidelines for most commonly used prophylactic antibiotics (cefazolin, cefuroxime). - Ensures **peak tissue and serum concentrations** are achieved at the time of incision, providing maximum protection against surgical site infections. - Based on **pharmacokinetic principles**: the antibiotic must be present at bactericidal concentrations in tissues when bacterial contamination occurs. - Studies show this timing significantly reduces surgical site infection rates compared to other timings. *Immediately before induction of anesthesia* - While acceptable in some protocols, this may be too early if there is a delay between induction and incision. - Could result in **declining antibiotic levels** by the time the incision is made, especially for antibiotics with shorter half-lives. *2-3 hours before surgery* - This is **too early** for most antibiotics. - Tissue levels may have already **declined below therapeutic concentrations** by the time of incision. - Does not provide adequate protection during the critical period of bacterial contamination. *Immediately after surgery* - This is **treatment, not prophylaxis**. - Offers **no preventive benefit** against intraoperative contamination. - By this time, bacteria introduced during surgery have already adhered to tissues and begun forming biofilms.
Question 20: Surgery for undescended testis is recommended at what age?
- A. 36 months
- B. 12 months (Correct Answer)
- C. 24 months
- D. 6 months
Explanation: ***12 months*** - **Orchiopexy** for undescended testes is generally recommended around **12 months of age** to optimize fertility and reduce cancer risk. - This timing is within the ideal surgical window of **6-18 months**, balancing the allowance for potential spontaneous descent (which rarely occurs after 6 months) with minimizing germ cell damage. - Most pediatric surgeons prefer operating around **12 months** as it provides optimal outcomes. *6 months* - While **6 months is within the acceptable surgical window** (6-18 months), most surgeons prefer waiting closer to 12 months. - Operating at 6 months is not incorrect, but waiting a few more months allows for logistical planning and ensures any late spontaneous descent has occurred. - The key is to operate **before 18 months** to preserve fertility potential. *24 months* - Delaying surgery until 24 months (2 years) **exceeds the recommended window** and increases the risk of germ cell damage and potential future infertility. - While still beneficial compared to no surgery, the ideal timing for preserving fertility and minimizing malignancy risk has passed. *36 months* - Surgery at 36 months (3 years) is considered a **significant delay** and carries higher risks for long-term complications, including reduced fertility potential and increased risk of testicular cancer. - The benefits of early intervention are largely diminished by this age, though orchiopexy is still indicated to reduce cancer risk and for cosmetic/psychological reasons.