## Correct Answer: A. -125 mm Hg Vacuum-assisted closure (VAC) therapy, also known as negative pressure wound therapy (NPWT), operates on the principle of applying controlled subatmospheric pressure to the wound bed. The ideal pressure setting of **-125 mm Hg** (approximately -16.7 kPa) is the gold standard recommended by most international guidelines and Indian surgical practice. This pressure level is optimal because it balances multiple therapeutic mechanisms: it promotes angiogenesis and granulation tissue formation, reduces interstitial edema, increases blood flow to the wound periphery, and facilitates bacterial clearance without causing tissue damage. At -125 mm Hg, the negative pressure is sufficient to collapse the foam dressing and create the necessary mechanical stimulus for wound healing, while remaining within the safe range that does not cause tissue maceration or vascular compromise. This pressure has been validated in clinical trials and is the standard setting used in most Indian tertiary care centers for managing complex wounds, diabetic foot ulcers, and post-operative dehiscence. Lower pressures are ineffective, while higher pressures risk tissue necrosis and complications. ## Why the other options are wrong **B. 60 to 80 mm Hg** — This pressure range is **too low** to achieve therapeutic benefit. At 60–80 mm Hg, the negative pressure is insufficient to properly collapse the foam dressing, create adequate mechanical stimulus, or promote effective angiogenesis and granulation tissue formation. This range may be used only in very fragile tissues (e.g., skin grafts or flaps) where even -125 mm Hg might be excessive, but it is not the 'ideal' standard pressure for routine wound management. The NBE trap here is confusing the *initial* or *tissue-specific* pressure with the standard therapeutic pressure. **C. 130 mm Hg** — While this pressure is close to the ideal -125 mm Hg, it is slightly **higher and carries increased risk** of tissue damage, maceration, and vascular compromise if applied continuously. Pressures above -125 mm Hg are generally avoided in routine practice because they do not provide additional benefit and increase the risk of complications such as tissue necrosis, pain, and bleeding. This option tests whether students know the precise upper limit of the safe therapeutic window. **D. 80 to 100 mm Hg** — This pressure range is **suboptimal and insufficient** for standard VAC therapy. At 80–100 mm Hg, the negative pressure does not generate adequate mechanical stimulus for effective wound healing, angiogenesis, or bacterial clearance compared to -125 mm Hg. This range may be used in special circumstances (e.g., initial therapy in highly sensitive tissues), but it is not the ideal standard setting. The NBE trap is offering a 'middle ground' pressure that students might choose if they are uncertain about the exact value. ## High-Yield Facts - **Ideal VAC pressure: -125 mm Hg** (approximately -16.7 kPa) is the gold standard for routine wound management. - **Continuous vs. intermittent therapy**: Continuous application at -125 mm Hg is standard; intermittent cycles (e.g., 5 minutes on, 2 minutes off) may be used in sensitive tissues. - **Lower pressures (60–80 mm Hg)** are reserved for fragile tissues like skin grafts, flaps, or newly epithelialized wounds. - **Higher pressures (>-125 mm Hg)** increase risk of tissue maceration, pain, and vascular compromise without additional benefit. - **Mechanism at -125 mm Hg**: Promotes angiogenesis, reduces edema, increases peripheral blood flow, and facilitates bacterial clearance through mechanical stimulus. ## Mnemonics **VAC Pressure Rule (125 = Standard)** **125** is the magic number for VAC therapy. Remember: 125 mm Hg = standard adult wound, 60–80 mm Hg = delicate tissues (grafts/flaps), >125 mm Hg = danger zone (tissue damage). Use this when you see any VAC pressure question. **NPWT Pressure Zones** **Low (60–80)** = Grafts/flaps; **Standard (125)** = Routine wounds; **High (>125)** = Complications. Think: 'Low for delicate, 125 for normal, high for harm.' ## NBE Trap NBE pairs -125 mm Hg with nearby pressure values (60–80, 80–100, 130 mm Hg) to test whether students know the *exact* therapeutic pressure or are merely guessing. Students who confuse VAC pressure with positive pressure ventilation settings (which use positive numbers) may also be trapped. ## Clinical Pearl In Indian tertiary care centers, -125 mm Hg VAC therapy is routinely used for diabetic foot ulcers, post-operative dehiscence, and complex traumatic wounds. A common bedside observation: if the foam dressing does not collapse properly or the patient complains of excessive pain, check the pressure setting—it's often because the pressure is too low or too high, not because VAC itself is ineffective. _Reference: Bailey & Love's Short Practice of Surgery, Ch. 5 (Wound Healing & Management); Harrison's Principles of Internal Medicine, Ch. 297 (Pressure Ulcers & Wound Care)_
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