IVC filter is used in the following situations except -

As primary treatment for acute DVT

To prevent progress of native blood vessel disease

In the initial management of a hemodynamically unstable polytrauma patient, what is the recommended initial crystalloid bolus dose of Ringer's lactate for assessment and stabilization?

1000 ml Ringer's lactate bolus, then regulated by clinical indicators

500 ml Ringer's lactate bolus, then regulated by clinical indicators

Rehydration therapy in a 2 year old severely dehydrated child is -

30 ml/kg in 30 min, 70 ml/kg in 2.5 hours

30 ml/kg in 1 hour, 70 ml/kg in 5 hours

20 ml/kg in 30 min, 80 ml/kg in 2.5 hours

The Acute Physiology and Chronic Health Evaluation (APACHE) scoring system is used for what purpose?

Evaluating prognosis in critical care settings

Predicting postoperative cardiac risk

Predicting postoperative pulmonary complications

Evaluating prognosis after acute myocardial infarction

Renal Replacement Therapy for UPSC-CMS: High-Yield Anesthesiology Lessons

RRT Fundamentals - Kidney SOS Signals

Indications for RRT (Kidney SOS):
- Absolute (Life-threatening):
  - Refractory hyperkalemia (>6.5 mEq/L + ECG changes)
  - Severe metabolic acidosis (pH <7.1)
  - Uremic emergencies (pericarditis, encephalopathy)
  - Refractory pulmonary edema
  - Certain intoxications (salicylates, lithium, methanol)
- Relative:
  - Progressive azotemia (BUN >80-100 mg/dL)
  - Symptomatic uremia (nausea, fatigue)
  - Diuretic-resistant fluid overload

⭐ The AEIOU mnemonic (Acidosis, Electrolyte abnormalities, Intoxications, Overload (fluid), Uremia) is a key guide for initiating RRT in AKI.

Core Principles:
- Diffusion: Solute movement down concentration gradient (small molecules).
- Convection: Solutes dragged with fluid flow (middle molecules).
- Ultrafiltration: Fluid removal via pressure gradient.

Renal Replacement Therapy Principles

RRT Modalities - Dialysis Dance Moves

Intermittent Hemodialysis (IHD):
- Rapid (3-4h) solute & fluid removal. High efficiency.
- Mechanism: Primarily diffusion.
- Pros: Widely available, quick K⁺/toxin removal.
- Cons: Hemodynamic instability (hypotension), disequilibrium syndrome.
Continuous Renal Replacement Therapy (CRRT):
- Slow, continuous (24h) therapy; ideal for unstable patients.
- Key Mechanisms & Variants:
  - CVVH (Continuous Veno-Venous Hemofiltration): Convection (middle molecules, sepsis).
  - CVVHD (Continuous Veno-Venous Hemodialysis): Diffusion (small solutes like urea).
  - CVVHDF (Continuous Veno-Venous Hemodiafiltration): Both (max clearance).
⭐ CRRT is generally preferred over IHD in hemodynamically unstable critically ill patients due to better hemodynamic tolerance.
Sustained Low-Efficiency Daily Dialysis (SLEDD) / Prolonged Intermittent RRT (PIRRT):
- Hybrid (6-12h sessions). Slower blood/dialysate flow rates than IHD.
- Pros: Better hemodynamic tolerance than IHD; efficient solute clearance; flexible.
- Cons: Less standardized; daily sessions.

Access & Anticoagulation - Pipes & Smooth Rides

Vascular Access (Pipes)
- Catheters: Non-cuffed (temporary, <3 wks), Cuffed (tunneled, >3 wks). Size: 11-14 Fr.
- Sites (Ultrasound-guided):
  - Internal Jugular (RIJ preferred): ↓infection/thrombosis.
  - Femoral: ↑infection/thrombosis; emergency/contraindications to IJ/SCV.
  - Subclavian: ↑stenosis risk (avoid if future AVF).
- Complications: CLABSI, thrombosis, stenosis, hematoma, pneumothorax.
Anticoagulation (Smooth Rides)
- Goal: Prevent filter clotting, maintain circuit patency.
- Options:
  - None: High bleeding risk.
  - Systemic Heparin (UFH): Monitor aPTT (target 1.5-2x baseline or 45-60s).
  - Regional Citrate Anticoagulation (RCA): Preferred if ↑bleeding risk.
    
    ⭐ For regional citrate anticoagulation, meticulous monitoring of both systemic and post-filter ionized calcium is crucial to prevent toxicity and ensure efficacy.
    - Post-filter $iCa$ target: <0.4 mmol/L.
  - LMWH: Caution in renal failure (bioaccumulation).

RRT Management & Hurdles - Navigating the Flow

Prescription & Dosing:
- IHD: Target $Kt/V$ ≥ 1.2-1.4 per session for solute clearance.
- CRRT: Effluent volume (dose) crucial for efficacy.
  
  ⭐ An effluent flow rate of 20‑25 mL/kg/hr is a common initial target for adequate solute clearance in CRRT.
Monitoring & Adequacy:
- Continuous: Hemodynamics (BP, HR), circuit pressures.
- Regular: Fluid balance, electrolytes (K⁺, Ca²⁺, PO₄³⁻), acid-base status.
- Assess adequacy: URR (IHD), delivered dose (CRRT).
Complications & Troubleshooting:

-   ⚠️ Hypotension: Most common. Optimize fluid status, use vasopressors.
-   Filter Clotting: Key hurdle. Anticoagulation (citrate, heparin).
-   Infections: CRBSI risk. Strict aseptic technique vital.
-   Electrolyte shifts (K⁺, PO₄³⁻, Ca²⁺): Monitor, adjust dialysate/replacement fluids carefully.

High‑Yield Points - ⚡ Biggest Takeaways

Indications for RRT: AEIOU (Acidosis, Electrolyte imbalance, Intoxication, fluid Overload, Uremia).

CRRT (Continuous Renal Replacement Therapy) is preferred in hemodynamically unstable patients.

Regional citrate anticoagulation is superior to heparin for reducing bleeding risk.

Key complications: Hypotension, dialysis disequilibrium syndrome, catheter-related infections, and bleeding.

Drug dosing requires careful adjustment in patients on RRT.

Acute vascular access: Non-tunneled double-lumen catheter (e.g., femoral, jugular).

SLED (Sustained Low-Efficiency Dialysis) offers a hybrid approach for select patients.

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