Intermittent Hemodialysis (IHD) in Critical Care
π What is IHD?
Intermittent Hemodialysis (IHD) is a renal replacement therapy that removes waste products, excess fluid, and electrolytes over a short period β typically 3β5 hours/session, 3β6 times per week.
It mimics native kidney function but in a non-continuous fashion, using the principles of diffusion, ultrafiltration, and convection.
π§ͺ Core Principles
|
Principle |
Description |
|
Diffusion |
Movement of solutes (e.g., urea, creatinine, KβΊ) across semipermeable membrane down a concentration gradient |
|
Ultrafiltration |
Water removal via transmembrane pressure (controlled by dialyzer) |
|
Convection (minor) |
Solute dragged with water movement |
π§ Indications for IHD in ICU
Similar to AEIOU criteria but preferred in hemodynamically stable patients:
βοΈ Components of IHD Setup
|
Component |
Function |
|
Dialyzer (“artificial kidney”) |
Hollow fiber membrane for solute/fluid exchange |
|
Blood pump |
Maintains flow rate (200β400 mL/min) |
|
Dialysate pump |
Delivers dialysate (500β800 mL/min) |
|
Vascular access |
Double-lumen catheter in large vein (e.g., R IJV, femoral) |
|
Water purification system |
Removes toxins and endotoxins from dialysate |
|
Heparin pump (optional) |
For anticoagulation during dialysis |
π Typical IHD Prescription in ICU
|
Parameter |
Default/Adjustable |
|
Duration |
3β4 hours |
|
Frequency |
Daily or every other day (not fixed like CKD) |
|
Blood flow rate (Qb) |
200β300 mL/min |
|
Dialysate flow rate (Qd) |
500β800 mL/min |
|
Dialyzer type |
High-flux (better clearance of middle molecules) |
|
UF goal |
Based on fluid balance; usually 500β2000 mL/session |
|
Anticoagulation |
Unfractionated heparin bolus 500β1000 IU/h (omit if bleeding risk) |
π Dialysate Composition (Typical)
|
Component |
Range |
|
NaβΊ |
135β145 mEq/L |
|
KβΊ |
1β4 mEq/L (lower in hyperkalemia) |
|
CaΒ²βΊ |
1.25β1.75 mmol/L |
|
HCOββ» |
32β35 mEq/L |
|
Glucose |
~100 mg/dL |
π Modify KβΊ and HCOββ» depending on patientβs labs and clinical need.
π Anticoagulation in IHD
- Unfractionated heparin: bolus 1000β2000 IU, then 500 IU/h
- No anticoagulation: if active bleeding or high-risk (short sessions)
- Citrate anticoagulation: rarely used in IHD, more for CRRT
π¬ Solute Clearance in IHD
- Urea Reduction Ratio (URR) and Kt/V are standard metrics in CKD
π 1. Urea Reduction Ratio (URR)
πΉ Definition:
URR measures how much blood urea nitrogen (BUN) is reduced by a single dialysis session.
πΉ Formula:
URR=(BUNpre BUNpre βBUNpost )Γ100
- BUNβα΅£β: blood urea nitrogen before dialysis
- BUNββββ: blood urea nitrogen after dialysis
πΉ Interpretation:
- URR > 65% is generally considered adequate for thrice-weekly HD
- Example:
Pre-dialysis BUN = 80 mg/dL
Post-dialysis BUN = 30 mg/dL
URR = (80 β 30) / 80 Γ 100 = 62.5%
π¬ 2. Kt/V
πΉ Definition:
Kt/V is a dimensionless number that reflects the fraction of total body water (V) cleared of urea
- K = urea clearance (mL/min, based on dialyzer and flow rates)
- t = duration of dialysis (minutes)
- V = volume of distribution of urea β total body water (in mL)
πΉ Interpretation of Kt/V:
- Kt/V β₯ 1.2 per session (3x/week) = adequate
- Kt/V 1.4β1.6 = more optimal
- Low Kt/V means inadequate dialysis β leads to uremia, poor outcomes
π§ URR vs Kt/V β Quick Comparison:
|
Feature |
URR |
Kt/V |
|
What it measures |
% fall in BUN |
Volume of urea cleared per TBW |
|
Simplicity |
Easier to calculate |
More accurate but complex |
|
Includes time? |
No |
Yes |
|
Adjusts for body size |
No |
Yes (via V) |
|
Adequacy target |
>65% |
β₯1.2 per session |
β Complications of IHD
|
Type |
Examples |
|
Hemodynamic |
Hypotension (most common), arrhythmia |
|
Electrolyte |
Hypokalemia, hypocalcemia, hypophosphatemia |
|
Dialysis disequilibrium syndrome |
Cerebral edema, confusion, seizures |
|
Infection |
Catheter-related bloodstream infection (CRBSI) |
|
Bleeding |
From anticoagulation |
|
Thrombosis |
Clotting of dialyzer or access |