PK in Renal Impairment
How kidney disease affects drug elimination and dosing, and practical approaches to dose adjustment in renal impairment.
## Renal Impairment and Drug Therapy
Chronic kidney disease (CKD) affects approximately 15% of adults worldwide. Reduced renal function directly impairs excretion of renally cleared drugs and their metabolites, but also alters absorption, protein binding, distribution, and even hepatic metabolism through uremic toxins.
## Effects on Each PK Parameter
### Absorption
- Uremia raises gastric pH (urease-producing bacteria generate ammonia), reducing absorption of drugs requiring acid
- Edema of the GI tract may impair absorption
- Gastroparesis from diabetic nephropathy slows gastric emptying
### Distribution
- **Hypoalbuminemia** (nephrotic syndrome, advanced CKD) increases free drug fraction. Phenytoin free fraction may double, making total levels misleading — free phenytoin levels should be monitored.
- **Uremic toxins** displace drugs from albumin binding sites, further increasing free fractions
- Fluid overload increases Vd for hydrophilic drugs (vancomycin, aminoglycosides)
### Metabolism
CKD reduces hepatic CYP activity even in the absence of liver disease. Uremic toxins inhibit CYP3A4, CYP2C9, and CYP2D6. Non-renal clearance of drugs like erythromycin and codeine is reduced by 30-50% in severe CKD. This is often underappreciated.
### Excretion
The primary concern. As GFR declines:
| CKD Stage | eGFR (mL/min) | Clinical Action |
|-----------|--------------|-----------------|
| 1 | > 90 | Usually no adjustment needed |
| 2 | 60-89 | Monitor; adjust selected drugs |
| 3a/3b | 30-59 | Adjust most renally cleared drugs |
| 4 | 15-29 | Significant adjustments; avoid nephrotoxins |
| 5 | < 15 | Dialysis considerations; major adjustments |
## Dose Adjustment Methods
### Dose Reduction
Reduce each dose while maintaining the same dosing interval. This lowers Cmax and average Css while maintaining time-dependent activity. Preferred for concentration-dependent toxicity.
**Adjusted dose = Normal dose x (Patient CrCl / Normal CrCl)**
### Interval Extension
Keep the same dose but extend the interval between doses. This maintains Cmax for concentration-dependent drugs (aminoglycosides) while allowing more elimination time.
**Adjusted interval = Normal interval x (Normal CrCl / Patient CrCl)**
### Combination
Many drugs require both dose reduction and interval extension. Drug-specific guidelines from package inserts or renal dosing references should be followed.
## Dialysis Considerations
Hemodialysis removes drugs with:
- Low molecular weight (< 500 Da for conventional dialysis, < 20 kDa for high-flux)
- Low protein binding (free drug is dialyzable)
- Small Vd (drug is in the blood compartment)
- Water solubility
Post-dialysis supplemental doses are needed for aminoglycosides, vancomycin, and many beta-lactams. Drugs with large Vd (digoxin, amiodarone) are minimally affected by dialysis.
## Key Takeaways
- CKD affects all PK parameters, not just renal excretion
- Uremic toxins reduce hepatic CYP activity, affecting non-renal clearance
- Hypoalbuminemia increases free drug fractions — monitor free levels when applicable
- Choose dose reduction, interval extension, or both based on the drug's PK profile
- Dialyzability depends on molecular weight, protein binding, Vd, and water solubility