Table 2.
Summary of pharmacokinetic differences in paediatric populations compared with adults
| Developmental change | PK consequence | Drugs affected | Examples | |
|---|---|---|---|---|
| Absorption | ↓Intestinal transit | ↓Cmax and ↓AUC | Poorly solubles | Theophylline |
| Sustained release formulations | ||||
| ↓Gastric pH | ↑Cmax for weak acids | Weak acids | Penicillin | |
| ↓Cmax for weak bases | Weak bases | Itraconazole | ||
| ↓Intestinal bile concentration | ↓Cmax and ↓AUC | Poorly solubles | Hydrocortisone | |
| Distribution | Body composition | ↔Vd (neonates have relatively reduced fat whereas infants have relatively increased fat compared with adults; extracellular water is relatively higher in neonates compared with preschool children) | Lipophilic drugs ↓Vd in neonates and ↑Vd in infants compared with adults Hydrophilic drugs ↑Vd in infants compared with neonates | Diazepam Aminoglycosides (e.g. gentamycin) |
| ↓plasma protein | ↑free fraction of drug in plasma ↑Vd | Highly protein bound drugs | Phenytoin, salicylates, ampicillin, nafcillin, sulfisoxazole and sulfamethoxyphrazine | |
| Metabolism | Larger relative size of liver | ↑hepatic clearance of drugs | Those extensively metabolized | Theophylline, caffeine, carbamazepine and valproic acid |
| Ontogeny of liver enzymes | ↔hepatic metabolism of drugs | Drugs metabolism by specific pathways eg UDP glucuronosyl transferase | Chloramphenicol | |
| Bacterial colonization of the intestine | ↑Cmax and ↑AUC | Those metabolized within the gut | Digoxin | |
| Elimination | Larger relative size of kidney | ↑renal clearance in infants and preschool children | Those excreted unchanged in urine | Levetiracetam, cimetidine and certirizine |
| Ontogeny of tubular transporters | ↔renal clearance of drugs | Those susceptible to tubular transport | Digoxin |