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©The Author(s) 2015.
World J Clin Pediatr. Nov 8, 2015; 4(4): 81-93
Published online Nov 8, 2015. doi: 10.5409/wjcp.v4.i4.81
Published online Nov 8, 2015. doi: 10.5409/wjcp.v4.i4.81
Table 1 Pharmacokinetics of caffeine compared to theophylline
| Caffeine | Theophylline | |
| Mechanism of action: | ||
| CNS stimulation | More active | Less active |
| Cardiac stimulation | Less active | More active |
| Diuresis | Less active | More active |
| Loading dose | 20 to 40 mg/kg per dose IV/PO | 4 to 8 mg/kg per dose IV |
| Maintenance dose | 5 to 8 mg/kg per dose once daily IV/PO | 1.5 to 3 mg/kg per dose every 8 to 12 h IV |
| Plasma half-life (h) | 40 to 230 (mean, 103) | 12 to 64 (mean, 30) |
| Therapeutic level (mg/L) | 5 to 25 | 7 to 12 |
| Toxic level (mg/L) | > 40 to 50 | > 20 |
| Adverse effects: | ||
| Cardiovascular | Tachycardia, dysrhythmia | Tachycardia, dysrhythmia |
| Gastrointestinal | Feeding intolerance, GER | Feeding intolerance, GER |
| CNS | Jitteriness, irritability, seizures | Jitteriness, irritability, seizures, decreased CBF |
| Signs of toxicity | Tachycardia, cardiac failure, pulmonary edema, hypertonia, sweating, metabolic disturbances | Tachycardia, agitation, hypokalemia, diuresis, gastric bleeding, seizure |
| Metabolism | Excreted unchanged or N-demethylation via CYP P450 (CYP1A2) liver-methyltransferase pathway | Excreted unchanged or undergoes 8-hydroxylation via CYP1A2 and CYP2E1 |
| Inter-conversion | 3% to 8% converted to theophylline via CYP1A2 | 25% converted to caffeine via methylation |
| Routine blood level | Not required | Required |
| Elimination | 86% unchanged in urine | 50% unchanged in urine |
| CSF level | Similar to plasma concentrations | Crosses into the CSF |
| Clearance (L/kg per hour)[9,43] | 0.002 to 0.017 | 0.02 to 0.05 |
Table 2 Recommended caffeine doses
| Trial | Design | Population | Intervention | Outcomes | Main results |
| Scanlon et al[48] United Kingdom | Prospective, randomized, controlled trial | 44 preterm infants less than 31 wk gestation | High (loading 25 mg/kg and maintenance 6 mg/kg per day) vs low (loading 12.5 mg/kg and maintenance 3 mg/kg per day) caffeine citrate given 24 h prior to extubation | Frequency of apnea | High dose caffeine significantly decreased the frequency of apnea |
| Steer et al[52] Australia | Prospective, randomized, blinded, controlled trial | 127 preterm infants less than 32 wk gestation | Three dosing regimens of caffeine citrate (3, 15 and 30 mg/kg) for peri-extubation management of ventilated preterm infants | Successful extubation defined as staying off ventilation for 7 d post-extubation | No statistically significant difference in the incidence of successful extubation however, infants in the two higher dose groups had statistically significantly less documented apnea |
| Steer et al[53] Australia | Prospective, randomized, blinded, controlled trial | 234 preterm infants less than 30 wk gestation on mechanical ventilation | High (loading 80 mg/kg and maintenance 20 mg/kg per day) vs low (loading 20 mg/kg and maintenance 5 mg/kg per day) caffeine citrate given 24 h prior to extubation | Primary: Successful extubation of mechanically ventilated infants Secondary: Frequency of apnea | High dose caffeine significantly increased the chance for successful extubation, decreased the frequency of apnea and shortened the duration of respiratory support |
| Shah et al[54] Singapore | Prospective, case control trial | Preterm infants less than 34 wk gestation | High (loading 20 mg/kg and maintenance 5 mg/kg per day) vs low (loading 10 mg/kg and maintenance 2.5 mg/kg per day) caffeine citrate | Primary: Frequency of apnea, desaturation, and shallow breathing Secondary: Side effect of caffeine, BPD, and ROP | High-dose caffeine significantly reduced episodes of apnea and shallow breathing without side effects |
| Gray et al[125] Australia | Prospective, randomized, blinded, controlled trial | 287 preterm infants less than 30 wk gestation exhibit AOP or require mechanical ventilation | Loading dose of 40 mg/kg followed by two maintenance doses of either 20 or 5 mg/kg per day | Primary: Cognitive development at 1 yr of age on the Griffiths Mental Development Scales Secondary: Neonatal morbidity, death and disability, temperament at 1 yr and behavior at 2 yr of age | High maintenance dose was associated with borderline benefit in cognitive outcome without increasing morbidity, temperament or behavior disorders |
| Mohammed et al[55] Egypt | Prospective, randomized, blinded, controlled trial | 120 preterm infants less than 32 wk gestation exhibit AOP or require mechanical ventilation | High (loading 40 mg/kg and maintenance 20 mg/kg per day) vs low (loading 20 mg/kg and maintenance 10 mg/kg per day) caffeine citrate | Primary: Successful extubation of mechanically ventilated infants Secondary: Frequency and documented days of apnea | High dose caffeine significantly increased the chance for successful extubation, decreased frequency of apnea |
- Citation: Abdel-Hady H, Nasef N, Shabaan AE, Nour I. Caffeine therapy in preterm infants. World J Clin Pediatr 2015; 4(4): 81-93
- URL: https://www.wjgnet.com/2219-2808/full/v4/i4/81.htm
- DOI: https://dx.doi.org/10.5409/wjcp.v4.i4.81