Table 3.
Study | Type of ACTH Used | No. of Patients* | Methodology | Results and Conclusions |
---|---|---|---|---|
Lux et al., 2005 | Cosyntropin/tetracosactide | 107 |
|
Results: VABS scores between hormone and vigabatrin treatment did not differ significantly (78.6 vs. 77.5, respectively; P = 0.73). The proportion of infants who were seizure-free at the end of the study period was similar between groups (hormone, 22/55 [40%], vigabatrin, 19/52 [37%]; P = 0.71). In a subgroup analysis, mean VABS scores were significantly higher in patients with no known etiology of infantile spasms in the hormone group (88.2) compared with the vigabatrin (78.9) group (P = 0.025).
Conclusion: Treatment of infantile spasms with hormone or vigabatrin appears to produce similar developmental outcomes and cessation of spasms at 14 months. Hormonal treatment may result in better developmental outcomes than vigabatrin in patients with an unknown cause of infantile spasms, but further research is warranted. |
Lux et al., 2004 | Cosyntropin/tetracosactide | 107 |
|
Results: Forty patients were free of spasms at 14 days. Significantly more patients were spasm-free at 14 days in the hormone group (prednisolone, 21; tetracosactide, 19; 40/55 = 73%) than in the vigabatrin group (28/52 = 54%) (P = 0.043). Significant differences in consecutive spasm-free days before day 14 were also detected (hormonal treatment, median days = 9; vigabatrin treatment, median days = 2.5; P = 0.038). Hypsarrhythmia resolved in significantly more patients in the hormone group (81%) than in the vigabatrin group (56%) (P = 0.024).
Conclusion: At 14 days, hormonal treatment might be more effective than vigabatrin for stopping infantile spasms and hypsarrhythmia; however, given the small number of patients, it is difficult to draw conclusions about the comparative efficacy of prednisolone and tetracosactide. |
Yanaguki et al., 1999 | Cosyntropin/tetracosactide | 26 |
|
Results: Response to treatment did not differ significantly between the high dose (11/13 = 85%) and the low dose (9/12 = 75%) (P > 0.05). Long-term developmental outcomes and the presence of seizures at 1 year or more of follow-up did not differ between groups; however, the detailed methods of the follow-up protocol were not stated, so the quality of follow-up results might be suspect. Brain shrinkage, as measured by CT, and sleepiness in the first week of treatment were significantly more pronounced in the high-dose group (P < 0.05).
Conclusion: Patients taking high-dose or low-dose cosyntropin appear to have similar short-term responses to treatment. A low-dose cosyntropin regimen might be more tolerable than a high-dose regimen. |
Vigevano et al., 1997 | ACTH | 42 |
|
Results: For the separate phases of the study, there was no difference in cessation of spasms with ACTH or vigabatrin, but a significant difference was detected when total response to treatment (phase 1 responders + phase 2 responders) was compared between ACTH (25 responders/35) and vigabatrin (13 responders/28) (P = 0.007). In general, more ACTH patients than vigabatrin patients experienced ADRs.
Conclusion: ACTH and vigabatrin may result in similar rates of cessation of infantile spasms, but patients who initially do not respond to vigabatrin and who are switched to ACTH are more likely to experience cessation of spasms than the converse. Vigabatrin may be better tolerated than ACTH. |
Baram et al., 1996 | ACTH | 29 |
|
Results: Patients receiving ACTH responded to treatment (clinical and EEG response) significantly more often than those receiving prednisone (13/15 [86.6%] vs. 4/14 [28.6%], respectively; P = 0.002). Patients were observed beyond 2 weeks, but the study was confounded by the fact that many patients originally receiving prednisone were switched to ACTH. However, most patients (25/29) still had abnormal results at their last follow-up visit (range, 2–48 months).
Conclusion: The likelihood of clinical and EEG resolution of infantile spasms appears greater with ACTH than with prednisone; however, it is difficult to make conclusions about differences in long-term outcomes because the study was not designed to detect such differences. |
Hrachovy et al., 1994 | ACTH | 59 |
|
Results: The difference in response to treatment between high and low-dose ACTH was not statistically significant (50% and 58%, respectively). There was also no statistical difference in relapse between the two groups (15% and 21%, respectively). Hypertension occurred more frequently in the high-dose group than in the low-dose group (31% and 4%, respectively; P = 0.025).
Conclusion: Patients with infantile spasms appear to respond at similar rates to high-dose and low-dose regimens of ACTH; however, high-dose ACTH patients may experience hypertension more frequently than low-dose ACTH patients. |
Dreifuss et al., 1986 | ACTH | 52 |
|
Results: There was no statistical difference in frequency of spasms between ACTH and nitrazepam (mean ± SEM = 89.7 ± 23.6, mean + SEM = 122.1 ± 20.8, respectively; P value not reported). Total sleep time was significantly correlated with change in spasm frequency (rs = −0.61, P ≤ 0.005) in patients receiving ACTH but not in patients receiving nitrazepam (rs = −0.10, P ≤ 0.63). More ACTH patients had fluctuations in systolic blood pressure compared with the nitrazepam group.
Conclusion: Patients taking ACTH or nitrazepam appear to have similar frequency of spasms at 4 weeks; however, if the study had enrolled more patients, a statistically significant difference might have been detected favoring ACTH. The reduction in spasms attributed to ACTH is significantly associated with an increase in total sleep time, but the same association cannot be said for nitrazepam. Because nitrazepam is not available in the U.S., the comparative data may be less relevant than other comparative studies with ACTH. |
Hrachovy et al., 1983 | ACTH | 24 |
|
Results: There were no statistical differences in response between ACTH and prednisone at 8 weeks (5/12 [42%] and 4/12 [33%], respectively) or after crossover at 17 weeks (4/8 [50%] and 3/7 [43%], respectively). Adverse events appeared at similar rates between the groups.
Conclusion: Patients with infantile spasms may experience similar responses to treatment between ACTH and prednisone. If they do not respond to the first treatment, they might respond to the other treatment. |
The number of patients might differ from that reported in methodology as a result of pre-randomization exclusions.
Hormonal treatment = tetracosactide and prednisolone.
ADR = adverse drug reaction; CT = computed tomography; EEG = encephalography; VABS = Vineland Adaptive Behavior Scale.