Abstract
Chemotherapy with a combination of synthetic ACTH (ACTH-Zn) and valproic acid (VPA) induced remarkable hypofibrinogenemia in three children (5 months, 8 months, and 5 years and 10 months old) with intractable epilepsy. The lowest blood fibrinogen (Fbg) levels by this combination therapy were 22, 51 and 64 mg/dl (mean 45.7 mg/dk), respectively. These levels occurred, when ACTH-Zn was administered at an average dose of 0.33 mg/day (0.03 mg/kg/day) and the mean blood concentration of VPA was 59.7, μg/ml. With the administration of VPA without ACTH-Zn, the lowest blood Fbg levels were 232, 108 and 170 mg/dl (mean 170 mg/dl), respectively. The mean blood concentration of VPA was 109.0 μg/ml.
The inadvertent-effects associated with this combination therapy consisted of thrombocytopenia (59, 000/μl) in one case and a mild GPT increase (65-109 IU/l) in three cases. However, all these changes were transient. No bleeding tendency was detected clinically, when this hypo-Fbg-emia appeared.
The concentration of VPA and the blood level of Fbg were found inversely correlated with a correlation coefficient of -0.22 (p<0.01) in 150 serum samples from 91 patients with childhood epilepsy treated with VPA without ACTH-Zn. In the three cases presented, the combination with ACTH-Zn resulted in considerably lower blood Fbg levels than those predicted from the blood VPA concentrations. This indicates that the combination of ACTH-Zn and VPA induces a further decrease of Fbg in blood.
The reason why hypo-Fbg-emia results from this combination therapy is unknown. When the blood Fbg level was the lowest in one patient, the blood FDP content, which were measured simultaneously, was not increased. This suggests that hypo-Fbg-emia was caused by low Fbg synthesis rather than increased consumption.
