After taking 35 tablets of flurazepam 15 mg, 50 tablets of diazepam 5 mg, a 38-year old female (105 kg, BMI 36) was hit by a vehicle at 80 km/h. Initially she had a coma that measured a 1-4-2 on the Glasgow Coma Scale (GCS), an impression fracture of the frontal bone with free air in cerebro, a right-sided frontal contusion and a mild traumatic subarachnoidal bleed. Several ribs on her right were broken without any injury to the organs. After a decompressive craniotomy, she was admitted to the ICU. At the time of admission, flurazepam (124 µg/L; therapeutic range 40–150 µg/L [1, 2]) and diazepam serum levels were therapeutic (439 µg/L; therapeutic range 100–750 µg/L [1, 2]). The active metabolite of diazepam, desmethyldiazepam, was toxic (5,971 µg/L; therapeutic range: 200–1,800 µg/L [2]). The other metabolites temazepam and oxazepam were low. Fentanyl and propofol, administered for analgesia and sedation, were stopped after 2 days; the patient received no other medication. A CT cerebrum was repeated on day 5 and revealed diffuse contusions. An electroencephalogram indicated diffuse encephalopathy. These findings were considered insufficient to explain her persistent coma. Desmethyldiazepam serum level remained high, despite the patients’ normal liver and kidney function. Flumazenil was administered, revealing a coma ofof 4-3-T on the GCS. As elimination of desmethyldiazepam seemed to be impaired, genotyping was performed. This revealed that she was an extensive cytochrome P450 (CYP) 2C19 metaboliser. To enhance elimination, rifampicin, a CYP3A4 and 2C19 inducer, 600 mg bid i.v., was started on day 12 (Fig. 1). Fig. 1 Time course of benzodiazepine serum levels before and during rifampicin administration (fen fentanyl). Except for a brief period directly after ICU-admission, the patient received no benzodiazepines or other sedatives, narcotics or analgesics. Due to ... When the serum level of desmethyldiazepam had fallen within therapeutic ranges at day 20, the patient improved. After 34 days she was transferred to a neurological medium care facility. Four months after her hospital discharge, she had a maximal GCS and was still recovering from her injuries. This case underscores two points. First, diazepam and its active metabolites can considerably prolong coma. This is due to the metabolic pathway of diazepam [6]. Diazepam is metabolized through CYP3A4 to temazepam and CYP3A4/2C19 to desmethyldiazepam which is then metabolized through CYP3A4 to oxazepam. Temazepam and oxazepam, which have a small effect compared to diazepam and desmethyldiazepam are eliminated through conjugation. The high levels of desmethyldiazepam and low levels of temazepam and oxazepam underscore impairment of CYP3A4/2C19. In benzodiazepine intoxications, focus on withdrawal and clearance of all active metabolites is advisable. Second, rifampicin accelerated clearance of the metabolites through induction of CYP2C19 and CYP3A4. The elimination half-life of desmethyldiazepam decreased from 194 h (normal range 40–200 h [5]) to 63 after start of rifampicin and may have shortened the comatose condition by 20 days. We preferred to use rifampicin for several reasons. Rifampicin is a well-characterised drug with established strong CYP3A4/2C19 inducing capabilities. Furthermore, the FDA [3, 4] considers rifampicin as the drug of choice for CYP450 inducer studies. Finally, other CYP3A4 inducers like antiretroviral agents and anti-epileptics have shortcomings like the advisable restricted use for HIV treatment and neurological side effects that could have complicated assessment of our patient or even provoked convulsions. We suggest that rifampicin may be considered in severe benzodiazepine intoxications if clearance of the drug appears to be problematic. Obviously, other drug interactions and development of rifampicin resistance should be kept in mind.
Read full abstract