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Clinical Trial Summary

We are trying to learn if small changes in the amount of a valproate in the blood (given through an IV) will change the way the brain reacts to flashing lights.


Clinical Trial Description

Photosensitive epilepsy is a form of epilepsy that is considered to have a genetic basis in most instances. It is a reflex type of epilepsy. Patients with this condition exhibit epileptic activity patterns (called photoparoxysmal response-PPR) on their EEG during intermittent photic stimulation with certain flash frequencies.

Specific Aims

1. To determine the extent of the pharmacodynamic effect of small changes in total and free VPA concentration via constant infusion of intravenous sodium valproate within the same photosensitive epilepsy patient.

2. To determine the change in total and free VPA concentration required to achieve maximal effect on PPR in patients with photosensitive epilepsy.

Hypothesis

1. Valproic acid (VPA) demonstrates differential pharmacodynamic effect on PPR with small changes in VPA concentration (5-20 mg/L changes in total, or 0.5 to 2 mg/L changes in free VPA) within the same patient. In essence, the VPA concentration-response curve in patients with photosensitive epilepsy is relatively steep.

2. Intravenously-administered VPA will demonstrate a reduction in standard photosensitive range (SPR) or abolition of PPR for at least 80% of patients studied, when the entire range of free VPA concentrations is considered.

Photosensitivity, defined as a PPR on intermittent photic stimulation (IPS), is found in approximately 5% of all epileptic patients. Markedly photosensitive patients are usually sensitive to IPS within clearly defined limits of flash frequency (mostly between 10-30 Hz). This photosensitivity range, the difference between the highest and lowest flash rates that consistently elicit a photoparoxysmal response (PPR), can be used as a quantitative measure of photosensitivity.

Administration of some antiepileptic drugs (AEDS) can diminish or even abolish PPR. With a standard set of tested frequencies, a standard photosensitive range (SPR) can be used to measure drug effect on photosensitivity. Combined with blood level monitoring, the model offers information about actual pharmacodynamic effect as measured with IPS related to the changes in blood levels.

The standardized IPS procedure includes delivery of short (5 second-) trains of flashes. The stimulation starts with the lowest frequencies (which usually do not produce a PPR) only up to the limits of the photosensitivity range (the threshold frequencies for which the patient shows an epileptiform EEG response). After that the stimulation starts again with the highest frequencies (which also do not produce a PPR) down to the frequency that produces a definite PPR.

The photic stimulator will be manually controlled for all stimulations in order to abort the stimulation when a clear PPR is elicited. With all stimulations, there is simultaneous recording of the EEG and direct observation of the patient for clinical changes. With all the safety measures in place, the likelihood of provoking prominent clinical seizures is extremely low. ;


Study Design

Endpoint Classification: Efficacy Study, Intervention Model: Single Group Assignment, Masking: Single Blind (Subject), Primary Purpose: Treatment


Related Conditions & MeSH terms


NCT number NCT00609245
Study type Interventional
Source Vanderbilt University
Contact
Status Completed
Phase N/A
Start date December 2007
Completion date December 2008

See also
  Status Clinical Trial Phase
Completed NCT03239691 - A Study to Evaluate the Effect of ACT-709478 in Photosensitive Epilepsy Patients Phase 2
Terminated NCT03686033 - A Study to Evaluate the Pharmacodynamic Activity of E2082 in Adult Participants With Photosensitive Epilepsy Phase 2
Completed NCT00784212 - Effect of BGG492 on EEG in Patients With Photosensitive Epilepsy Phase 2
Completed NCT00579384 - A Study of the Effects of JNJ-26489112 on the Photic Induced Paroxysmal Electroencephalogram (EEG) Response in Patients With Photosensitive Epilepsy Phase 2
Active, not recruiting NCT03790137 - Treatment of Sunflower Syndrome With ZX008 (Fenfluramine Hydrochloride) in Children and Young Adults (Ages 4-25). Phase 3
Completed NCT00894010 - Photosensitivity Proof of Concept Trial Phase 2
Completed NCT03580707 - Does BRV Have Faster Onset Time & Greater Effect Than LEV in Epilepsy Pts Using PPR Pharmacodynamic Efficacy Endpoint Phase 2/Phase 3
Terminated NCT03603639 - A Study to Evaluate the Pharmacodynamic Activity of E2730 in Adult Participants With Photosensitive Epilepsy Phase 2