MTLE

First patient dosed in clinical trial for a drug-resistant form of epilepsy

/ Kevin McCormack / Leave a comment
Tablet BM47753. Neo-Babylonian Period. Courtesy of the British Museum, London.

Epilepsy seems to have been a problem for people for as long as people have been around. The first recorded mention of it is on a 4000-year-old Akkadian tablet found in Mesopotamia (modern day Iraq). The tablet includes a description of a person with “his neck turning left, hands and feet are tense, and his eyes wide open, and from his mouth froth is flowing without him having any consciousness.”

Despite that long history, effective treatments for epilepsy were a long time coming. It wasn’t till the middle of the 19th century that physicians started using bromides to help people with the condition, but they also came with some nasty side effects, including depression, weakness, fatigue, lethargy, and coma.

Fast forward 150 years or so and we are now, hopefully, entering a new era. This week, Neurona Therapeutics announced they had dosed the first patient in their first-in-human clinical trial formesial temporal lobe epilepsy (MTLE), the most common form of focal epilepsy in adults. The trial specifically targets people who have a drug-resistant form of MTLE.

Neurona has developed a therapy called NRTX-1001, consisting of a specialized type of neuronal or brain cell derived from embryonic stem cells.  These cells are injected into the brain in the area affected by the seizures where they release a neurotransmitter or chemical messenger that will block the signals in the brain causing the epileptic seizures. Pre-clinical testing suggests a single dose of NRTX-1001 may have a long-lasting ability to suppress seizures.

A new approach is very much needed because current therapies for drug-resistant epilepsy are only partially effective and have serious drawbacks. One treatment that can significantly reduce seizure frequency is the removal of the affected part of the brain, however this can cause serious, irreversible damage, such as impacting memory, mood and vision.

CIRM has a vested interest in seeing this therapy succeed. We have invested more than $14 million over four different awards, in helping this research progress from a basic or Discovery level through to the current clinical trial.

In a news release, two key figures in administering the first dose to a patient said this was an important step forward. 

Harish Babu, M.D., Ph.D., assistant professor of neurosurgery at SUNY Upstate Medical University said: “Neurona’s regenerative cell therapy approach has the potential to provide a single-administration, non-destructive alternative for the treatment of drug-resistant focal epilepsy. Currently, people with mesial temporal lobe epilepsy who are not responsive to anti-seizure medications have few options, such as an invasive surgery that removes or destroys the affected brain tissue.”

Robert Beach, M.D., Ph.D. professor of neurology at SUNY Upstate Medical University added: “The objective of NRTX-1001 is to add cells that have the potential to repair the circuits that are damaged in epilepsy and thus reduce seizure activity.”

There is a huge unmet medical need for an effective, long-term therapy. Right now, it’s estimated that three million Americans have epilepsy, and 25 to 35 percent live with ongoing seizures despite dozens of approved drugs on the market.

If this therapy works it might mean that 4,000 year old tablet will become a medical footnote, rather than a reminder that we still have work to do.

Promising new approach for people with epilepsy

/ Kevin McCormack / 2 Comments
Image courtesy Epilepsy.com

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A new therapeutic approach, supported by CIRM, that blocks the signals in the brain that can cause epilepsy has been given permission by the US Food and Drug Administration (FDA) to be tested in a clinical trial.

Nearly 3.5 million Americans suffer from some form of epilepsy. It can affect people in different ways from stiff muscles or staring spells, to violent shaking and loss of consciousness. The impact it has on people’s lives extends far beyond the condition itself. People who suffer from epilepsy experience a higher frequency of depression and other mood disorders, social isolation, challenges in school and with living independently, higher unemployment, limitations on driving, and higher risk of early death.

Medications can help control the seizures in some people, but around one-third of patients don’t respond to those drugs. The alternative is surgery, which is invasive and can cause damage to delicate brain tissue.

Now Neurona Therapeutics has developed an approach, called NRTX-1001, that turns stem cells into interneurons, a kind of nerve cell in the brain. These cells secrete chemical messengers, called GABA inhibitory neurotransmitters, that help rebalance the misfiring electrical signals in the brain and hopefully eliminate or reduce the seizures.

Cory Nicholas, PhD, Neuron’s Therapeutics co-founder and CEO, said getting the go-ahead from the FDA for a clinical trial is a key milestone for the company. “Neurona’s accomplishments are a testament to longstanding support from CIRM. CIRM has supported the NRTX-1001 program from bench to bedside, dating back to early research in the Neurona founders’ laboratories at the University of California, San Francisco to the recent IND-enabling studies conducted at Neurona. It’s an exciting time for the field of regenerative medicine and is gratifying to see the NRTX-1001 neuronal cell therapy now cleared by the FDA to enter clinical testing in people who have drug resistant temporal lobe epilepsy. We are thankful to CIRM for their support of this important work that has the potential to provide seizure-freedom for patients who currently have limited treatment options.”

In a news release Dr. Nicholas said the timing was perfect. “This milestone is especially rewarding and timely given that November is Epilepsy Awareness Month. NRTX-1001 is a new type of inhibitory cell therapy that is targeted to the focal seizure onset region in the brain and, in a single treatment, has the potential to significantly improve the lives of people living with focal epilepsy.”

In animal models NRTX-1001 produced freedom from seizures in more than two-thirds of the treated group, compared to just 5 percent of the untreated group. It also resulted in reduced tissue damage in the seizure-affected area of the brain.

The clinical trial will initially target people affected by mesial temporal lobe epilepsy (MTLE) where seizures often begin in a structure called the hippocampus. MTLE is the most common type of focal epilepsy.

CIRM has invested almost $6.67 million in funding three stages of this project, from the early Discovery work to this latest late-stage preclinical work, highlighting our commitment to doing all we can to advance the most promising science from the bench to the bedside.