Imagine being told that you have a condition that gradually causes you to lose the ability to control your body movements, from picking up a pencil to walking to even breathing. Such is the reality for the nearly 6,000 people who are diagnosed with amyotrophic lateral sclerosis (ALS) every year, in the United States alone.

ALS, also known as Lou Gehrig’s disease, is a neurodegenerative disease that causes the degradation of motor neurons, or nerves that are responsible for all voluntary muscle movements, like the ones mentioned above. It is a truly devastating disease with a particularly poor prognosis of two to five years from the time of diagnosis to death. There are only two approved drugs for ALS and these do not stop it but only slow progression of the disease; and even then only for some patients, not all.

A ray of hope for such a bleak treatment landscape, has been the advent of stem cell therapy options over the past decade. Of particular excitement is the recent discovery made Nasser Aghdami’s group at the Royan Institute for Stem Cell Biology and Technology in Iran.

Two small Phase I clinical trials detailed in Cell Journal demonstrated that injecting mesenchymal stem cells (MSCs), derived from the patient’s own bone marrow, was safe when administered via injection into the bloodstream or the spinal cord. Previous studies had shown that MSCs both revived motor neurons and extended the lifespan in a rodent model of the disease.

In humans, many studies have shown that MSCs taken from bone marrow are safe for use in humans, but these studies have disagreed about whether injection via the bloodstream or spinal cord route is the most effective way to deliver the therapy. This report confirms that both routes of administration are safe as no adverse clinical events were observed for either group throughout the study time frame.

While an important stepping stone, there is still a long way to go. For example, while no adverse clinical events were observed in either group, the overall ALS-FRS score, a clinical scale to determine ALS disease progression, worsened in all patients over the course of the study. Whether this was just due to natural progression of the disease, or because of the stem cell treatment is difficult to determine given the small size of the cohort.

One reason the scientists suggest that could explain the disease decline is because the MSCs were taken from the ALS patients themselves, which means these cells were likely not functioning optimally prior to re-introduction into the patient. To remedy this, they hope to test the effect of MSCs taken from healthy donors in both injection routes in the future. They also need a larger cohort of patients to determine whether or not there is a difference in the therapeutic effect of administering stem cells via the two different routes.

While it may seem that the results from this clinical trial are not particularly groundbreaking or innovative, it is important to remember that these incremental improvements through clinical trials are critical for bringing safe and effective therapies to the market. For more information on the different phases of clinical trials, please refer to this video.

CIRM is also funding clinical trials targeting ALS. One is a Phase 1 trial out of Cedars-Sinai Medical Center and another is a Phase 3 trial with the company Brainstorm Cell Therapeutics.