Biomarker needed
Commenting on the results, Alberto J. Espay, MD, MSc, professor of neurology at the University of Cincinnati Academic Health Center, was cautious. “These findings are of unclear applicability to any particular patient without a biomarker for a deficit of glycolysis that these drugs are presumed to affect,” Dr. Espay said. “Hence, there is no feasible or warranted change in practice as a result of this study.”
Pathogenic mechanisms are heterogeneous among patients with Parkinson’s disease, Dr. Espay added. “We will need to understand who among the large biological universe of Parkinson’s patients may have impaired energy metabolism as a pathogenic mechanism to be selected for a future clinical trial evaluating terazosin, doxazosin, or alfuzosin as a potential disease-modifying intervention.”
Parkinson’s disease is not one disease, but a group of disorders with unique biological abnormalities, said Dr. Espay. “We know so much about ‘Parkinson’s disease’ and next to nothing about the biology of individuals with Parkinson’s disease.”
This situation has enabled the development of symptomatic treatments, such as dopaminergic therapies, but failed to yield disease-modifying treatments, he said.
The University of Iowa contributed funds for this study. Dr. Simmering has received pilot funding from the University of Iowa Institute for Clinical and Translational Science. He had no conflicts of interest to disclose. Dr. Espay disclosed no relevant financial relationships.
A version of this article first appeared on Medscape.com.