#66: Roxanne Lofredi – Striatal recordings and the stopping triangle: How DBS advances our clinical and neuroscientific knowledge

In this episode, we have a privilege to talk with Dr. Roxanne Lofredi, a prominent researcher investigating movement disorders and deep brain stimulation (DBS). Dr. Lofredi is based at Charité – Universitätsmedizin Berlin and is widely recognized for her groundbreaking contributions to understanding how basal ganglia networks drive motor symptoms in conditions such as dystonia and Parkinson’s disease.

Today, we’ll explore two fascinating studies led by Dr. Lofredi. The first focuses on how subthalamic nucleus stimulation impairs stopping of ongoing movements in Parkinson’s disease. This work, published in Brain, was inspired by a foundational basic science study from Aron and Poldrack (2006), which first implicated the subthalamic nucleus as a critical node for motor inhibition within the hyperdirect pathway of the basal ganglia. We’ll discuss how these findings translated to her DBS study and how they may impact DBS therapy.

The second part of our conversation will cover her recent publication in Nature Communications, where Dr. Lofredi and her team demonstrate a clear link between striato-pallidal oscillatory connectivity and symptom severity in dystonia. This work highlights the pathophysiological role of the direct pathway within the basal ganglia and opens up new possibilities for targeted therapeutic approaches.

In conclusion, Dr. Lofredi shares key insights from her research, bridging the gap between basic neuroscience and clinical application. From understanding motor inhibition in Parkinson’s disease to exploring striato-pallidal connectivity in dystonia, her work advances our knowledge and paves the way for more effective DBS therapies.