News ID: 205133
Published: 0804 GMT November 28, 2017

Low frequency brain stimulation improves cognition in Parkinson's disease

Low frequency brain stimulation improves cognition in Parkinson's disease
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A multidisciplinary neuroscience study using rare, intraoperative brain recordings suggested that low frequency stimulation of a deep brain region may be able to improve cognitive function in patients with Parkinson's disease (PD).

The study findings, published in the journal Brain, also hint at the broader potential of brain stimulation for treating other cognitive diseases, medicalxpress.com reported.

The new work by neurologists and neurosurgeons with the Iowa Neuroscience Institute at the University of Iowa provides the first direct evidence of a connection in the human brain between the thinking region of the brain (the frontal cortex) and a deeper structure called the subthalamic nucleus (STN) that is involved in controlling movement. The study also shows that stimulation of the STN at low frequencies improves the performance of PD patients on a simple cognitive task that is usually disrupted by PD.

Nandakumar Narayanan, MD, PhD, UI assistant professor of neurology in the UI Carver College of Medicine and senior study author, said, "It's not very often that you identify a new connection in the human brain.

"The existence of this hyperdirect pathway from the prefrontal cortex to the STN has been bandied about for around a decade, but this is the first time we've experimentally shown that it exists and functions in people.

"We were also able to show that if we stimulate the STN, we change the frontal cortical activity and we think it's by this pathway.

"And if we stimulate the STN and change cortical activity, we can actually change behavior in a beneficial way, improving the patients' cognitive performance."

Parkinson's disease is a progressive neurodegenerative condition that affects about one million people in the US.

“Deep brain stimulation of the STN at high frequencies is already approved to treat movement problems in some patients with PD.

“In addition to causing movement problems, however, PD also affects thinking. The new findings raise the possibility that STN deep brain stimulation at a different (low) frequency might also improve cognitive symptoms in PD, and possibly even in other neurologic and psychiatric diseases.”

 

Listening in on the brain

 

The team was able to map the STN-cortex connection by ‘listening in’ on brain activity during surgeries to implant deep brain stimulation (DBS) electrodes in patients with PD.

UI neurosurgeon Jeremy Greenlee, MD, conducts more than 30 such surgeries every year and his expertise was vital to the mapping experiment.

Using specialized recording electrodes placed inside the patients' brains, Greenlee listens in on brain activity in order to accurately place the DBS device.

Those electrodes also allow direct recording of brain activity for experimental purposes in patients who are awake during the procedure without adding any risk.

This kind of intraoperative recordings is not very common, but Greenlee and his UI colleagues have a long history of expertise in the technique.

During the surgery, the patients did a simple cognitive task as a way of stimulating one part of the brain while recording electrical activity from other parts that are connected.

Listening to the neural activity during the task allowed the team to map the connection.

Greenlee said, "We were able to evoke a response to show the functional connection.

"The very fast response suggested a single, direct synaptic connection — that is what hyperdirect means."

 

Stimulation improves cognitive performance

 

Having established the existence of the hyperdirect connection, the researchers next investigated the effect of low frequency STN stimulation on cognitive abilities.

Narayanan's team uses a very simple thinking task — accurately estimating the passage of a short interval of time — to study cognitive impairment in PD patients and animal models of PD.

During post-surgery follow up visits, the researchers had the patients do the interval timing task with the DBS stimulator set to one of three settings: high frequency (normal for controlling movement), no stimulation, or a low frequency setting of 4 Hz.

Only the 4 Hz stimulation improved the patients' performance on the timing test.

 

   
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