4 Brain and Spinal Cord Stimulation

Welcome to Day 4 of the YSP-REACH Program!  Yesterday you explored brain-computer interfaces. Today you will hear from CNT co-Director, Dr. Chet Moritz, about a different neurotechnology known as neurostimulation. The resources below include a brief history of electrical stimulation of the nervous system, an overview of the main types of neurostimulation techniques, and a research spotlight focused on the work of Dr. Chet Moritz and his team. Additional resources are provided if you would like to explore another example of neurostimulation, Deep Brain Stimulation (DBS).

Part One: History of Electrical Stimulation of the Nervous System

A bit of history about electrical stimulation of the nervous system:

  • In the mid-1700s, Luigi Galvani demonstrated that electricity could make a frog leg twitch. Alessandro Volta showed that biological electricity is similar to other types of electricity; he also invented the battery.
  • In the mid-1900s, neurosurgeons applied electricity directly to the surface of the brain to cause sensation and movement.

Part Two: Neurostimulation Techniques

With neurostimulation, there are several ways that the nervous system is stimulated:

 

  1. Microelectrodes: activate a population of neurons (axons) close to the electrode. The number of neurons depends on stimulation parameters and large neurons and those neurons near the electrode are activated by lower currents.  Microelectrodes are used for deep brain stimulation, cochlear implants, cortical surface, and spinal cord stimulation. Electrocorticography (ECoG ) electrodes are placed on the surface of the brain and may activate several thousands of neurons.  Raj Rao wearing EEG headcap

 

  1. Optical stimulation (Optogenetics): requires both light and genetic manipulation to control neurons.

 

  1. Transcranial magnetic stimulation: a magnetic field passes through skin and skull, inducing an electric current in the brain. The maximum  depth that magnetic stimulation reaches is 3-5 cm.

 

  1. Transcranial ultrasound: sound waves travel through bone and soft tissues. Low-intensity pulsed ultrasound influences neural activity without heating the tissue.

Part Three: CNT Research Spotlight

Today, Dr. Chet Moritz will share how he and his team at the University of Washington are using neurostimulation to help rehabilitate spinal cord injuries. In this section, you will watch a news video and read two articles. Then contribute to today’s Padlet.

 

Watch & Read This!

Learn about the spinal cord rehabilitation work in the Moritz lab by exploring both of these resources. These resources tell the story of Joe Beatty, who was paralyzed due to a spinal cord injury experienced during a body-surfing accident while vacationing in Hawaii.

 

Try It!

After watching the news video and reading the article, respond to this question on a Padlet:

  • What questions do you have for Dr. Moritz and his team?

Post your questions to this Questions about Spinal Cord Stimulation Padlet. See what other REACH participants have posted as well. You can “favorite” the ones you agree with or add comments.

Then, hit the “back” arrow on your web browser to return to this chapter and keep reading.

Part Four: Deep Brain Stimulation

Illustration of a human head showing the brain and a deep brain stimulator, including the implant into the brain and the unit in the neck.

Another example of neurostimulation is Deep Brain Stimulation (DBS). Deep brain stimulation (DBS) is a technology that was originally developed as a treatment to help control the debilitating symptoms of Parkinson’s disease, but now being used to treat many other conditions. These other conditions include essential tremor, dy

stonia, epilepsy, and obsessive compulsive disorder. A deep brain stimulator consists of a device, similar to a cardiac pacemaker that is surgically

 implemented near the neck, that delivers electrical signals to an electrode implanted in the brain tissue. It required invasive brain surgery, but for many patients, DBS therapy has improved their quality of life. Learn more about deep brain stimulation by exploring the optional resources below. In addition, tomorrow’s learning resources will include some information about how neuroethicists have grappled with the ethical implications of DBS treatments and their impacts on the patients who receive them.

 

 

 

 

Optional:  Learn about Deep Brain Stimulation (DBS)

Learn about deep brain stimulation (DBS), a technology that was originally developed as a treatment to help control the debilitating symptoms of Parkinson’s disease, but now being used to treat many other conditions, including essential tremor, dystonia, epilepsy, and obsessive compulsive disorder.

Tomorrow we will focus on neuroethics. Our guest speaker will be Dr. Sara Goering from the UW Department of Philosophy.

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