Feinberg
Northwestern Medicine | Northwestern University | Faculty Profiles

News Center

  • Categories
    • Campus News
    • Disease Discoveries
    • Clinical Breakthroughs
    • Education News
    • Scientific Advances
  • Press Releases
  • Media Coverage
  • Podcasts
  • Editor’s Picks
    • COVID-19
    • Cardiology
    • Cancer
    • Neurology and Neuroscience
    • Aging and Longevity
    • Artificial Intelligence in Medicine
  • News Archives
  • About Us
    • Media Contact
    • Share Your News
    • News Feeds
    • Social Media
    • Contact Us
Menu
  • Categories
    • Campus News
    • Disease Discoveries
    • Clinical Breakthroughs
    • Education News
    • Scientific Advances
  • Press Releases
  • Media Coverage
  • Podcasts
  • Editor’s Picks
    • COVID-19
    • Cardiology
    • Cancer
    • Neurology and Neuroscience
    • Aging and Longevity
    • Artificial Intelligence in Medicine
  • News Archives
  • About Us
    • Media Contact
    • Share Your News
    • News Feeds
    • Social Media
    • Contact Us
Home » Chronic Back Pain Shrinks ‘Thinking Parts’ of Brain
Uncategorized

Chronic Back Pain Shrinks ‘Thinking Parts’ of Brain

By medwebNov 1, 2004
Share
Facebook Twitter Email

November 23, 2004

Chronic Back Pain Shrinks ‘Thinking Parts’ of Brain

CHICAGO—Chronic back pain, a condition afflicting many Americans, shrinks the brain by as much as 11 percent—equivalent to the amount of gray matter lost in 10 to 20 years of normal aging, a Northwestern University research study found.

Loss in brain density is related to pain duration, indicating that 1.3 cubic centimeters of gray matter (the part of the brain that processes information and memory) are lost for every year of chronic pain, said lead researcher A. Vania Apkarian, PhD, associate professor of physiology at Northwestern University’s Feinberg School of Medicine and a researcher at the Northwestern University Institute for Neuroscience.

The study, the first to examine brain changes in chronic pain conditions, was published in the November 23 issue of the Journal of Neuroscience.

At least 25 percent of Americans suffer from back pain; in one-fourth of these individuals, back pain is chronic and unremitting.

Although chronic pain greatly diminishes quality of life and increases anxiety and depression, it previously had been assumed that the brain reverts to its normal state after chronic pain stops.

Dr. Apkarian and co-researchers used structural magnetic resonance imaging brain scan data and two automated analysis techniques to contrast brain images from 26 participants with chronic back pain with those from matched normal subjects.

All participants with chronic back pain had unrelenting pain for more than a year, primarily localized to the lumbosacral region, including buttocks and thighs, with or without pain radiating to the leg.

The participants were divided into neuropathic—exhibiting pain because of sciatic nerve damage—and non-neuropathic. Brain scans showing gray matter volume were compared.

In earlier research, Dr. Apkarian and colleagues found that back pain sustained for six months or longer is accompanied by abnormal brain chemistry, indicated by chemical changes in the area of the brain known to be important in making emotional assessments, including decision-making, and for controlling social behavior. Based on these results, Dr. Apkarian’s laboratory group embarked on the brain atrophy study.

Some of the observed decreased may reflect tissue shrinkage without substantial neuronal loss, suggesting that proper treatment would reverse the state of this portion of the decreased brain gray matter, Dr. Apkarian said.

The atrophy also may be attributable to more irreversible processes, such as neurodegeneration. Research in rats with neuropathic pain has shown that spinal cord neurons undergo apoptosis or cell death.

“Given that, by definition, chronic pain is a state of continuous persistent perception with associated negative affect and stress, one mechanistic explanation for the decreased gray matter is overuse atrophy caused by excitotoxic and inflammatory mechanisms,” Dr. Apkarian said.

The researchers hypothesize that atrophy of brain circuitry involved in pain perception may dictate the properties of the pain state, such that as atrophy of elements of the circuitry progresses, the pain condition becomes more irreversible and less responsive to therapy.

Other researchers on the study were Yamaya Sosa, physiology; Sreepadma Sonty, neurology; Robert M. Levy, MD, PhD, professor of neurological surgery; R. Norman Harden, MD, associate professor of physical medicine and rehabilitation; Todd B. Parrish, PhD, associate professor of radiology; and Darren R. Gitelman, MD, associate professor of neurology and a member of the Feinberg School’s Cognitive Neurology and Alzheimer’s Disease Center.

This research was supported by grants from the National Institute of Neurological Disorders and Stroke and the National Institutes of Health.

Share. Facebook Twitter Email

Related Posts

Lurie Cancer Center Receives Merit Extension from NCI

Oct 20, 2021

Drug Combination May Reduce Risk of Leukemia Relapse

Mar 26, 2020

Rewriting the Role of a Transcription Factor

Mar 19, 2020

Comments are closed.

Latest News

Investigating Protein’s Role in Hearing Loss

Mar 27, 2023

Sex-Specific Mechanisms for Major Depressive Disorder Identified in Response to Dysregulated Stress Hormones

Mar 23, 2023

Pre-Surgery Immunotherapy May Increase Survival in Advanced Melanoma

Mar 23, 2023

Hormone Therapy Plus Current Treatments Improves Survival in Prostate Cancer

Mar 22, 2023

How ChatGPT Has, and Will Continue to, Transform Scientific Research

Mar 21, 2023
  • News Center Home
  • Categories
  • Press Release
  • Media Coverage
  • Editor’s Picks
  • News Archives
  • About Us
Flickr Photos
20230317_NM651
20230317_NM610
20230317_NM569
20230317_NM537
20230317_NM331
20230317_NM323
20230317_NM316
20230317_NM336
20230317_NM626
20230317_NM662
20230317_NM655
20230317_NM642

Northwestern University logo

Northwestern University Feinberg School of Medicine

RSS Facebook Twitter LinkedIn Flickr YouTube Instagram
Copyright © 2023 Northwestern University
  • Contact Northwestern University
  • Disclaimer
  • Campus Emergency Information
  • Policy Statements

Type above and press Enter to search. Press Esc to cancel.