Irreversible tissue loss seen within 40 days of spinal cord injury
2 July 2013
The rate and extent of damage to the spinal cord and brain following spinal cord injury have long been a mystery.
The study, published in the journal Lancet Neurology, used a new imaging measurement technique, developed at the Wellcome Trust Centre for Neuroimaging (UCL). This enables the impact of therapeutic treatments and rehabilitative interventions to be determined more quickly and directly.
A spinal cord injury changes the functional state and structure of the spinal cord and the brain. For example, a patient's ability to walk or move their hands can become restricted. How quickly such degenerative changes develop, however, has remained a mystery until now. The assumption was that it took years for patients with a spinal cord injury to also display anatomical changes in the spinal cord and brain above the injury site. This paper demonstrates for the first time that these changes already occur within 40 days of acute spinal cord injury.
The scientists studied 13 patients with acute spinal cord injuries every
three months for a year using novel MRI (magnetic resonance imaging) protocols.
They discovered that the diameter of the spinal cord had rapidly decreased and
was already seven percent smaller after 12 months.
This study provides exciting new insights into the complications of spinal cord trauma and gives us the possibility of identifying both imaging biomarkers and therapeutic targets.
Professor Alan Thompson, UCL Dean of Brain Sciences
A lesser volume decline was also evident in the corticospinal tract, a tract indispensable for motor control, and nerve cells in the sensorimotor cortex.
The extent of the degenerative changes coincided with the clinical outcome. "Patients with a greater tissue loss above the injury site recovered less effectively than those with less changes," explains Patrick Freund, the investigator responsible for the study at the Paraplegic Center Balgrist.
Treatments targeting the injured spinal cord have entered clinical trials. Gaining insights into mechanisms of repair and recovery within the first year are crucial. Thanks to the use of the new neuroimaging protocols, Freund says, we now have the possibility of displaying the effect of therapeutic treatments on the central nervous system and of rehabilitative measures more quickly. Consequently, the effect of new therapies can also be recorded more rapidly.
"This study is an excellent example of the value of combining the complementary expertise of the two universities," says UCL's Dean of Brain Sciences, Professor Alan Thompson, who is one of the senior authors of the study. "It provides exciting new insights into the complications of spinal cord trauma and gives us the possibility of identifying both imaging biomarkers and therapeutic targets."
The findings are the result of a new three-year neuroscience partnership between UCL and the Neuroscience Centre Zurich (ZNZ), representing both the University of Zurich and the Swiss Federal Institute of Technology (ETHZ).
Media contact: David Weston
Image caption: Professor Alan Thompson, UCL Dean of Brain Sciences
Nikolaus Weiskopf, John Ashburner, Katharina Wolf, Reto Sutter, Daniel R
Altmann, Karl Friston, Alan Thompson, Armin Curt, 'MRI investigation of the
sensorimotor cortex and corticospinal tract after acute spinal cord injury: a
prospective longitudinal study', The
Lancet Neurology, July 2, 2013.