-
Neuropsychiatric Disease and Treatment
-
About Dovepress
Open access peer-reviewed scientific and medical journals.
-
Open Access
Dove Medical Press is now a member of the Open Access Initiative
-
An Author's Guide
A guide to help authors get their paper published.
-
Advocacy
Support Open Access and Dove Press
-
Reprints
Promotional Article Monitoring - further details
-
Favored Author Program
Real benefits for authors, including fast-track processing of papers.
White versus gray matter function as seen on neuropsychological testing following bone marrow transplant for acute leukemia in childhood
Original Research
(1961) Views (367) Full article downloads
Authors: Fiona S Anderson, Alicia S Kunin-Batson, Joanna L Perkins, K Scott Baker
Published Date March 2008
Volume 2008:4(1) Pages 283 - 288
DOI: http://dx.doi.org/10.2147/NDT.S2361
Fiona S Anderson1, Alicia S Kunin-Batson1, Joanna L Perkins2, K Scott Baker3
1Divisions of Pediatric Clinical Neuroscience; 2Department of Pediatric Hematology/Oncology, Children’s Hospitals and Clinics, Minneapolis, MN, USA and 3Hematology/Oncology/BMT, Department of Pediatrics, University of Minnesota, Minneapolis, MN, USA
Abstract: Current theory suggests that neurocognitive late effects of treatments for childhood cancer such as difficulties with attention, processing speed and visual-motor ability are the result of white matter damage. Neuroimaging studies have produced a variety of white matter findings. However, although white matter is thought to be differentially affected, previous studies have not demonstrated a discrepancy between white and gray matter function. The present study included 36 children treated for childhood leukemia with hematopoietic stem cell transplant (HCT). Their performance on neurocognitive measures traditionally thought to measure white matter was compared to performance on measures thought to measure gray matter function. Composite white and gray matter standard scores were created based on neuropsychological measures that individuals with known white or gray matter damage perform poorly. As predicted, composite white matter scores (mean = 98.1) were significantly lower (t = 2.26, p = 0.03) than composite gray matter scores (mean = 102.5). Additionally, as gray matter performance increased, the difference between gray and white matter scores increased (R = 0.353, p = 0.035). Overall, the results of this study support the current theory that white matter damage is responsible for the more subtle neurocognitive late effects resulting from treatment for childhood leukemia.
Keywords: late effects of cancer treatment, leukemia, neuropsychology, white matter, brain function
- Have an opinion about one of our articles?
We encourage you to write a Letter to the Editor
- Journal Indexing
See where all the Dove Press journals are indexed
- Testimonials
"... I was impressed at the rapidity of publication from submission to final acceptance." Dr Edwin Thrower, PhD, Yale University
- Long-term treatment of bipolar disorder with a radioelectric asymmetric conveyor
- Implementing the 2009 Institute of Medicine recommendations on resident physician work hours, supervision, and safety
- Topiramate in the prevention and treatment of migraine: efficacy, safety and patient preference
- Moderate alcohol consumption and cognitive risk
