Your search keyword '"Lafeber, J."' showing total 6 results

1. Effects of aging on T 2 ∗ , and QSM MRI values in the subcortex

Author

Keuken, M. C., Bazin, P.-L., Backhouse, K., Beekhuizen, S., Himmer, L., Kandola, A., Lafeber, J. J., Prochazkova, L., Trutti, A., Schäfer, A., Turner, R., and Forstmann, B. U.

Published

2017

2. Effects of aging on T1, T2* and QSM MRI values in the subcortex.

Author

Keuken, M C, Bazin, P-L, Backhouse, K, Beekhuizen, S, Himmer, L, Kandola, A, Lafeber, J J, Prochazkova, L, Trutti, A, Schäfer, A, Turner, R, Forstmann, B U, Keuken, M C, Bazin, P-L, Backhouse, K, Beekhuizen, S, Himmer, L, Kandola, A, Lafeber, J J, Prochazkova, L, Trutti, A, Schäfer, A, Turner, R, and Forstmann, B U

Abstract

The aging brain undergoes several anatomical changes that can be measured with Magnetic Resonance Imaging (MRI). Early studies using lower field strengths have assessed changes in tissue properties mainly qualitatively, using [Formula: see text]- or [Formula: see text]- weighted images to provide image contrast. With the development of higher field strengths (7 T and above) and more advanced MRI contrasts, quantitative measures can be acquired even of small subcortical structures. This study investigates volumetric, spatial, and quantitative MRI parameter changes associated with healthy aging in a range of subcortical nuclei, including the basal ganglia, red nucleus, and the periaqueductal grey. The results show that aging has a heterogenous effects across regions. Across the subcortical areas an increase of [Formula: see text] values is observed, most likely indicating a loss of myelin. Only for a number of areas, a decrease of [Formula: see text] and increase of QSM is found, indicating an increase of iron. Aging also results in a location shift for a number of structures indicating the need for visualization of the anatomy of individual brains.

Published

2017

3. Effects of aging on $$T_{1}$$ T 1 , $$T_{2}^{*}$$ T 2 ∗ , and QSM MRI values in the subcortex

Author

Keuken, M. C., primary, Bazin, P.-L., additional, Backhouse, K., additional, Beekhuizen, S., additional, Himmer, L., additional, Kandola, A., additional, Lafeber, J. J., additional, Prochazkova, L., additional, Trutti, A., additional, Schäfer, A., additional, Turner, R., additional, and Forstmann, B. U., additional

Published

2017

4. Effects of aging on $$T_{1}$$ , $$T_{2}^{*}$$ , and QSM MRI values in the subcortex.

Author

Keuken, M., Bazin, P.-L., Backhouse, K., Beekhuizen, S., Himmer, L., Kandola, A., Lafeber, J., Prochazkova, L., Trutti, A., Schäfer, A., Turner, R., and Forstmann, B.

Subjects

MAGNETIC resonance imaging of the brain, AGING, NEUROANATOMY, PERIAQUEDUCTAL gray matter, BASAL ganglia

Abstract

The aging brain undergoes several anatomical changes that can be measured with Magnetic Resonance Imaging (MRI). Early studies using lower field strengths have assessed changes in tissue properties mainly qualitatively, using $$T_{1}$$ - or $$T_{2}^{*}$$ - weighted images to provide image contrast. With the development of higher field strengths (7 T and above) and more advanced MRI contrasts, quantitative measures can be acquired even of small subcortical structures. This study investigates volumetric, spatial, and quantitative MRI parameter changes associated with healthy aging in a range of subcortical nuclei, including the basal ganglia, red nucleus, and the periaqueductal grey. The results show that aging has a heterogenous effects across regions. Across the subcortical areas an increase of $$T_{1}$$ values is observed, most likely indicating a loss of myelin. Only for a number of areas, a decrease of $$T_{2}^{*}$$ and increase of QSM is found, indicating an increase of iron. Aging also results in a location shift for a number of structures indicating the need for visualization of the anatomy of individual brains. [ABSTRACT FROM AUTHOR]

Published

2017

5. Effects of aging on $$T_{1}$$ T 1 , $$T_{2}^{*}$$ T 2 ∗ , and QSM MRI values in the subcortex

Author

Keuken, M. C., Bazin, P.-L., Backhouse, K., Beekhuizen, S., Himmer, L., Kandola, A., Lafeber, J. J., Prochazkova, L., Trutti, A., Schäfer, A., Turner, R., and Forstmann, B. U.

Subjects

Histology, Neuroscience(all), Anatomy

6. No panacea? Tai Chi enhances motoric but not executive functioning in a normal aging population.

Author

Gerritsen RJS, Lafeber J, van den Beukel N, and Band GPH 0000-0003-0408-0039

Subjects

Aged, Aging, Bayes Theorem, Cognition, Executive Function, Humans, Tai Ji

Abstract

Tai Chi Chuan (TCC) is a promising intervention against age-related decline. Though previous studies have shown benefits in motoric and cognitive domains, it is unclear how these effects are functionally related. Therefore, a randomized controlled trial was conducted in an aging population (53-85). Two measures of motor functioning - motor speed and functional balance - and three cognitive control measures - shifting, updating and inhibition - were included. The TCC condition consisted of an online 10 week 20 lessons video program of increasing level and control condition of educational videos of similar length and frequency. All analyses were done with Bayesian statistics. Counter to expectation no differences were found in cognition between TCC and control pre-to-posttest. However, there was extreme evidence for TCC benefits on functional balance and moderate evidence for increased motoric speed. After weighing the evidence and limitations of the intervention we conclude that TCC does not enhance cognitive control.

Published

2021