Your search keyword '"Li, Yimei"' showing total 3 results

1. The effects of propofol on cerebral perfusion MRI in children

Author

Harreld, Julie H., Helton, Kathleen J., Kaddoum, Roland N., Reddick, Wilburn E., Li, Yimei, Glass, John O., Sansgiri, Rakhee, Ji, Qing, Feng, Tianshu, Parish, Mary Edna, Gajjar, Amar, and Patay, Zoltan

Published

2013

2. Functional MRI in medulloblastoma survivors supports prophylactic reading intervention during tumor treatment.

Author

Zou, Ping, Conklin, Heather, Scoggins, Matthew, Li, Yimei, Li, Xingyu, Jones, Melissa, Palmer, Shawna, Gajjar, Amar, Ogg, Robert, Conklin, Heather M, Scoggins, Matthew A, Jones, Melissa M, Palmer, Shawna L, and Ogg, Robert J

Subjects

BRAIN tumor treatment, GLIOMA treatment, BRAIN, BRAIN tumors, BRAIN mapping, DYSLEXIA, GLIOMAS, LANGUAGE acquisition, MAGNETIC resonance imaging, NEUROPSYCHOLOGICAL tests, COMPUTERS in medicine, READING, RESEARCH funding, SPEECH therapy, THERAPEUTICS, TREATMENT effectiveness, PREVENTION

Abstract

Development of reading skills is vulnerable to disruption in children treated for brain tumors. Interventions, remedial and prophylactic, are needed to mitigate reading and other learning difficulties faced by survivors. A functional magnetic resonance imaging (fMRI) study was conducted to investigate long-term effects of a prophylactic reading intervention administered during radiation therapy in children treated for medulloblastoma. The fMRI study included 19 reading-intervention (age 11.7 ± 0.6 years) and 21 standard-of-care (age 12.1 ± 0.6 years) medulloblastoma survivors, and 21 typically developing children (age 12.3 ± 0.6 years). The survivors were 2.5 [1.2, 5.4] years after completion of tumor therapies and reading-intervention survivors were 2.9 [1.6, 5.9] years after intervention. Five fMRI tasks (Rapid Automatized Naming, Continuous Performance Test using faces and letters, orthographic and phonological processing of letter pairs, implicit word reading, and story reading) were used to probe reading-related neural activation. Woodcock-Johnson Reading Fluency, Word Attack, and Sound Awareness subtests were used to evaluate reading abilities. At the time of fMRI, Sound Awareness scores were significantly higher in the reading-intervention group than in the standard-of-care group (p = 0.046). Brain activation during the fMRI tasks was detected in left inferior frontal, temporal, ventral occipitotemporal, and subcortical regions, and differed among the groups (p < 0.05, FWE). The pattern of group activation differences, across brain areas and tasks, was a normative trend in the reading-intervention group. Standardized reading scores and patterns of brain activation provide evidence of long-term effects of prophylactic reading intervention in children treated for medulloblastoma. [ABSTRACT FROM AUTHOR]

Published

2016

3. MRI-based treatment planning with pseudo CT generated through atlas registration.

Author

Uh, Jinsoo, Merchant, Thomas E., Li, Yimei, Li, Xingyu, and Hua, Chiaho

Subjects

MAGNETIC resonance imaging of the brain, COMPUTED tomography, ELECTRON density, ARITHMETIC mean, PATTERN perception, ATLAS (Vertebra)

Abstract

Purpose: To evaluate the feasibility and accuracy of magnetic resonance imaging (MRI)-based treatment planning using pseudo CTs generated through atlas registration. Methods: A pseudo CT, providing electron density information for dose calculation, was generated by deforming atlas CT images previously acquired on other patients. The authors tested 4 schemes of synthesizing a pseudo CT from single or multiple deformed atlas images: use of a single arbitrarily selected atlas, arithmetic mean process using 6 atlases, and pattern recognition with Gaussian process (PRGP) using 6 or 12 atlases. The required deformation for atlas CT images was derived from a nonlinear registration of conjugated atlas MR images to that of the patient of interest. The contrasts of atlas MR images were adjusted by histogram matching to reduce the effect of different sets of acquisition parameters. For comparison, the authors also tested a simple scheme assigning the Hounsfield unit of water to the entire patient volume. All pseudo CT generating schemes were applied to 14 patients with common pediatric brain tumors. The image similarity of real patient-specific CT and pseudo CTs constructed by different schemes was compared. Differences in computation times were also calculated. The real CT in the treatment planning system was replaced with the pseudo CT, and the dose distribution was recalculated to determine the difference. Results: The atlas approach generally performed better than assigning a bulk CT number to the entire patient volume. Comparing atlas-based schemes, those using multiple atlases outperformed the single atlas scheme. For multiple atlas schemes, the pseudo CTs were similar to the real CTs (correlation coefficient, 0.787-0.819). The calculated dose distribution was in close agreement with the original dose. Nearly the entire patient volume (98.3%-98.7%) satisfied the criteria of chi-evaluation (<2% maximum dose and 2 mm range). The dose to 95% of the volume and the percentage of volume receiving at least 95% of the prescription dose in the planning target volume differed from the original values by less than 2% of the prescription dose (root-mean-square, RMS < 1%). The PRGP scheme did not perform better than the arithmetic mean process with the same number of atlases. Increasing the number of atlases from 6 to 12 often resulted in improvements, but statistical significance was not always found. Conclusions: MRI-based treatment planning with pseudo CTs generated through atlas registration is feasible for pediatric brain tumor patients. The doses calculated from pseudo CTs agreed well with those from real CTs, showing dosimetric accuracy within 2% for the PTV when multiple atlases were used. The arithmetic mean process may be a reasonable choice over PRGP for the synthesis scheme considering performance and computational costs. [ABSTRACT FROM AUTHOR]

Published

2014