Deep convolutional neural networks in thyroid disease detection: a multi-classification comparison by ultrasonography and computed tomography

X Zhang, VCS Lee, J Rong, JC Lee, F Liu - Computer Methods and …, 2022 - Elsevier
Abstract Background and Objective: As one of the largest endocrine organs in the human
body, the thyroid gland regulates daily metabolism. Early detection of thyroid disease leads …
被引用次数:44 相关文章

Deep convolutional neural networks in thyroid disease detection:: A multi-classification comparison by ultrasonography and computed tomography

X Zhang, VCS Lee, J Rong, JC Lee, F Liu - 2022 - dl.acm.org
Abstract Background and Objective: As one of the largest endocrine organs in the human
body, the thyroid gland regulates daily metabolism. Early detection of thyroid disease leads …

Deep convolutional neural networks in thyroid disease detection: A multi-classification comparison by ultrasonography and computed tomography.

X Zhang, VC Lee, J Rong, JC Lee… - Computer Methods and …, 2022 - europepmc.org
Method This research study is the first of its kind, which adopts two pre-operative medical
image modalities for multi-classifying thyroid disease types (ie, normal, thyroiditis, cystic …

Deep convolutional neural networks in thyroid disease detection: A multi-classification comparison by ultrasonography and computed tomography

X Zhang, VC Lee, J Rong… - … and programs in …, 2022 - pubmed.ncbi.nlm.nih.gov
Background and objective As one of the largest endocrine organs in the human body, the
thyroid gland regulates daily metabolism. Early detection of thyroid disease leads to reduced …

Deep convolutional neural networks in thyroid disease detection: a multi-classification comparison by ultrasonography and computed tomography

X Zhang, VCS Lee, J Rong, JC Lee… - Computer Methods and …, 2022 - research.monash.edu
Abstract Background and Objective: As one of the largest endocrine organs in the human
body, the thyroid gland regulates daily metabolism. Early detection of thyroid disease leads …