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Tan B 10
Showing records 1 to 10 | Display all abstracts from Tan B123181 Evaluation of the effect of hemodynamic factors on retinal microcirculation by using 3D confocal image-based computational fluid dynamics
Ong CW
Frontiers in bioengineering and biotechnology 2024; 12: 1489172
124695 Optical coherence tomography choroidal enhancement using generative deep learning
Bellemo V
NPJ digital medicine 2024; 7: 115
123181 Evaluation of the effect of hemodynamic factors on retinal microcirculation by using 3D confocal image-based computational fluid dynamics
Tan B
Frontiers in bioengineering and biotechnology 2024; 12: 1489172
124695 Optical coherence tomography choroidal enhancement using generative deep learning
Kumar Das A
NPJ digital medicine 2024; 7: 115
123181 Evaluation of the effect of hemodynamic factors on retinal microcirculation by using 3D confocal image-based computational fluid dynamics
Hussain S
Frontiers in bioengineering and biotechnology 2024; 12: 1489172
124695 Optical coherence tomography choroidal enhancement using generative deep learning
Sreng S; Chua J
NPJ digital medicine 2024; 7: 115
123181 Evaluation of the effect of hemodynamic factors on retinal microcirculation by using 3D confocal image-based computational fluid dynamics
Chuangsuwanich T
Frontiers in bioengineering and biotechnology 2024; 12: 1489172
124695 Optical coherence tomography choroidal enhancement using generative deep learning
Wong D
NPJ digital medicine 2024; 7: 115
123181 Evaluation of the effect of hemodynamic factors on retinal microcirculation by using 3D confocal image-based computational fluid dynamics
Braeu FA; Cui F
Frontiers in bioengineering and biotechnology 2024; 12: 1489172
124695 Optical coherence tomography choroidal enhancement using generative deep learning
Shah J; Jonas R; Tan B; Liu X; Xu X; Tan GSW; Agrawal R; Ting DSW; Yong L; Schmetterer L
NPJ digital medicine 2024; 7: 115