Description
You are required to prepare a presentation on an advanced biomedical technology according to your preferred imaging modality or area of interest.
Presentation Requirements:
Number of slides: 10–15
Presentation time: 4 minutes
Slides must include an automatic timer
I need a solution that is plagiarism-free and doesn’t rely on artificial intelligence. It must be accurate, comprehensive, and well-organized. The references must be valid because the professor is meticulous and will ask about them; they must all be functional.
Modality
X-ray & Computed
Tomography (CT)
Magnetic Resonance
Imaging (MRI)
Ultrasound (US)
Nuclear Medicine &
Hybrid Imaging
Optical & Thermal
Imaging
Cross-Modality & Future
Technologies
Suggested Topics
– Photon-counting CT: principles and applications
– Spectral (dual-energy) CT for tissue characterization
– Hounsfield number analysis in CT for diagnostic bone density
– CT vs. DXA in bone mineral density measurement
– Portable and point-of-care CT scanners
– Digital Breast Tomosynthesis (DBT): advances in breast cancer detection
– Hyperpolarized MRI for metabolic imaging
– MR fingerprinting for quantitative tissue characterization
7T and ultra-high-field MRI: opportunities and challenges
– MR-guided focused ultrasound (MRgFUS)
– Whole-body diffusion weighted MRI in oncology.
Portable MRI systems: expanding access to neuroimaging and critical care
– 3D and 4D automated ultrasound in cardiac and breast imaging
– 3D Automated Breast Ultrasound (ABUS): screening for dense breasts
– Contrast-enhanced ultrasound (CEUS) for perfusion and vascular imaging
– Elastography for tissue stiffness assessment
– Quantitative Ultrasound (QUS) vs. DXA: bone density and tissue
characterization
– High-Intensity Focused Ultrasound
– Total-body PET scanners and whole-body kinetics
-PET/MRI hybrid systems vs PET/CT
– Theranostics in nuclear medicine (PSMA, neuroendocrine tumors)
– Novel radiotracers for neurodegenerative disease
– Intraoperative nuclear medicine probes for real-time tumor detection
Thermal Imaging (Infrared Thermography) in oncology, vascular disease, and
infection
– Fluorescence-guided surgery in oncology
– Photoacoustic imaging: merging optics and acoustics
– Optical coherence tomography (OCT) in ophthalmology and cardiology
– Multiphoton microscopy in neuroscience
– Bioluminescence imaging in preclinical research
– Radiomics and radiogenomics in personalized medicine
– Augmented reality (AR) and virtual reality (VR) in surgical planning
– Digital twin technology in imaging-based patient simulations
Purchase answer to see full
attachment
X-ray & Computed
Tomography (CT)
Magnetic Resonance
Imaging (MRI)
Ultrasound (US)
Nuclear Medicine &
Hybrid Imaging
Optical & Thermal
Imaging
Cross-Modality & Future
Technologies
Suggested Topics
– Photon-counting CT: principles and applications
– Spectral (dual-energy) CT for tissue characterization
– Hounsfield number analysis in CT for diagnostic bone density
– CT vs. DXA in bone mineral density measurement
– Portable and point-of-care CT scanners
– Digital Breast Tomosynthesis (DBT): advances in breast cancer detection
– Hyperpolarized MRI for metabolic imaging
– MR fingerprinting for quantitative tissue characterization
7T and ultra-high-field MRI: opportunities and challenges
– MR-guided focused ultrasound (MRgFUS)
– Whole-body diffusion weighted MRI in oncology.
Portable MRI systems: expanding access to neuroimaging and critical care
– 3D and 4D automated ultrasound in cardiac and breast imaging
– 3D Automated Breast Ultrasound (ABUS): screening for dense breasts
– Contrast-enhanced ultrasound (CEUS) for perfusion and vascular imaging
– Elastography for tissue stiffness assessment
– Quantitative Ultrasound (QUS) vs. DXA: bone density and tissue
characterization
– High-Intensity Focused Ultrasound
– Total-body PET scanners and whole-body kinetics
-PET/MRI hybrid systems vs PET/CT
– Theranostics in nuclear medicine (PSMA, neuroendocrine tumors)
– Novel radiotracers for neurodegenerative disease
– Intraoperative nuclear medicine probes for real-time tumor detection
Thermal Imaging (Infrared Thermography) in oncology, vascular disease, and
infection
– Fluorescence-guided surgery in oncology
– Photoacoustic imaging: merging optics and acoustics
– Optical coherence tomography (OCT) in ophthalmology and cardiology
– Multiphoton microscopy in neuroscience
– Bioluminescence imaging in preclinical research
– Radiomics and radiogenomics in personalized medicine
– Augmented reality (AR) and virtual reality (VR) in surgical planning
– Digital twin technology in imaging-based patient simulations
Purchase answer to see full
attachment
