Join Dr Mustafa Kansiz, Director of Product Management and Marketing at Photothermal Spectroscopy Corp, and Prof Oxana Klementieva for this cutting-edge webinar showcasing revolutionary research that combines submicron IR spectroscopy with synchrotron X-ray fluorescence to unlock new insights into Alzheimer’s disease pathology.
Traditional Alzheimer’s disease research has been limited by the inability to simultaneously analyze molecular and elemental compositions at the subcellular level. Understanding the complex interactions between metal accumulation, protein aggregation, and lipid oxidation in neuronal pathology has required separate analytical approaches, often missing critical co-localization information that could reveal disease mechanisms.
The combination of O-PTIR and synchrotron X-ray fluorescence is changing everything.
This groundbreaking research demonstrates how submicron IR spectroscopy combined with synchrotron X-ray fluorescence enables unprecedented molecular and elemental imaging of neurons directly. Prof Klementieva will present breakthrough findings showing that in primary AD-like neurons, iron clusters co-localize with amyloid-beta sheet protein structures and oxidized lipids—a discovery that could revolutionize our understanding of Alzheimer’s disease progression.
Join us to discover how this multimodal analytical approach is transforming neurodegenerative disease research—finally making it possible to visualize the molecular basis of neuronal pathology with unprecedented precision.
Webinar Highlights:
✅ Multimodal Innovation – Revolutionary combination of submicron IR (O-PTIR) and synchrotron X-ray fluorescence for comprehensive neuronal analysis
✅ Alzheimer’s Disease Breakthrough – Direct evidence of iron-amyloid-lipid co-localization in AD-like neurons
✅ Molecular-Elemental Correlation – Simultaneous molecular and elemental imaging revealing disease mechanisms
✅ Primary Neuron Analysis – Direct study of disease-relevant cellular models with subcellular resolution
✅ Published Research – Latest findings from cutting-edge neuroscience research
✅ Simultaneous IR+Raman – Comprehensive spectroscopic capabilities for biological systems
What You’ll Learn:
Part 1: Technique Foundation
- Introduction to submicron IR with breakthrough O-PTIR technique
- Simultaneous Raman (IR+Raman) microscopy capabilities
- Life science application examples across live cells, tissues, and bacteria
- Synchrotron X-ray fluorescence integration for elemental mapping
Part 2: Alzheimer’s Disease Research
- Multimodal Neuronal Imaging – Combining molecular and elemental analysis in single neurons
- Iron-Amyloid Co-localization – Direct visualization of metal-protein interactions in AD pathology
- Oxidized Lipid Detection – Molecular evidence of oxidative stress in neuronal dysfunction
- Primary AD-like Neurons – Disease-relevant cellular models with subcellular analytical precision
Who Should Attend?
🧠 Neuroscientists – Researchers studying Alzheimer’s disease, neurodegeneration, and brain pathology
🏥 Alzheimer’s Disease Researchers – Scientists focused on amyloid-beta, tau proteins, and disease mechanisms
🔬 Analytical Neuroscientists – Professionals seeking advanced techniques for neuronal analysis
🧪 Biomedical Researchers – Experts in neurodegenerative diseases, aging, and brain metabolism
🌍 Pharmaceutical Scientists – Drug discovery researchers targeting Alzheimer’s and neurological disorders
🔬 Academic Researchers – Faculty and students in neuroscience, biochemistry, and biophysics
🏥 Clinical Neurologists – Medical professionals interested in disease mechanisms and diagnostic approaches
🧬 Cell Biologists – Scientists studying cellular dysfunction, oxidative stress, and protein aggregation
Don’t miss this opportunity to witness groundbreaking discoveries in Alzheimer’s disease research!