bio-economics supply and demand according to chance
TRANSCRIPT
- Slide 1
- Bio-Economics Supply and Demand According to Chance
- Slide 2
- 1) Oxygen and Mitochondria 2) In Vitro to In Vivo Measurements 3) MRI to Optical Imaging Grand Unified Theory of Britt Supply Demand
- Slide 3
- Balance and Feedback
- Slide 4
- http://en.wikipedia.org/wiki/Supply_and_demand Increased Demand: higher cost Unless Supply reacts to meet demand Demand Quantity Price Economics: Supply and Demand Balance and Feedback
- Slide 5
- Supply: G(BC)P 70 50 30 10 Pubs/year Results: 1478 Times cited: 68,155 Ave. citations per: 46.11 h-index: 122 pulse ~60 yrs Impact: ~3 ~200 yrs
- Slide 6
- Demand 1500 Citations/year 1000 Results: 1478 Times cited: 68,155 Ave. citations per: 46.11 h-index: 122 pulse ~60 yrs Impact: ~3 ~200 yrs
- Slide 7
- http://en.wikipedia.org/wiki/Supply_and_demand Increased Demand: higher Metabolic cost Unless Supply reacts to meet demand Supply Demand Quantity Price Bio-Economics: Supply and Demand
- Slide 8
- Cell-Vascular Coupling Diseases Coronary Artery Disease, Peripheral Vascular Disease, Cancer, Neurological Disease, Diabetes Consequences (causes) Restricted blood flow to tissue Cellular O 2 demand cannot be met Ischemia, hypoxia, necrosis ROS generation Impaired cellular function, mitochondrial disease Causes (consequences) Decreased vessel compliance, remodeling endothelial/eNOS damage, impaired reactivity,
- Slide 9
- Cell-Vascular Coupling Diseases Quantify tissue oxygen consumption, perfusion Perturbations: Occlusion, breathing, exercise... Individual Physiology: detection, diagnosis, therapy response BC Pioneered Optical Measurements
- Slide 10
- Intrinsic Signal Optical Imaging Remove skin/muscle, thin skull. Mechanical Movement of C2 Whisker. 5 deflections at 5 Hz. Illuminate with 630 nm light. Measure change in remitted light. Grinvald, Lieke, Frostig, Gilbert, and Wiesel, Nature, 1986. Whisker Stimulator Lens Ron Frostig, UCI
- Slide 11
- Hemodynamic Response stimulation Initial Dip Overshoot (BOLD)Undershoot 1 mm 630 nm light (deoxy Hb) t ~ 1 st ~ 4 st ~ 7 s
- Slide 12
- Spatial Frequency Domain Imaging (SFDI) Rd (fx)Rd (fx) Spatial Frequency, f x (mm -1 ) a, s ' Cuccia et. al., Opt Lett, (2005) Cuccia et. al., JBO (2009) 1 0 photon density depth Tissue Structured light SFDI Implications: 1)Optical Property Mapping 1)Depth-Resolved Imaging Tissue: a low-pass spatial filter
- Slide 13
- Hyperspectral SFDI L. Gao, R. T. Kester, and T. S. Tkaczyk, Opt. Express 17, 12293-12308 (2009). Full images (350 x 350 pixels) of 46 Wavelengths at 5 Hz. Close up Photo of Mapper Soren Konecky Tomasz Tkaczyk
- Slide 14
- Intrinsic Signal Tomograpy depth Black & White: Baseline Color: Functional Change increase decrease 10.5 -0.5
- Slide 15
- Biomedical Optics Before Chance (B.C.) Light Source Detector cuvette pre-1987
- Slide 16
- Biomedical Optics Chance Era (C.E.) No Cuvette (too expensive) Abundant supply of body parts Time-shared laser sources (off time saves $$) RF electronics = Radio Shack
- Slide 17
- Grand Unified Theory of Britt Supply Demand
- Slide 18
- New Unit of Measure: 1 BCU = 100 mW/cm 2 ~Max exposure intensity for biotissue damage BCU: Max intensity At the limit
- Slide 19
- Photons are Cheaper $10 6 /Tesla $10 -14 /photon