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Fighting Cancer with Gold Nanoshells Goals for this presentation: • Expand concept of nanomedicine • Provide a brief overview of nanoshells related cancer research • Explore science behind gold nanoshells First, lets get the big picture… The BIG Idea • Gold nanoshells cover cancer cells • Specifically target cancer cells • Many particles per cell • Cell becomes more “visible” for reflective imaging • Nanoshells absorb light and become excited/heat up, cause cell death • Waste disposed of naturally, other cells unharmed But how does it all work? Nanoshells are made in a lab • Researchers create special nanoparticles • Gold shell grown onto silica core Why are nanoshells special? • Small (just over 100nm in diameter!) • Gold is biologically inert • Different from standard nanoparticles • Dimensions of the shell can be changed • Stronger interactions with light waves Next, Nanoshells are treated… …to be more biologically compatible… • Targeting treatment allow nanoshell to bind to abundant cell receptors on cancer cell • Surface coatings prevent immune system removal of nanoshells …and “tuned” to desired dimensions. • Chemical etching of nanoshell • Reduced shell thickness • Increased shell roughness • Core size remains unchanged Wait, why are nanoshells tuned? “Tuning” • Tuning is the process of resizing the exterior of a nanoshell • Allows nanoshells to absorb Near Infrared (NIR) light • NIR light passes through biological tissue harmlessly So… • Nanoshells now have surface coatings to… • Prevent immune response • Attach to cancer cells • Nanoshells now interact with NIR light • Specific wavelengths reflected • Different specific wavelengths absorbed • Nanoshells can absorb NIR light shining in from outside body How exactly do nanoshells find cancer cells? Targeting • Cancer cells have many more growth receptors than healthy cells • Nanoshells move from blood flow and attach to growth receptors Now that the nanoshells are attached… Take a picture of a tumor! • Specific wavelengths of NIR reflect off of the nanoshells • Nanoshells are more reflective than cancerous cells • Imaging attached nanoshells is the same as imaging the cancer cell Imaging with OCT • The process of Optical Coherence Tomography (OCT) • NIR laser shines into body • Nanoshells reflect NIR light back to a sensor • Sensor detects change in reflected light • Picture created from sensor data http://en.wikipedia.org/wiki/Optical_coherence_tomography OCT image of a finger tip Now we’ve imaged our tumor… But what if we could get rid of it? Ablating Cancer • Nanoshells can be used to kill cancer cells • Nanoshells absorb a specific wavelength of NIR light • Change in energy causes small vibrations • Vibrations cause cell to heat up, causing cell death Lets review… Nanoshells are… • • • • • • Grown in a lab Treated to target cancer cells Tuned to near infrared light Attached to cancer cells Imaged using reflection Heated to kill cancer cells Benefits of gold nanoshells • Immunotargeting (binding primarily to cancer) prevents damage to healthy tissue • NIR light allow for non-invasive treatment • The same nanoshells that are used to image cancer can also be used to treat cancer What’s next? • Currently, nanoshells are NOT used in humans • Nanoshells have been used to image and destroy tumors in laboratory specimen • Awaiting FDA approval to begin clinical trials http://www.edbatista.com/marketing/index.htm l http://www.dailymail.co.uk/pages/live/articles/health/he althmain.html?in_article_id=453290&in_page_id=1774
