| Document Date: 2008-10-27 19:49:43
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Company Hanson / Friden / Prairie Technologies Inc. / Olympus / Bullard / / Country United States / / / Event Patent Filing / / Facility Stanford University / / IndustryTerm stainless-steel-clad / sarcomere imaging / human subject protocol / high-resolution second-harmonic generation imaging / stainless steel / invasive imaging / Animal imaging / rehabilitation technology / invasive imaging measurements / deep-tissue imaging / In vivo imaging / online version / subsequent imaging / rehabilitation technology rest / Human imaging / in vivo imaging studies / filed patent applications / imaging / chemical stimulus25 / open-source software / vivo mammalian brain imaging / invasive high-speed imaging / autofluorescence imaging / laser-scanning imaging system / quantitative secondharmonic generation imaging / / MusicGroup M.E. / / Organization National Institute of Health / Coulter Foundation / Stanford University / James H. Clark Center / / Person Mai Tai / / Position Acknowledgements Author / Author / Medical Scientist / LETTERS NATURE Author / Bio-X Author Information Reprints / Proofreader / / ProvinceOrState California / / SportsLeague Stanford University / / Technology Laser / human subject protocol / rehabilitation technology / / URL www.nature.com/nature / www.nature.com/reprints / /
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doi:[removed]nature07104 LETTERS Minimally invasive high-speed imaging of sarcomere contractile dynamics in mice and humans Michael E. Llewellyn1, Robert P. J. Barretto1, Scott L. Delp1 & Mark J. Schnitzer1