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Literature DB >> 21127249

Video-rate molecular imaging in vivo with stimulated Raman scattering.

Brian G Saar¹, Christian W Freudiger, Jay Reichman, C Michael Stanley, Gary R Holtom, X Sunney Xie.

Abstract

Optical imaging in vivo with molecular specificity is important in biomedicine because of its high spatial resolution and sensitivity compared with magnetic resonance imaging. Stimulated Raman scattering (SRS) microscopy allows highly sensitive optical imaging based on vibrational spectroscopy without adding toxic or perturbative labels. However, SRS imaging in living animals and humans has not been feasible because light cannot be collected through thick tissues, and motion-blur arises from slow imaging based on backscattered light. In this work, we enable in vivo SRS imaging by substantially enhancing the collection of the backscattered signal and increasing the imaging speed by three orders of magnitude to video rate. This approach allows label-free in vivo imaging of water, lipid, and protein in skin and mapping of penetration pathways of topically applied drugs in mice and humans.

Entities: Chemical Disease Gene Species

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Year: 2010 PMID： 21127249 PMCID： PMC3462359 DOI： 10.1126/science.1197236

Source DB: PubMed Journal: Science ISSN： 0036-8075 Impact factor: 47.728

17 in total

1. Label-free, real-time monitoring of biomass processing with stimulated Raman scattering microscopy.

Authors: Brian G Saar; Yining Zeng; Christian W Freudiger; Yu-San Liu; Michael E Himmel; X Sunney Xie; Shi-You Ding
Journal: Angew Chem Int Ed Engl Date: 2010-07-26 Impact factor: 15.336

2. Vibrational imaging of tablets by epi-detected stimulated Raman scattering microscopy.

Authors: Mikhail N Slipchenko; Hongtao Chen; David R Ely; Yookyung Jung; M Teresa Carvajal; Ji-Xin Cheng
Journal: Analyst Date: 2010-07-13 Impact factor: 4.616

3. Chemical imaging of tissue in vivo with video-rate coherent anti-Stokes Raman scattering microscopy.

Authors: Conor L Evans; Eric O Potma; Mehron Puoris'haag; Daniel Côté; Charles P Lin; X Sunney Xie
Journal: Proc Natl Acad Sci U S A Date: 2005-11-01 Impact factor: 11.205

4. Quantitative coherent anti-Stokes Raman scattering imaging of lipid distribution in coexisting domains.

Authors: Li Li; Haifeng Wang; Ji-Xin Cheng
Journal: Biophys J Date: 2005-08-26 Impact factor: 4.033

5. High-sensitivity vibrational imaging with frequency modulation coherent anti-Stokes Raman scattering (FM CARS) microscopy.

Authors: Feruz Ganikhanov; Conor L Evans; Brian G Saar; X Sunney Xie
Journal: Opt Lett Date: 2006-06-15 Impact factor: 3.776

6. Analysis and experimental assessment of the sensitivity of stimulated Raman scattering microscopy.

Authors: Yasuyuki Ozeki; Fumihiro Dake; Shin'ichiro Kajiyama; Kiichi Fukui; Kazuyoshi Itoh
Journal: Opt Express Date: 2009-03-02 Impact factor: 3.894

7. Multiphoton excitation fluorescence microscopy and spectroscopy of in vivo human skin.

Authors: B R Masters; P T So; E Gratton
Journal: Biophys J Date: 1997-06 Impact factor: 4.033

Review 8. Moisturization and skin barrier function.

Authors: A V Rawlings; C R Harding
Journal: Dermatol Ther Date: 2004 Impact factor: 2.851

9. Label-free biomedical imaging with high sensitivity by stimulated Raman scattering microscopy.

Authors: Christian W Freudiger; Wei Min; Brian G Saar; Sijia Lu; Gary R Holtom; Chengwei He; Jason C Tsai; Jing X Kang; X Sunney Xie
Journal: Science Date: 2008-12-19 Impact factor: 47.728

10. Minimally invasive high-speed imaging of sarcomere contractile dynamics in mice and humans.

Authors: Michael E Llewellyn; Robert P J Barretto; Scott L Delp; Mark J Schnitzer
Journal: Nature Date: 2008-07-06 Impact factor: 49.962

180 in total

1. Beam scanning for rapid coherent Raman hyperspectral imaging.

Authors: Ian Seungwan Ryu; Charles H Camp; Ying Jin; Marcus T Cicerone; Young Jong Lee
Journal: Opt Lett Date: 2015-12-15 Impact factor: 3.776

2. Label-free DNA imaging in vivo with stimulated Raman scattering microscopy.

Authors: Fa-Ke Lu; Srinjan Basu; Vivien Igras; Mai P Hoang; Minbiao Ji; Dan Fu; Gary R Holtom; Victor A Neel; Christian W Freudiger; David E Fisher; X Sunney Xie
Journal: Proc Natl Acad Sci U S A Date: 2015-08-31 Impact factor: 11.205

3. Dispersion-based stimulated Raman scattering spectroscopy, holography, and optical coherence tomography.

Authors: Francisco E Robles; Martin C Fischer; Warren S Warren
Journal: Opt Express Date: 2016-01-11 Impact factor: 3.894

4. Synchronous digitization for high dynamic range lock-in amplification in beam-scanning microscopy.

Authors: Ryan D Muir; Shane Z Sullivan; Robert A Oglesbee; Garth J Simpson
Journal: Rev Sci Instrum Date: 2014-03 Impact factor: 1.523

5. Evaluation of stimulated Raman scattering microscopy for identifying squamous cell carcinoma in human skin.

Authors: Richa Mittal; Mihaela Balu; Tatiana Krasieva; Eric O Potma; Laila Elkeeb; Christopher B Zachary; Petra Wilder-Smith
Journal: Lasers Surg Med Date: 2013-08-31 Impact factor: 4.025

6. Effect of desiccating stress on mouse meibomian gland function.

Authors: Jeffrey L Suhalim; Geraint J Parfitt; Yilu Xie; Cintia S De Paiva; Cintia S De Pavia; Stephen C Pflugfelder; Tejas N Shah; Eric O Potma; Donald J Brown; James V Jester
Journal: Ocul Surf Date: 2013-10-18 Impact factor: 5.033

7. Live-cell vibrational imaging of choline metabolites by stimulated Raman scattering coupled with isotope-based metabolic labeling.

Authors: Fanghao Hu; Lu Wei; Chaogu Zheng; Yihui Shen; Wei Min
Journal: Analyst Date: 2014-05-21 Impact factor: 4.616