TY - GEN
T1 - Fast P-THG microscopy for the characterization of biomaterials
AU - Morizet, Joséphine
AU - Ducourthial, Guillaume
AU - Supatto, Willy
AU - Boutillon, Arthur
AU - Legouis, Renaud
AU - Schanne-Klein, Marie Claire
AU - Stringari, Chiara
AU - Beaurepaire, Emmanuel
N1 - Publisher Copyright:
© 2019 SPIE.
PY - 2019/1/1
Y1 - 2019/1/1
N2 - The application range of P-THG microscopy has been so far restricted to studies on molecular order and anisotropy of static specimen removed from their biological environment. Slow polarization commutation limits the investigation of highly dynamic systems because of motion artifacts. Here we have developed a new fast-P-THG microscope enabling efficient in vivo studies in dynamic biological samples. Our P-THG scheme benefits from a built-in EOM that switch polarization states at kilohertz between image lines to provide artefact-free P-THG images with micrometric resolution. Furthermore, we have developed a fast Fourier analysis enabling rapid P-THG processing to quantify lipid order and angular maps. We demonstrated that fast-P-THG is suitable in two major applications. Using first a linear polarization configuration, fast P-THG imaging revealed molecular order changes in MLVs undergoing phase-transition upon heating despite sample distortions. Anisotropy properties of small endogenous microparticles swimming in the otolith cavity embryos were also reported in early zebrafish embryos. A second configuration with linear-circular polarization commutation enabled efficient detection of birefringent media such as anisotropic vesicles in C-elegans gut cells.
AB - The application range of P-THG microscopy has been so far restricted to studies on molecular order and anisotropy of static specimen removed from their biological environment. Slow polarization commutation limits the investigation of highly dynamic systems because of motion artifacts. Here we have developed a new fast-P-THG microscope enabling efficient in vivo studies in dynamic biological samples. Our P-THG scheme benefits from a built-in EOM that switch polarization states at kilohertz between image lines to provide artefact-free P-THG images with micrometric resolution. Furthermore, we have developed a fast Fourier analysis enabling rapid P-THG processing to quantify lipid order and angular maps. We demonstrated that fast-P-THG is suitable in two major applications. Using first a linear polarization configuration, fast P-THG imaging revealed molecular order changes in MLVs undergoing phase-transition upon heating despite sample distortions. Anisotropy properties of small endogenous microparticles swimming in the otolith cavity embryos were also reported in early zebrafish embryos. A second configuration with linear-circular polarization commutation enabled efficient detection of birefringent media such as anisotropic vesicles in C-elegans gut cells.
KW - Medical and biological imaging
KW - Multiharmonic generation
KW - Nonlinear microscopy
KW - Polarization
UR - https://www.scopus.com/pages/publications/85074276271
U2 - 10.1117/12.2527209
DO - 10.1117/12.2527209
M3 - Conference contribution
AN - SCOPUS:85074276271
T3 - Progress in Biomedical Optics and Imaging - Proceedings of SPIE
BT - Advances in Microscopic Imaging II
A2 - Beaurepaire, Emmanuel
A2 - Pavone, Francesco Saverio
PB - SPIE
T2 - Advances in Microscopic Imaging II 2019
Y2 - 26 June 2019 through 27 June 2019
ER -