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Literature DB >> 35154884

Imaging deeper than the transport mean free path with multiphoton microscopy.

Najva Akbari¹, Mihailo R Rebec¹, Fei Xia^1,2, Chris Xu¹.

Abstract

Multiphoton fluorescence microscopy enables deep in vivo imaging by using long excitation wavelengths to increase the penetration depth of ballistic photons and nonlinear excitation to suppress the out-of-focus fluorescence. However, the imaging depth of multiphoton microscopy is limited by tissue scattering and absorption. This fundamental depth limit for two-photon microscopy has been studied theoretically and experimentally. Long wavelength three-photon fluorescence microscopy was developed to image beyond the depth limit of two-photon microscopy and has achieved unprecedented in vivo imaging depth. Here we extend the theoretical framework for characterizing the depth limit of two-photon microscopy to three-photon microscopy. We further verify the theoretical predictions with experimental results from tissue phantoms. We demonstrate experimentally that high spatial resolution diffraction-limited imaging at a depth of 10 scattering mean free paths, which is nearly twice the transport mean free path, is possible with multiphoton microscopy. Our results indicate that the depth limit of three-photon microscopy is significantly beyond what has been achieved in biological tissues so far, and further technological development is required to reach the full potential of three-photon microscopy.

Entities: Chemical

Year: 2021 PMID： 35154884 PMCID： PMC8803047 DOI： 10.1364/BOE.444696

Source DB: PubMed Journal: Biomed Opt Express ISSN： 2156-7085 Impact factor: 3.732

37 in total

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3. Fiber-based tunable repetition rate source for deep tissue two-photon fluorescence microscopy.

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Journal: Biomed Opt Express Date: 2018-04-23 Impact factor: 3.732

4. Volumetric Ca²⁺ Imaging in the Mouse Brain Using Hybrid Multiplexed Sculpted Light Microscopy.

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Journal: Nat Methods Date: 2020-05-04 Impact factor: 28.547

6. In vivo three-photon microscopy of subcortical structures within an intact mouse brain.

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Journal: Nat Photonics Date: 2013-03-01 Impact factor: 38.771

Review 7. Three-Dimensional Imaging in Stem Cell-Based Researches.

Authors: Fariborz Nowzari; Huimei Wang; Arezoo Khoradmehr; Mandana Baghban; Neda Baghban; Alireza Arandian; Mahdi Muhaddesi; Iraj Nabipour; Mohammad I Zibaii; Mostafa Najarasl; Payam Taheri; Hamid Latifi; Amin Tamadon
Journal: Front Vet Sci Date: 2021-04-14

8. An adaptive excitation source for high-speed multiphoton microscopy.

Authors: Bo Li; Chunyan Wu; Mengran Wang; Kriti Charan; Chris Xu
Journal: Nat Methods Date: 2019-12-02 Impact factor: 28.547

9. Superficial Bound of the Depth Limit of Two-Photon Imaging in Mouse Brain.

Authors: Kevin Takasaki; Reza Abbasi-Asl; Jack Waters
Journal: eNeuro Date: 2020-01-17

4 in total

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Journal: Neurophotonics Date: 2022-04-27 Impact factor: 4.212