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Three-dimensional scanless patterned illumination using time-multiplexed multiline temporal focusing for multicell manipulation with single-cell resolution.


ABSTRACT:

Significance

Three-dimensional (3D) two-photon patterned illumination using a combination of computer-generated holography (CGH) and wide-field temporal focusing (TF) has emerged as a highly effective approach for photostimulation. However, even though the axial full-width at half-maximum of a single-spot by TF is smaller than the single-cell size of 10  μm , the axial resolution of 3D multispot patterns produced by CGH with TF is lower than the single-cell resolution as a result of interference among multispots.

Aim

We aim to achieve 3D two-photon patterned illumination with single-cell resolution by combining CGH with time-multiplexed multiline temporal focusing (TM-ML-TF), which is implemented by adding an echelle grating at a position conjugate to the focal plane of the TF-CGH system.

Approach

We measure the 3D two-photon fluorescence distributions generated by the TF-CGH and TM-ML-TF-CGH systems.

Results

In TM-ML-TF, the crosstalk artifacts between the target spots in two proximal planes with an axial distance of 20  μm were suppressed from 81% to 15% compared with those in TF. We successfully achieved the photoconversion of 3D target cells in spheroids with single-cell resolution.

Conclusions

TM-ML-TF successfully suppresses the interference among multispots, enabling the TM-ML-TF-CGH system to provide precise 3D patterned illumination with single-cell resolution.

SUBMITTER: Inazawa K 

PROVIDER: S-EPMC12302995 | biostudies-literature | 2025 Jul

REPOSITORIES: biostudies-literature

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Publications

Three-dimensional scanless patterned illumination using time-multiplexed multiline temporal focusing for multicell manipulation with single-cell resolution.

Inazawa Kenta K   Yamada Mayumi M   Michikawa Takayuki T   Namiki Kana K   Miyawaki Atsushi A   Imayoshi Itaru I   Midorikawa Katsumi K   Isobe Keisuke K  

Journal of biomedical optics 20250728 7


<h4>Significance</h4>Three-dimensional (3D) two-photon patterned illumination using a combination of computer-generated holography (CGH) and wide-field temporal focusing (TF) has emerged as a highly effective approach for photostimulation. However, even though the axial full-width at half-maximum of a single-spot by TF is smaller than the single-cell size of 10  μm , the axial resolution of 3D multispot patterns produced by CGH with TF is lower than the single-cell resolution as a result of inte  ...[more]

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