Scaling up X-ray holographic nanotomography for neuronal tissue imaging

Jayde Livingstone ¹

Carles Bosch ²

Aaron T. Kuan ^{3, 4}

Lucas Benoït

Paolo Busca

Thierry Martin

Mohd F.E.B. Mazri ³

Wangchu Xiang ³

Wei-Chung Allen Lee ^{3, 5}

Andreas T. Schaefer ^{2, 6}

Peter Cloetens

Alexandra Pacureanu

Show full list: 12 authors

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Univ. Grenoble Alpes, CNRS |

The Francis Crick Institute |

HARVARD MEDICAL SCHOOL |

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YALE SCHOOL OF MEDICINE |

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BOSTON CHILDREN’S HOSPITAL |

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University College

Publication type: Journal Article

Publication date: 2025-04-25

Optica Publishing Group

Journal: Biomedical Optics Express

scimago Q1

SJR: 0.925

CiteScore: 6.8

Impact factor: 2.9

ISSN: 21567085

DOI: 10.1364/boe.559263

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Abstract

Neuronal circuit reconstruction from X-ray holographic nanotomography (XNH) images of neuronal tissue requires overcoming limits in acquisition speed, image quality, and sample size. To fully exploit the higher brilliance of the European Synchrotron’s upgraded source, advances in endstation instrumentation and adapted data collection strategies are necessary. A detector upgrade combined with continuous scanning for XNH of neural tissue samples at the ESRF’s ID16A beamline demonstrates preserved or improved quality of images of large samples whilst increasing data acquisition time by more than a factor of two. This is a critical step in enabling the scaling up of XNH for neuronal tissue imaging.