3-D reconstruction of macroscopic optical brain slice images

S Delp; A M DiGioia; B Jaramaz; E Bardinet; Y He; A Roche; S Al-Sarraj; B Nailon; J Ironside; N Ayache

3-D reconstruction of macroscopic optical brain slice images

S Delp (Editor), A M DiGioia (Editor), B Jaramaz (Editor), E Bardinet, Y He, A Roche, S Al-Sarraj, B Nailon, J Ironside, N Ayache

King's College London

Research output: Chapter in Book/Report/Conference proceeding › Conference paper

8 Citations (Scopus)

Abstract

We present a method for reconstruction of macroscopic optical images of post-mortem brain slices to form a 3-D volume. This forms a key part of a series of procedures to allow postmortem findings to be accurately registered with MR images, and more generally provides a method for 3-D mapping of the distribution of pathological changes throughout the brain. In this preliminary work, four brains from a study of Creutzfeldt-Jakob disease were examined. After brain fixation, the pathologist cut coronal slices several nun thick through the brain. The anterior and posterior faces of each slice were photographed. We show that the 2-D co-registration of each such pair of images was most effectively obtained if the slice was placed in a jig before photographing. Fiducials. on the jig were detected automatically and point-based rigid registration computed. For co-registration between slices, i.e., across a single cut, an intensity-based method for 2-D non-rigid registration is used which provided satisfactory results. By propagating the 2-D registrations through the volume and using the known slice thickness, the 3-D volume was reconstructed.

Original language	English
Title of host publication	LECT NOTE COMPUT SCI
Place of Publication	BERLIN
Publisher	Springer
Pages	95 - 105
Number of pages	11
ISBN (Print)	3-540-41189-5
Publication status	Published - 2000
Event	3rd International Conference on Medical Image Computing and Computer-Assisted Intervention - PITTSBURGH, PENNSYLVANIA Duration: 1 Jan 2000 → …

Publication series

Name	LECTURE NOTES IN COMPUTER SCIENCE

Conference

Conference	3rd International Conference on Medical Image Computing and Computer-Assisted Intervention
City	PITTSBURGH, PENNSYLVANIA
Period	1/01/2000 → …

Cite this

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title = "3-D reconstruction of macroscopic optical brain slice images",

abstract = "We present a method for reconstruction of macroscopic optical images of post-mortem brain slices to form a 3-D volume. This forms a key part of a series of procedures to allow postmortem findings to be accurately registered with MR images, and more generally provides a method for 3-D mapping of the distribution of pathological changes throughout the brain. In this preliminary work, four brains from a study of Creutzfeldt-Jakob disease were examined. After brain fixation, the pathologist cut coronal slices several nun thick through the brain. The anterior and posterior faces of each slice were photographed. We show that the 2-D co-registration of each such pair of images was most effectively obtained if the slice was placed in a jig before photographing. Fiducials. on the jig were detected automatically and point-based rigid registration computed. For co-registration between slices, i.e., across a single cut, an intensity-based method for 2-D non-rigid registration is used which provided satisfactory results. By propagating the 2-D registrations through the volume and using the known slice thickness, the 3-D volume was reconstructed.",

author = "S Delp and DiGioia, {A M} and B Jaramaz and E Bardinet and Y He and A Roche and S Al-Sarraj and B Nailon and J Ironside and N Ayache",

year = "2000",

language = "English",

isbn = "3-540-41189-5",

series = "LECTURE NOTES IN COMPUTER SCIENCE",

publisher = "Springer",

pages = "95 -- 105",

booktitle = "LECT NOTE COMPUT SCI",

note = "3rd International Conference on Medical Image Computing and Computer-Assisted Intervention ; Conference date: 01-01-2000",

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Delp, S (ed.), DiGioia, AM (ed.), Jaramaz, B (ed.), Bardinet, E, He, Y, Roche, A, Al-Sarraj, S, Nailon, B, Ironside, J & Ayache, N 2000, 3-D reconstruction of macroscopic optical brain slice images. in LECT NOTE COMPUT SCI. LECTURE NOTES IN COMPUTER SCIENCE, Springer, BERLIN, pp. 95 - 105, 3rd International Conference on Medical Image Computing and Computer-Assisted Intervention, PITTSBURGH, PENNSYLVANIA, 1/01/2000.

TY - CHAP

T1 - 3-D reconstruction of macroscopic optical brain slice images

AU - Bardinet, E

AU - He, Y

AU - Roche, A

AU - Al-Sarraj, S

AU - Nailon, B

AU - Ironside, J

AU - Ayache, N

A2 - Delp, S

A2 - DiGioia, A M

A2 - Jaramaz, B

PY - 2000

Y1 - 2000

N2 - We present a method for reconstruction of macroscopic optical images of post-mortem brain slices to form a 3-D volume. This forms a key part of a series of procedures to allow postmortem findings to be accurately registered with MR images, and more generally provides a method for 3-D mapping of the distribution of pathological changes throughout the brain. In this preliminary work, four brains from a study of Creutzfeldt-Jakob disease were examined. After brain fixation, the pathologist cut coronal slices several nun thick through the brain. The anterior and posterior faces of each slice were photographed. We show that the 2-D co-registration of each such pair of images was most effectively obtained if the slice was placed in a jig before photographing. Fiducials. on the jig were detected automatically and point-based rigid registration computed. For co-registration between slices, i.e., across a single cut, an intensity-based method for 2-D non-rigid registration is used which provided satisfactory results. By propagating the 2-D registrations through the volume and using the known slice thickness, the 3-D volume was reconstructed.

AB - We present a method for reconstruction of macroscopic optical images of post-mortem brain slices to form a 3-D volume. This forms a key part of a series of procedures to allow postmortem findings to be accurately registered with MR images, and more generally provides a method for 3-D mapping of the distribution of pathological changes throughout the brain. In this preliminary work, four brains from a study of Creutzfeldt-Jakob disease were examined. After brain fixation, the pathologist cut coronal slices several nun thick through the brain. The anterior and posterior faces of each slice were photographed. We show that the 2-D co-registration of each such pair of images was most effectively obtained if the slice was placed in a jig before photographing. Fiducials. on the jig were detected automatically and point-based rigid registration computed. For co-registration between slices, i.e., across a single cut, an intensity-based method for 2-D non-rigid registration is used which provided satisfactory results. By propagating the 2-D registrations through the volume and using the known slice thickness, the 3-D volume was reconstructed.

M3 - Conference paper

SN - 3-540-41189-5

T3 - LECTURE NOTES IN COMPUTER SCIENCE

SP - 95

EP - 105

BT - LECT NOTE COMPUT SCI

PB - Springer

CY - BERLIN

T2 - 3rd International Conference on Medical Image Computing and Computer-Assisted Intervention

Y2 - 1 January 2000

ER -

3-D reconstruction of macroscopic optical brain slice images

Abstract

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Conference

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