CAVE: Connectome Annotation Versioning Engine

Sven Dorkenwald; Casey M. Schneider-Mizell; Derrick Brittain; Akhilesh Halageri; Chris Jordan; Nico Kemnitz; Manual A. Castro; William Silversmith; Jeremy Maitin-Shephard; Jakob Troidl; Hanspeter Pfister; Valentin Gillet; Daniel Xenes; J. Alexander Bae; Agnes L. Bodor; Jo Ann Buchanan; Daniel J. Bumbarger; Leila Elabbady; Zhen Jia; Daniel Kapner; Sam Kinn; Kisuk Lee; Kai Li; Ran Lu; Thomas Macrina; Gayathri Mahalingam; Eric Mitchell; Shanka Subhra Mondal; Shang Mu; Barak Nehoran; Sergiy Popovych; Marc Takeno; Russel Torres; Nicholas L. Turner; William Wong; Jingpeng Wu; Wenjing Yin; Szi Chieh Yu; R. Clay Reid; Nuno Maçarico da Costa; H. Sebastian Seung; Forrest Collman

doi:10.1038/s41592-024-02426-z

CAVE: Connectome Annotation Versioning Engine

Sven Dorkenwald, Casey M. Schneider-Mizell, Derrick Brittain, Akhilesh Halageri, Chris Jordan, Nico Kemnitz, Manual A. Castro, William Silversmith, Jeremy Maitin-Shephard, Jakob Troidl, Hanspeter Pfister, Valentin Gillet, Daniel Xenes, J. Alexander Bae, Agnes L. Bodor, Jo Ann Buchanan, Daniel J. Bumbarger, Leila Elabbady, Zhen Jia, Daniel KapnerSam Kinn, Kisuk Lee, Kai Li, Ran Lu, Thomas Macrina, Gayathri Mahalingam, Eric Mitchell, Shanka Subhra Mondal, Shang Mu, Barak Nehoran, Sergiy Popovych, Marc Takeno, Russel Torres, Nicholas L. Turner, William Wong, Jingpeng Wu, Wenjing Yin, Szi Chieh Yu, R. Clay Reid, Nuno Maçarico da Costa, H. Sebastian Seung, Forrest Collman

Research output: Contribution to journal › Article › peer-review

3 Scopus citations

Abstract

Advances in electron microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets, which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this changing and expanding data landscape. Here we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure that provides scalable solutions for proofreading and flexible annotation support for fast analysis queries at arbitrary time points. Deployed as a suite of web services, CAVE empowers distributed communities to perform reproducible connectome analysis in up to petascale datasets (~1 mm³) while proofreading and annotating is ongoing.

Original language	English (US)
Article number	e2202580119
Pages (from-to)	1112-1120
Number of pages	9
Journal	Nature Methods
Volume	22
Issue number	5
DOIs	https://doi.org/10.1038/s41592-024-02426-z
State	Published - May 2025

All Science Journal Classification (ASJC) codes

Biotechnology
Biochemistry
Molecular Biology
Cell Biology

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10.1038/s41592-024-02426-z

Cite this

Dorkenwald, S., Schneider-Mizell, C. M., Brittain, D., Halageri, A., Jordan, C., Kemnitz, N., Castro, M. A., Silversmith, W., Maitin-Shephard, J., Troidl, J., Pfister, H., Gillet, V., Xenes, D., Bae, J. A., Bodor, A. L., Buchanan, J. A., Bumbarger, D. J., Elabbady, L., Jia, Z., ... Collman, F. (2025). CAVE: Connectome Annotation Versioning Engine. Nature Methods, 22(5), 1112-1120. Article e2202580119. https://doi.org/10.1038/s41592-024-02426-z

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title = "CAVE: Connectome Annotation Versioning Engine",

abstract = "Advances in electron microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets, which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this changing and expanding data landscape. Here we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure that provides scalable solutions for proofreading and flexible annotation support for fast analysis queries at arbitrary time points. Deployed as a suite of web services, CAVE empowers distributed communities to perform reproducible connectome analysis in up to petascale datasets (~1 mm3) while proofreading and annotating is ongoing.",

author = "Sven Dorkenwald and Schneider-Mizell, {Casey M.} and Derrick Brittain and Akhilesh Halageri and Chris Jordan and Nico Kemnitz and Castro, {Manual A.} and William Silversmith and Jeremy Maitin-Shephard and Jakob Troidl and Hanspeter Pfister and Valentin Gillet and Daniel Xenes and Bae, {J. Alexander} and Bodor, {Agnes L.} and Buchanan, {Jo Ann} and Bumbarger, {Daniel J.} and Leila Elabbady and Zhen Jia and Daniel Kapner and Sam Kinn and Kisuk Lee and Kai Li and Ran Lu and Thomas Macrina and Gayathri Mahalingam and Eric Mitchell and Mondal, {Shanka Subhra} and Shang Mu and Barak Nehoran and Sergiy Popovych and Marc Takeno and Russel Torres and Turner, {Nicholas L.} and William Wong and Jingpeng Wu and Wenjing Yin and Yu, {Szi Chieh} and Reid, {R. Clay} and {da Costa}, {Nuno Ma{\c c}arico} and Seung, {H. Sebastian} and Forrest Collman",

note = "Publisher Copyright: {\textcopyright} The Author(s) 2024.",

year = "2025",

month = may,

doi = "10.1038/s41592-024-02426-z",

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volume = "22",

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Dorkenwald, S, Schneider-Mizell, CM, Brittain, D, Halageri, A, Jordan, C, Kemnitz, N, Castro, MA, Silversmith, W, Maitin-Shephard, J, Troidl, J, Pfister, H, Gillet, V, Xenes, D, Bae, JA, Bodor, AL, Buchanan, JA, Bumbarger, DJ, Elabbady, L, Jia, Z, Kapner, D, Kinn, S, Lee, K, Li, K , Lu, R, Macrina, T, Mahalingam, G, Mitchell, E, Mondal, SS, Mu, S, Nehoran, B, Popovych, S, Takeno, M, Torres, R, Turner, NL, Wong, W, Wu, J, Yin, W, Yu, SC, Reid, RC, da Costa, NM, Seung, HS & Collman, F 2025, 'CAVE: Connectome Annotation Versioning Engine', Nature Methods, vol. 22, no. 5, e2202580119, pp. 1112-1120. https://doi.org/10.1038/s41592-024-02426-z

TY - JOUR

T1 - CAVE

T2 - Connectome Annotation Versioning Engine

AU - Dorkenwald, Sven

AU - Schneider-Mizell, Casey M.

AU - Brittain, Derrick

AU - Halageri, Akhilesh

AU - Jordan, Chris

AU - Kemnitz, Nico

AU - Castro, Manual A.

AU - Silversmith, William

AU - Maitin-Shephard, Jeremy

AU - Troidl, Jakob

AU - Pfister, Hanspeter

AU - Gillet, Valentin

AU - Xenes, Daniel

AU - Bae, J. Alexander

AU - Bodor, Agnes L.

AU - Buchanan, Jo Ann

AU - Bumbarger, Daniel J.

AU - Elabbady, Leila

AU - Jia, Zhen

AU - Kapner, Daniel

AU - Kinn, Sam

AU - Lee, Kisuk

AU - Li, Kai

AU - Lu, Ran

AU - Macrina, Thomas

AU - Mahalingam, Gayathri

AU - Mitchell, Eric

AU - Mondal, Shanka Subhra

AU - Mu, Shang

AU - Nehoran, Barak

AU - Popovych, Sergiy

AU - Takeno, Marc

AU - Torres, Russel

AU - Turner, Nicholas L.

AU - Wong, William

AU - Wu, Jingpeng

AU - Yin, Wenjing

AU - Yu, Szi Chieh

AU - Reid, R. Clay

AU - da Costa, Nuno Maçarico

AU - Seung, H. Sebastian

AU - Collman, Forrest

PY - 2025/5

Y1 - 2025/5

N2 - Advances in electron microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets, which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this changing and expanding data landscape. Here we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure that provides scalable solutions for proofreading and flexible annotation support for fast analysis queries at arbitrary time points. Deployed as a suite of web services, CAVE empowers distributed communities to perform reproducible connectome analysis in up to petascale datasets (~1 mm3) while proofreading and annotating is ongoing.

AB - Advances in electron microscopy, image segmentation and computational infrastructure have given rise to large-scale and richly annotated connectomic datasets, which are increasingly shared across communities. To enable collaboration, users need to be able to concurrently create annotations and correct errors in the automated segmentation by proofreading. In large datasets, every proofreading edit relabels cell identities of millions of voxels and thousands of annotations like synapses. For analysis, users require immediate and reproducible access to this changing and expanding data landscape. Here we present the Connectome Annotation Versioning Engine (CAVE), a computational infrastructure that provides scalable solutions for proofreading and flexible annotation support for fast analysis queries at arbitrary time points. Deployed as a suite of web services, CAVE empowers distributed communities to perform reproducible connectome analysis in up to petascale datasets (~1 mm3) while proofreading and annotating is ongoing.

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DO - 10.1038/s41592-024-02426-z

M3 - Article

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AN - SCOPUS:105002172706

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EP - 1120

JO - Nature Methods

JF - Nature Methods

IS - 5

M1 - e2202580119

ER -

CAVE: Connectome Annotation Versioning Engine

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