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Brain Structure and Function
Erschienen in: Brain Structure and Function 4/2005

01.11.2005 | Original article

Standard atlas space for C57BL/6J neonatal mouse brain

verfasst von: Erh-Fang Lee, Russell E. Jacobs, Ivo Dinov, Alex Leow, Arthur W. Toga

Erschienen in: Brain Structure and Function | Ausgabe 4/2005

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Abstract

A standard atlas space with stereotaxic co-ordinates for the postnatal day 0 (P0) C57BL/6J mouse brain was constructed from the average of eight individual co-registered MR image volumes. Accuracy of registration and morphometric variations in structures between subjects were analyzed statistically. We also applied this atlas coordinate system to data acquired using different imaging protocols as well as to a high-resolution histological atlas obtained from separate animals. Mapping accuracy in the atlas space was examined to determine the applicability of this atlas framework. The results show that the atlas space defined here provides a stable framework for image registration for P0 normal mouse brains. With an appropriate feature-based co-registration strategy, the probability atlas can also provide an accurate anatomical map for images acquired using invasive imaging methods. The atlas templates and the probability map of the anatomical labels are available at http://​www.​loni.​ucla.​edu/​MAP/​.
Literatur
Baldock R, Bard J, Brune R, Hill B, Kaufman M, Opstad K, Smith D, Stark M, Waterhouse A, Yang Y, Davidson D (2001) The Edinburgh mouse atlas: using the CD. Brief Bioinform 2:159–169PubMedCrossRef
Chiavaras MM, LeGoualher G, Evans A, Petrides M (2001) Three-dimensional probabilistic atlas of the human orbitofrontal sulci in standardized stereotaxic space. Neuroimage 13:13479–13496CrossRef
Diep DB, Hoen N, Backman M, Machon O, Krauss S (2004) Characterisation of the Wnt antagonists and their response to conditionally activated Wnt signalling in the developing mouse forebrain. Brain Res Dev Brain Res 153:261–270PubMedCrossRef
Gray PA, Fu H, Luo P, Zhao Q, Yu J, Ferrari A, Tenzen T, Yuk DI, Tsung EF, Cai Z, Alberta JA, Cheng LP, Liu Y, Stenman JM, Valerius MT, Billings N, Kim HA, Greenberg ME, McMahon AP, Rowitch DH, Stiles CD, Ma Q (2004) Mouse brain organization revealed through direct genome-scale TF expression analysis. Science 306:2255–2257PubMedCrossRef
Jacobowitz DM, Abbott LC (1998) Chemoarchitectonic atlas of the developing mouse brain. CRC Press, Boca Raton, FL
Kovacevic N, Henderson JT, Chan E, Lifshitz N, Bishop J, Evans AC, Henkelman RM, Chen XJ (2004) A three-dimensional MRI atlas of the mouse brain with estimates of the average and variability. Cereb Cortex. DOI 10.1093/cercor/bhh165
Leow A, Huang SC, Geng A, Becker J, Davis S,Toga AW, Thompson P (2005) Inverse consistent mapping in 3D deformable image registration: its construction and statistical properties. In: To appear in Proceedings of the IPMI (information processing in medical imaging).Glenwoods Springs, CO, pp11–15
Li DF, Freeman AW, Tran-Dinh H, Morris JG (2004) A cartesian co-ordinate system for human cerebral cortex. J Neurosci Methods 125:137–145CrossRef
MacKenzie-Graham A, Lee EF, Dinov ID, Bota M, Shattuck DW, Ruffins S, Yuan H, Konstantinidis F, Pitiot A, Ding Y, Hu G, Jacobs RE, Toga AW (2004) A multimodal, multidimensional atlas of the C57BL/6 J mouse brain. J Anat 204:93–102PubMedCrossRef
Mazziotta J, Toga A, Evans A, Fox P, Lancaster J, Zilles K, Woods R, Paus T, Simpson G, Pike B, Holmes C, Collins L, Thompson P, MacDonald D, Iacoboni M, Schormann T, Amunts K, Palomero-Gallagher N, Geyer S, Parsons L, Narr K, Kabani N, Le Goualher G, Boomsma D, Cannon T, Kawashima R, Mazoyer B (2001) A probabilistic atlas and reference system for the human brain: international consortium for brain mapping (ICBM). Philos Trans R Soc Lond B Biol Sci 356:1293–1322PubMedCrossRef
Ourselin S, Roche A, Subsol G, Pennec X, Ayache N (2001) Reconstructing a 3D structure from serial histological sections. Image Vis Comput 19:25–31CrossRef
Parras CM, Galli R, Britz O, Soares S, Galichet C, Battiste J, Johnson JE, Nakafuku M, Vescovi A, Guillemot F (2004) Mash1 specifies neurons and oligodendrocytes in the postnatal brain. EMBO J 23:4495–4505PubMedCrossRef
Paxinos G, Franklin KJB (2001) The mouse brain in stereotaxic co-ordinates. Academic Press, San Diego, CA
Rehm K, Rottenberg SD, Schaper K, Sternt J, Hurdal M, Sumner DW (2000) Use of cerebellar landmarks to define a co-ordinate system and an isolation strategy. NeuroImage 11:S536CrossRef
Schambra UB, Lauder JM, Silver J (1992) Atlas of the prenatal mouse brain. Academic Press, San Diego, CA
Shattuck DW, MacKenzie-Graham A, Toga AW (2004) DUFF: software tools for visualization and processing of neuroimaging data. Biomedical imaging: macro to nano. IEEE Int Symp 644A–647A
Swanson LW (1998) Brain maps: structure of the rat brain: a laboratory guide with printed and electronic templates for data, models, and schematics. Elsevier, Amsterdam
Talairach J, Tournoux P (1988) Co-planar stereotaxic atlas of the human brain. Thieme Medical, NY
Thompson PM, Toga AW (1998) Anatomically-driven strategies for high-dimensional brain image warping and pathology detection. In: Toga AW (ed) Brain warping. Academic Press, San Diego, CA, pp 311–336
Thompson PM, Mega MS, Toga AW (2002) Subpopulation brain atlases. In: Toga AW, Mazziotta JC (eds) Brain mapping: the methods. Academic Press, San Diego CA, pp 757–796
Toga AW, Santori EM, Hazani R, Ambach K (1995) A 3D digital map of rat brain. Brain Res Bull 38:77–85PubMedCrossRef
Toga AW, Goldkorn A, Ambach K, Chao K, Quinn C, Yao P (1997) Postmortem cryosectioning as an anatomical reference for human brain mapping. Comput Med Imaging Graph 21:131–141PubMedCrossRef
Watanabe H, Andersen F, Simonsen CZ, Evans SM, Gjedde A, Cumming P, DaNeX Study Group (2001) MR-based statistical atlas of the Gottingen minipig brain. Neuroimage 14:1089–1096PubMedCrossRef
Woods RP, Mazziotta JC, Cherry SR (1993) MRI-PET registration with automated algorithm. J Comput Assist Tomogr 17:536–546PubMedCrossRef
Metadaten
Titel
Standard atlas space for C57BL/6J neonatal mouse brain
verfasst von
Erh-Fang Lee
Russell E. Jacobs
Ivo Dinov
Alex Leow
Arthur W. Toga
Publikationsdatum
01.11.2005
Verlag
Springer-Verlag
Erschienen in
Brain Structure and Function / Ausgabe 4/2005
Print ISSN: 1863-2653
Elektronische ISSN: 1863-2661
DOI
https://doi.org/10.1007/s00429-005-0048-y

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