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Items: 1 to 20 of 101

1.

In vivo widefield calcium imaging of the mouse cortex for analysis of network connectivity in health and brain disease.

Cramer JV, Gesierich B, Roth S, Dichgans M, Düring M, Liesz A.

Neuroimage. 2019 Jun 7. pii: S1053-8119(19)30499-9. doi: 10.1016/j.neuroimage.2019.06.014. [Epub ahead of print]

2.

Multisensory stimulation improves functional recovery and resting-state functional connectivity in the mouse brain after stroke.

Hakon J, Quattromani MJ, Sjölund C, Tomasevic G, Carey L, Lee JM, Ruscher K, Wieloch T, Bauer AQ.

Neuroimage Clin. 2017 Dec 2;17:717-730. doi: 10.1016/j.nicl.2017.11.022. eCollection 2018.

3.

Recovery of sensorimotor function after experimental stroke correlates with restoration of resting-state interhemispheric functional connectivity.

van Meer MP, van der Marel K, Wang K, Otte WM, El Bouazati S, Roeling TA, Viergever MA, Berkelbach van der Sprenkel JW, Dijkhuizen RM.

J Neurosci. 2010 Mar 17;30(11):3964-72. doi: 10.1523/JNEUROSCI.5709-09.2010.

4.

Resting interhemispheric functional magnetic resonance imaging connectivity predicts performance after stroke.

Carter AR, Astafiev SV, Lang CE, Connor LT, Rengachary J, Strube MJ, Pope DL, Shulman GL, Corbetta M.

Ann Neurol. 2010 Mar;67(3):365-75. doi: 10.1002/ana.21905.

5.

Changes in resting-state functional connectivity after stroke in a mouse brain lacking extracellular matrix components.

Quattromani MJ, Hakon J, Rauch U, Bauer AQ, Wieloch T.

Neurobiol Dis. 2018 Apr;112:91-105. doi: 10.1016/j.nbd.2018.01.011. Epub 2018 Jan 31.

6.

Integrated technology for evaluation of brain function and neural plasticity.

Rossini PM, Dal Forno G.

Phys Med Rehabil Clin N Am. 2004 Feb;15(1):263-306. Review.

PMID:
15029909
7.

Optical imaging of disrupted functional connectivity following ischemic stroke in mice.

Bauer AQ, Kraft AW, Wright PW, Snyder AZ, Lee JM, Culver JP.

Neuroimage. 2014 Oct 1;99:388-401. doi: 10.1016/j.neuroimage.2014.05.051. Epub 2014 May 24.

8.

Neural coupling between contralesional motor and frontoparietal networks correlates with motor ability in individuals with chronic stroke.

Lam TK, Dawson DR, Honjo K, Ross B, Binns MA, Stuss DT, Black SE, Chen JJ, Levine BT, Fujioka T, Chen JL.

J Neurol Sci. 2018 Jan 15;384:21-29. doi: 10.1016/j.jns.2017.11.007. Epub 2017 Nov 7.

PMID:
29249372
9.

Alteration and Role of Interhemispheric and Intrahemispheric Connectivity in Motor Network After Stroke.

Lee J, Park E, Lee A, Chang WH, Kim DS, Kim YH.

Brain Topogr. 2018 Jul;31(4):708-719. doi: 10.1007/s10548-018-0644-9. Epub 2018 Apr 18.

PMID:
29671156
10.
11.

Cerebral network disorders after stroke: evidence from imaging-based connectivity analyses of active and resting brain states in humans.

Rehme AK, Grefkes C.

J Physiol. 2013 Jan 1;591(1):17-31. doi: 10.1113/jphysiol.2012.243469. Epub 2012 Oct 22. Review.

12.

Task- and stimulus-related cortical networks in language production: Exploring similarity of MEG- and fMRI-derived functional connectivity.

Liljeström M, Stevenson C, Kujala J, Salmelin R.

Neuroimage. 2015 Oct 15;120:75-87. doi: 10.1016/j.neuroimage.2015.07.017. Epub 2015 Jul 11.

13.

Functional network connectivity is altered in patients with upper limb somatosensory impairments in the acute phase post stroke: A cross-sectional study.

De Bruyn N, Meyer S, Kessner SS, Essers B, Cheng B, Thomalla G, Peeters A, Sunaert S, Duprez T, Thijs V, Feys H, Alaerts K, Verheyden G.

PLoS One. 2018 Oct 12;13(10):e0205693. doi: 10.1371/journal.pone.0205693. eCollection 2018.

14.

Functional connectivity networks for preoperative brain mapping in neurosurgery.

Hart MG, Price SJ, Suckling J.

J Neurosurg. 2017 Jun;126(6):1941-1950. doi: 10.3171/2016.6.JNS1662. Epub 2016 Aug 26.

PMID:
27564466
15.

Disconnection and hyper-connectivity underlie reorganization after TBI: A rodent functional connectomic analysis.

Harris NG, Verley DR, Gutman BA, Thompson PM, Yeh HJ, Brown JA.

Exp Neurol. 2016 Mar;277:124-138. doi: 10.1016/j.expneurol.2015.12.020. Epub 2015 Dec 28.

16.

Structurofunctional resting-state networks correlate with motor function in chronic stroke.

Kalinosky BT, Berrios Barillas R, Schmit BD.

Neuroimage Clin. 2017 Jul 29;16:610-623. doi: 10.1016/j.nicl.2017.07.002. eCollection 2017.

17.

Mapping the mouse brain with rs-fMRI: An optimized pipeline for functional network identification.

Zerbi V, Grandjean J, Rudin M, Wenderoth N.

Neuroimage. 2015 Dec;123:11-21. doi: 10.1016/j.neuroimage.2015.07.090. Epub 2015 Aug 18.

PMID:
26296501
18.

Resting State fMRI in Mice Reveals Anesthesia Specific Signatures of Brain Functional Networks and Their Interactions.

Bukhari Q, Schroeter A, Cole DM, Rudin M.

Front Neural Circuits. 2017 Feb 3;11:5. doi: 10.3389/fncir.2017.00005. eCollection 2017.

19.

Motor deficits correlate with resting state motor network connectivity in patients with brain tumours.

Otten ML, Mikell CB, Youngerman BE, Liston C, Sisti MB, Bruce JN, Small SA, McKhann GM 2nd.

Brain. 2012 Apr;135(Pt 4):1017-26. doi: 10.1093/brain/aws041. Epub 2012 Mar 8.

20.

Large-scale changes in network interactions as a physiological signature of spatial neglect.

Baldassarre A, Ramsey L, Hacker CL, Callejas A, Astafiev SV, Metcalf NV, Zinn K, Rengachary J, Snyder AZ, Carter AR, Shulman GL, Corbetta M.

Brain. 2014 Dec;137(Pt 12):3267-83. doi: 10.1093/brain/awu297. Epub 2014 Nov 2.

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