1.
Delgado JA,
Rascovsky S,
Sanz A,
Castrillón JG.
Introducción práctica a la resonancia magnética funcional cerebral (RMF).
Rev Colomb Radiol.
2008 Mar;19(1):2300–9.
2.
Tamraz J,
Comair Y.
Atlas of Regional Anatomy of the Brain Using MRI: With Functional Correlations.
Springer Science & Business Media; 2006.
Chapters 4,
5 and 9.
3.
Ford A,
McGregor KM,
Case K,
Crosson B,
White KD.
Structural connectivity of Broca's area and medial frontal cortex.
NeuroImage.
2010 Oct 1;52(4):1230–7.
4.
Catani M,
Jones DK,
ffytche DH.
Perisylvian language networks of the human brain.
Ann Neurol.
2005 Jan;57(1):8–16.
5.
Gore JC.
Principles and practice of functional MRI of the human brain.
J Clin Invest.
2003 Jul 1;112(1):4–9.
6.
Sunaert S.
Presurgical planning for tumor resectioning.
J Magn Reson Imaging JMRI.
2006 Jun;23(6):887–905.
7.
Lima FPS,
Lima MO,
León D,
Falcon C,
Cogo JC,
Lucareli PRG,
et al.
Changes in the functional magnetic resonance imaging of the sensorimotor cortex in traumatic brain injury after intensive rehabilitation.
Rev Neurol.
2010 Oct 1;51(7):403–11.
8.
Partovi S,
Jacobi B,
Rapps N,
Zipp L,
Karimi S,
Rengier F,
et al.
Clinical standardized fMRI reveals altered language lateralization in patients with brain tumor.
AJNR Am J Neuroradiol.
2012 Dec;33(11):2151–7.
9.
Håberg A,
Kvistad KA,
Unsgård G,
Haraldseth O.
Preoperative blood oxygen level-dependent functional magnetic resonance imaging in patients with primary brain tumors: clinical application and outcome.
Neurosurgery.
2004 Apr;54(4):902– 14; discussion 914–5.
10.
Schiffbauer H,
Ferrari P,
Rowley HA,
Berger MS,
Roberts TP.
Functional activity within brain tumors: a magnetic source imaging study.
Neurosurgery.
2001 Dec;49(6):1313–20; discussion 1320–1.
11.
Junck L,
Hervey-Jumper SL,
Sagher O.
Resection of gliomas around language areas: can fMRI contribute? Neurology.
2015 Feb 10;84(6):550–1.
12.
Liu TT.
Neurovascular factors in resting-state functional MRI.
NeuroImage.
2013 Oct 15;80:339–48.
13.
Moritz CH,
Rowley HA,
Haughton VM,
Swartz KR,
Jones J,
Badie B.
Functional MR imaging assessment of a non-responsive brain injured patient.
Magn Reson Imaging.
2001 Oct;19(8):1129–32.
14.
Smits M,
Visch-Brink E,
Schraa-Tam CK,
Koudstaal PJ,
van der Lugt A.
Functional MR imaging of language processing: an overview of easy-to-implement paradigms for patient care and clinical research.
Radiogr Rev Publ Radiol Soc N Am Inc.
2006 Oct;26 Suppl 1:S145–58.
15.
Yetkin FZ,
Swanson S,
Fischer M,
Akansel G,
Morris G,
Mueller W,
et al.
Functional MR of frontal lobe activation: comparison with Wada language results.
AJNR Am J Neuroradiol.
1998 Jul;19(6):1095–8.
16.
Petrovich Brennan NM,
Whalen S,
de Morales Branco D,
O’Shea JP,
Norton IH,
Golby AJ.
Object naming is a more sensitive measure of speech localization than number counting: Converging evidence from direct cortical stimulation and fMRI.
NeuroImage.
2007;37,
Supplement 1:S100–8.
17.
Gaillard WD,
Balsamo LM,
Ibrahim Z,
Sachs BC,
Xu B.
fMRI identifies regional specialization of neural networks for reading in young children.
Neurology.
2003 Jan 14;60(1):94–100.
18.
Phillips MD,
Lowe MJ,
Lurito JT,
Dzemidzic M,
Mathews VP.
Temporal lobe activation demonstrates sex-based differences during passive listening.
Radiology.
2001 Jul;220(1):202–7.
19.
Faro SH,
Mohamed FB,
Tracy JI,
Elfont RM,
Pinus AB,
Lublin FD,
et al.
Quantitative functional MR imaging of the visual cortex at 1.5 T as a function of luminance contrast in healthy volunteers and patients with multiple sclerosis.
AJNR Am J Neuroradiol.
2002 Jan;23(1):59–65.
20.
Qing G,
Zhang S,
Wang B,
Wang N.
Functional MRI signal changes in primary visual cortex corresponding to the central normal visual field of patients with primary open-angle glaucoma.
Invest Ophthalmol Vis Sci.
2010 Sep;51(9):4627–34.
21.
DeYoe EA,
Carman GJ,
Bandettini P,
Glickman S,
Wieser J,
Cox R,
et al.
Mapping striate and extrastriate visual areas in human cerebral cortex.
Proc Natl Acad Sci U S A.
1996 Mar 19;93(6):2382–6.
22.
Chen CM,
Hou BL,
Holodny AI.
Effect of age and tumor grade on BOLD functional MR imaging in preoperative assessment of patients with glioma.
Radiology.
2008 Sep;248(3):971–8.
23.
Füchtemeier M,
Leithner C,
Offenhauser N,
Foddis M,
Kohl-Bareis M,
Dirnagl U,
et al.
Elevating intracranial pressure reverses the decrease in deoxygenated hemoglobin and abolishes the post-stimulus overshoot upon somatosensory activation in rats.
NeuroImage.
2010 Aug 15;52(2):445–54.
24.
Beltramini GC,
Cendes F,
Yasuda CL.
The effects of antiepileptic drugs on cognitive functional magnetic resonance imaging.
Quant Imaging Med Surg.
2015 Apr;5(2):238–46.
25.
Kuchcinski G,
Mellerio C,
Pallud J,
Dezamis E,
Turc G,
Rigaux-Viodé O,
et al.
Three-tesla functional MR language mapping: comparison with direct cortical stimulation in gliomas.
Neurology.
2015 Feb 10;84(6):560–8.
26.
Lüdemann L,
Förschler A,
Grieger W,
Zimmer C.
BOLD signal in the motor cortex shows a correlation with the blood volume of brain tumors.
J Magn Reson Imaging JMRI.
2006 Apr;23(4):435–43.
27.
Wakana S,
Jiang H,
Nagae-Poetscher LM,
van Zijl PCM,
Mori S.
Fiber Tract– based Atlas of Human White Matter Anatomy.
Radiology.
2004 Jan 1;230(1):77–87.
28.
Duque A,
Roa E,
Castedo J.
White matter anatomy using tensor diffusion tractography.
Radiología.
2008 Apr;50(2):99–111.
29.
Smits M,
Vernooij MW,
Wielopolski PA,
Vincent AJPE,
Houston GC,
van der Lugt A.
Incorporating functional MR imaging into diffusion tensor tractography in the preoperative assessment of the corticospinal tract in patients with brain tumors.
AJNR Am J Neuroradiol.
2007 Aug;28(7):1354–61.