Wiley Online Library — Novembro 2017

Insular Damage, New Onset Atrial Fibrillation, and Outcome after Acute Intracerebral Hemorrhage

  • L.Prats-Sánchez
  • D.Guisado-Alonso
  • C.Painous
  • F.Fayos
  • E.Pascual-Goñi
  • R. Delgado-Mederos
  • A.Martínez-Domeño
  • P.Camps-Renom
  • J.Martí-Fàbregas

The baseline cranial CT was assessed by two stroke neurologists. Both received training on the anatomy of the insular cortex with two online brain atlas (http://www.thehumanbrain.info/brain/bn_brain_atlas/brain.html and https://www.imaios.com/en). Both investigators were blinded to the clinical data.

Brain Connect — Novembro 2017

Detecting Perfusion Pattern Based on the Background Low-Frequency Fluctuation in Resting-State Functional Magnetic Resonance Imaging Data and Its Influence on Resting-State Networks: An Iterative Postprocessing Approach

  • Qian T
  • Zanchi D
  • Rodriguez C
  • Ackermann M
  • Giannakopoulos P
  • Haller S

The TSM of all participants were then averaged to create a TSM of the elder group. The distributions of time-shift values in different vascular territories were analyzed according to a custom-made atlas (based on previous knowledge of vascular territories and watershed areas WSA as depicted in Radiopaedia.org, courtesy of Dr Frank Gaillard and the IMAIOS online atlas https://www.imaios.com/en/e-Anatomy/Head-and-Neck/Brain-


JCBFM — Maio 2016

Reproducibility and variability of quantitative magnetic resonance imaging markers in cerebral small vessel disease

  • Franc¸ois De Guio
  • Eric Jouvent
  • Geert Jan Biessels
  • Sandra E Black
  • Carol Brayne
  • Christopher Chen
  • Charlotte Cordonnier
  • Frank-Eric De Leeuw
  • Martin Dichgans
  • Fergus Doubal
  • Marco Duering
  • Carole Dufouil
  • Emrah Duzel
  • Franz Fazekas
  • Vladimir Hachinski
  • M Arfan Ikram
  • Jennifer Linn
  • Paul M Matthews
  • Bernard Mazoyer
  • Vincent Mok
  • Bo Norrving
  • John T O’Brien
  • Leonardo Pantoni
  • Stefan Ropele
  • Perminder Sachdev
  • Reinhold Schmidt
  • Sudha Seshadri
  • Eric E Smith
  • Luciano A Sposato
  • Blossom Stephan
  • Richard H Swartz
  • Christophe Tzourio
  • Mark van Buchem
  • Aad van der Lugt
  • Robert van Oostenbrugge
  • Meike W Vernooij
  • Anand Viswanathan
  • David Werring
  • Frank Wollenweber
  • Joanna M Wardlaw
  • Hugues Chabriat

Schematic view of the different sources of variability in a multicenter MRI study (adapted from www.imaios.com)

AJNR — Setembro 2017

Assessment of Iron Deposition in the Brain in Frontotemporal Dementia and Its Correlation with Behavioral Traits

  • R. Sheelakumari
  • C. Kesavadas
  • T. Varghese,
  • R.M. Sreedharan
  • B. Thomas
  • J. Verghese,
  • P.S. Mathuranath

Many of these studies have described significant GM volume loss in the frontal, insular, anterior cingulate, caudate, putaminal, thalamic, and temporal polar regions in bvFTD27-29 and predominant temporal (temporal pole, anterior hippocampus) and extratempora (ventromedial prefrontal cortex insula, anterior cingulate, caudate) region in PPA.28,30,31 Hence, the ROIs were drawn on both hemispheres with the help of e-anatomy of IMAIOS (https://www.imaios.com/en/e-Anatomy/Head-and-Neck/Brain-MRI-3D) and included the following: the GM at the precentral gyrus just anterior to central sulcus, adjacent subcortical WM and CSF in the central sulcus, the superior frontal gyrus medial to superior frontal sulcus, temporal pole, insula, basal ganglia regions (caudate), putamen, globus pallidus, substantia nigra, red nucleus, frontal WM, anterior cingulate defined by the gray matter abutting and posterior to the cingulate sulcus along with adjacent medial frontal lobe, hippocampus including its head and body, and, finally, the dentate nucleus (On-line Figure).

PubMed — Janeiro 2017

A Prospective Study of Cerebral, Frontal Lobe, and Temporal Lobe Volumes and Neuropsychological Performance in Children With Primary Brain Tumors Treated With Cranial Radiation

  • Harold Agbahiwe
  • Arif Rashid
  • Alena Horska
  • E. Mark Mahone
  • Doris Lin
  • Todd McNutt
  • Kenneth Cohen
  • Kristin Redmond
  • Moody Wharam
  • Stephanie Terezakis

High-resolution, T1-weighted images acquired on a 1.5-T magnetic resonance imaging (MRI) scanner using 1.5-mm slices were used. Cerebral, frontal lobe, and temporal lobe volumes were contoured with an online MRI crosssectional atlas of the brain serving as a reference (https://www.imaios.com/en/e-Anatomy), and this was supervised by the pediatric neuroradiologist (D.L.) on the protocol.

Canadian Association of Radiologists — Janeiro 2017

Peer-to-peer guide, transition to radiology residency

  • A VO

IMAIOS Anatomy (www.imaios.com/en/e-Anatomy):
• Annual subscription with free modules to try out before
• Detailed interactive multi-planar anatomy with various options
to display or hide certain systems (includes plain films, CT,
and MRI)
• Helpful when trying to identify abnormal structures
• Quiz mode available

Springer Link — Março 2017

A Modified Genetic Algorithm Based FCM Clustering Algorithm for Magnetic Resonance Image Segmentation

  • Sunanda Das
  • Sourav De

The neurodiagnostic journal — Junho 2017

Review of “Neurocritical Care, Second Edition,”

  • Eelco F. M. Wijdicks
  • Alejandro A. Rabinstein
  • Sara E. Hocker
  • Jennifer E. Fugate

Supplemental information can be gained from credible websites to aide in digesting some of the more complex or unfamiliar information or terms used in the test. Websites like www.med-ed.virginia.edu/courses/rad/headCT/trauma and https://www.imaios.com/en/e-Anatomy/Head-and-Neck/Brain-MRI-3D were helpful for comparisons regarding the diagnostic imaging in many sections. Websites like eMedicine, Merck Manuals, and www.labtestsonline.org were invaluable in describing normal lab values and unfamiliar medical terms.


PMC — Julho 2016

A cardiac contouring atlas for radiotherapy

  • Frances Duane
  • Marianne C. Aznar
  • Freddie Bartlett
  • David J. Cutter
  • Sarah C. Darby
  • Reshma Jagsi
  • Ebbe L. Lorenzen
  • Orla McArdle
  • Paul McGale
  • Saul Myerson
  • Kazem Rahimi
  • Sindu Vivekanandan
  • Samantha Warren
  • Carolyn W. Taylor

Information was sought from (1) anatomy [11] and cardiac imaging [12] textbooks (2) IMAIOS e-anatomy [13] (3) key articles describing cardiac segmentation models or normal cardiac anatomy [14–19] and (4) the echocardiogram and angiogram reports of 500 women included as cases in a population-based study of women who had a major coronary event after breast cancer radiotherapy [1].

Plos One — Janeiro 2016

Robust Machine Learning-Based Correction on Automatic Segmentation of the Cerebellum and Brainstem

  • Jun Yi Wang
  • Michael M. Ngo
  • David Hessl
  • Randi J. Hagerman
  • Susan M. Rivera

The FreeSurfer segmentations of the cerebellum and brainstem was manually corrected for errors and modified according to classic anatomic definitions [12], recently published methods [23,38], and online resources showing segmentations in sagittal view (Laboratory of Neuro Imaging, LONI, University of Southern California, USA, http://resource.loni.usc.edu/resources/downloads/research-protocols/masking-regions/brainstem/) and all three views (IMAIOS SAS, France, https://www.imaios.com/en/e-Anatomy/Head-and-Neck/Brain-MRI-3D).

PubMed — Abril 2017

Ptosis and vertical diplopia after ligation of ethmoidal arteries

  • Kahn A
  • Laccourreye L
  • Fournier HD
  • Brecheteau C

Anatomical drawing of the common tendinous ring, anterior view. 1: optic nerve; 2: ophthalmic artery; 3: superior branch of oculomotor nerve (III); 4: superior rectus muscle; 5: levator palpebrae superioris muscle; 6: superior oblique muscle; 7: anterior ethmoidal foramen. Copyright IMAIOS 2016. Published with permission

ScienceDirect — Dezembro 2017

BOLD fMRI signal in stroke patients and its importance for prognosis in the subacute disease period – Preliminary report

  • Anetta Lasek-Bal
  • Joanna Kidoń
  • Monika Błaszczyszyn
  • Bartłomiej Stasiów
  • Amadeusz Żak

Identification of anatomical location of active areas was based on visual assessment of obtained images, determination of coordinates in MNI space for each maximum and value of T- and Z- statistic and by using the e-Anatomy atlas of human anatomy (IMAIOS).

PubMed — Maio 2017

Review of key concepts in magnetic resonance physics

  • Michael M. Moore
  • Taylor Chung

IMAIOS (2016) MRI step-by-step, interactive course on magnetic resonance imaging. https://www.imaios.com/en/e-Courses/e-MRI. Accessed 5 Dec 2016

PubMed — Maio 2017

Visual hallucinations in patients with acute stroke: a prospective exploratory study

  • E. Morenas-Rodrıguez
  • P. Camps-Renom
  • A. Perez-Cordon
  • A. Horta-Barba
  • M. Simon-Talero
  • E. Cortes-Vicente
  • D. Guisado-Alonso
  • E. Vilaplana
  • C. Garcıa-Sanchez
  • A. Gironell
  • C. Roig
  • R. Delgado-Mederos
  • J. Martı-Fabregas

Lesion location (IMAIOS online atlas) and leukoaraiosis (Wahlund scale) were determined by magnetic resonance imaging or computed tomography scan. Subsets of patients also underwent a neuropsychological evaluation (N = 50) and an electroencephalogram (N = 33) before discharge.

Radioation Oncology — Dezembro 2017

Re-irradiation for recurrent glioma- the NCI experience in tumor control, OAR toxicity and proposal of a novel prognostic scoring system

  • Andra Valentina Krauze
  • Cord Peters
  • Jason Cheng
  • Holly Ning
  • Megan Mackey
  • Lindsay Rowe
  • Theresa Cooley-Zgela
  • Dee Dee Smart
  • Kevin Camphausen

Performing NTCP calculations was possible for 25 of the re-RT patients. During the process of obtaining the volume and dose values from original and subsequent treatment plans, we noted that a significant variation can occur in how the OAR are contoured between different  providers. Using CNS contouring atlases [23, 24] (IMAIOS SAS Anatomy, IMAIOS SAS, www.imaios.com, www.qarc.org/cog/ACNS0331Atlas.pdf ) we recontoured OAR structures to enable a more adequate calculation of mean dose to the organ (Fig. 1).


Design and Configuration of a Medical Imaging Systems Computer Laboratory Syllabus

  • M. Alper Selver

IMAIOS SAS, “IMAIOS SAS Web site,” 2008 [Online]. Available: http://www.imaios.com/en/e-Courses/e-MRI

NCBI — Maio 2016

Curved reformat of the paediatric brain MRI into a ‘flat-earth map’ — standardised method for demonstrating cortical surface atrophy resulting from hypoxic–ischaemic encephalopathy

  • Ewan Simpson
  • Savvas Andronikou
  • Schadie Vedajallam
  • Anith Chacko
  • Ngoc Jade Thai

e-Anatomy (2015) e-Anatomy web site. http://www.imaios.com/en/e-Anatomy/Head-and-Neck/Brain-MRI-3D. Accessed 20 Oct 2015

PubMed — Junho 2016

A New E-Learning Platform for Radiology Education (RadEd)

  • Pau Xiberta
  • Imma Boada

e-Anatomy: radiologic anatomy atlas of the human body, https://www.imaios.com/en/e-Anatomy (accessed June 2015).