PERFORM Publications

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Title		Authors	PubMed ID
1	Towards user-centered interactive medical image segmentation in VR with an assistive AI agent	Spiegler P; Harirpoush A; Xiao Y;	41509996 ENCS
2	Surgical hyperspectral imaging: a systematic review	Ali HM; Xiao Y; Kersten-Oertel M;	40824764 ENCS
3	MedCLIP-SAMv2: Towards universal text-driven medical image segmentation	Koleilat T; Asgariandehkordi H; Rivaz H; Xiao Y;	40779830 ENCS
4	Joint enhancement of automatic chest x-ray diagnosis and radiological gaze prediction with multistage cooperative learning	Qiu Z; Rivaz H; Xiao Y;	40665596 ENCS
5	CASCADE-FSL: Few-shot learning for collateral evaluation in ischemic stroke	Aktar M; Tampieri D; Xiao Y; Rivaz H; Kersten-Oertel M;	40250214 ENCS
6	A database of magnetic resonance imaging-transcranial ultrasound co-registration	Alizadeh M; Collins DL; Kersten-Oertel M; Xiao Y;	39920905 SOH
7	PreVISE: an efficient virtual reality system for SEEG surgical planning	Spiegler P; Abdelsalam H; Hellum O; Hadjinicolaou A; Weil AG; Xiao Y;	39735694 ENCS
8	Virtual reality-based preoperative planning for optimized trocar placement in thoracic surgery: A preliminary study	Harirpoush A; Rakovich G; Kersten-Oertel M; Xiao Y;	39720764 ENCS
9	Design, manufacturing, and multi-modal imaging of stereolithography 3D printed flexible intracranial aneurysm phantoms	Yalman A; Jafari A; Léger É; Mastroianni MA; Teimouri K; Savoji H; Collins DL; Kadem L; Xiao Y;	39546636 BIOLOGY
10	Expanding a Behavioral View on Digital Health Access: Drivers and Strategies to Promote Equity	Kepper MM; Fowler LA; Kusters IS; Davis JW; Baqer M; Sagui-Henson S; Xiao Y; Tarfa A; Yi JC; Gibson B; Heron KE; Alberts NM; Burgermaster M; Njie-Carr VP; Klesges LM;	39088246 PSYCHOLOGY
11	Open access segmentations of intraoperative brain tumor ultrasound images	Behboodi B; Carton FX; Chabanas M; de Ribaupierre S; Solheim O; Munkvold BKR; Rivaz H; Xiao Y; Reinertsen I;	39047165 SOH
12	Virtual and Augmented Reality in Ventriculostomy: A Systematic Review	Alizadeh M; Xiao Y; Kersten-Oertel M;	38823448 ENCS
13	SCANED: Siamese collateral assessment network for evaluation of collaterals from ischemic damage	Aktar M; Xiao Y; Tehrani AKZ; Tampieri D; Rivaz H; Kersten-Oertel M;	38364600 ENCS
14	PILLAR: ParaspInaL muscLe segmentAtion pRoject - a comprehensive online resource to guide manual segmentation of paraspinal muscles from magnetic resonance imaging	Anstruther M; Rossini B; Zhang T; Liang T; Xiao Y; Fortin M;	37996857 SOH
15	A population-averaged structural connectomic brain atlas dataset from 422 HCP-aging subjects	Xiao Y; Gilmore G; Kai J; Lau JC; Peters T; Khan AR;	37663773 ENCS
16	A dataset of multi-contrast unbiased average MRI templates of a Parkinson's disease population	Madge V; Fonov VS; Xiao Y; Zou L; Jackson C; Postuma RB; Dagher A; Fon EA; Collins DL;	37213552 IMAGING
17	Deep learning for collateral evaluation in ischemic stroke with imbalanced data	Aktar M; Reyes J; Tampieri D; Rivaz H; Xiao Y; Kersten-Oertel M;	36635594 ENCS
18	Robust landmark-based brain shift correction with a Siamese neural network in ultrasound-guided brain tumor resection	Pirhadi A; Salari S; Ahmad MO; Rivaz H; Xiao Y;	36306056 PERFORM
19	DiffeoRaptor: diffeomorphic inter-modal image registration using RaPTOR	Masoumi N; Rivaz H; Ahmad MO; Xiao Y;	36173541 ENCS
20	Statistical morphological analysis reveals characteristic paraspinal muscle asymmetry in unilateral lumbar disc herniation	Xiao Y; Fortin M; Ahn J; Rivaz H; Peters TM; Battié MC;	34341427 PERFORM
21	Characterizing white matter alterations subject to clinical laterality in drug-naïve de novo Parkinson's disease	Xiao Y; Peters TM; Khan AR;	34106502 PERFORM
22	Multimodal 3D ultrasound and CT in image-guided spinal surgery: public database and new registration algorithms	Masoumi N; Belasso CJ; Ahmad MO; Benali H; Xiao Y; Rivaz H;	33683544 PERFORM
23	Automatic collateral circulation scoring in ischemic stroke using 4D CT angiography with low-rank and sparse matrix decomposition.	Aktar M, Tampieri D, Rivaz H, Kersten-Oertel M, Xiao Y	32662055 ENCS
24	REtroSpective Evaluation of Cerebral Tumors (RESECT): A clinical database of pre-operative MRI and intra-operative ultrasound in low-grade glioma surgeries.	Xiao Y, Fortin M, Unsgård G, Rivaz H, Reinertsen I	28391601 PERFORM
25	A dataset of multi-contrast population-averaged brain MRI atlases of a Parkinson׳s disease cohort.	Xiao Y, Fonov V, Chakravarty MM, Beriault S, Al Subaie F, Sadikot A, Pike GB, Bertrand G, Collins DL	28491942 PERFORM
26	Multimodal 18F-Fluciclovine PET/MRI and Ultrasound-Guided Neurosurgery of an Anaplastic Oligodendroglioma.	Karlberg A, Berntsen EM, Johansen H, Myrthue M, Skjulsvik AJ, Reinertsen I, Esmaeili M, Dai HY, Xiao Y, Rivaz H, Borghammer P, Solheim O, Eikenes L	28844925 PERFORM
27	Nonlinear deformation of tractography in ultrasound-guided low-grade gliomas resection.	Xiao Y, Eikenes L, Reinertsen I, Rivaz H	29299739 PERFORM
28	Intra-operative Video Characterization of Carotid Artery Pulsation Patterns in Case Series with Post-endarterectomy Hypertension and Hyperperfusion Syndrome.	Xiao Y, Rivaz H, Kasuya H, Yokosako S, Mindru C, Teitelbaum J, Sirhan D, Sinclair D, Angle M, Lo BWY	29322480 PERFORM
29	Correction to: Nonlinear deformation of tractography in ultrasound-guided low-grade gliomas resection.	Xiao Y, Eikenes L, Reinertsen I, Rivaz H	29392538 PERFORM
30	High-Dynamic-Range Ultrasound: Application for Imaging Tendon Pathology.	Xiao Y, Boily M, Hashemi HS, Rivaz H	29628224 PERFORM
31	Population-averaged MRI atlases for automated image processing and assessments of lumbar paraspinal muscles.	Xiao Y, Fortin M, Battié MC, Rivaz H	30051147 PERFORM
32	ARENA: Inter-modality affine registration using evolutionary strategy.	Masoumi N, Xiao Y, Rivaz H	30535826 PERFORM

Title:	Nonlinear deformation of tractography in ultrasound-guided low-grade gliomas resection.
Authors:	Xiao Y, Eikenes L, Reinertsen I, Rivaz H
Link:	https://www.ncbi.nlm.nih.gov/pubmed/29299739?dopt=Abstract
DOI:	10.1007/s11548-017-1699-x
Publication:	International journal of computer assisted radiology and surgery
Keywords:	Brain shift; Brain tumor; Intra-operative ultrasound; MRI; Neurosurgery; Registration; Tractography;
PMID:	29299739	Category:	Int J Comput Assist Radiol Surg	Date Added:	2019-04-15
Dept Affiliation:	PERFORM 1 PERFORM Centre, Concordia University, Rm 2.211, 7200 Sherbrooke St. W., Montreal, QC, H4B 1R6, Canada. yiming.xiao@concordia.ca. 2 Department of Electrical and Computer Engineering, Concordia University, Montreal, Canada. yiming.xiao@concordia.ca. 3 Department of Circulation and Medical Imaging, Norwegian University of Science and Technology, Trondheim, Norway. 4 Department of Medical Technology, SINTEF, Trondheim, Norway. 5 Norwegian National Advisory Unit for Ultrasound and Image-Guided Therapy, St. Olavs University Hospital, Trondheim, Norway. 6 PERFORM Centre, Concordia University, Rm 2.211, 7200 Sherbrooke St. W., Montreal, QC, H4B 1R6, Canada. 7 Department of Electrical and Computer Engineering, Concordia University, Montreal, Canada.

Description:

Nonlinear deformation of tractography in ultrasound-guided low-grade gliomas resection.

Int J Comput Assist Radiol Surg. 2018 Mar;13(3):457-467

Authors: Xiao Y, Eikenes L, Reinertsen I, Rivaz H

Abstract

PURPOSE: In brain tumor surgeries, maximum removal of cancerous tissue without compromising normal brain functions can improve the patient's survival rate and therapeutic benefits. To achieve this, diffusion MRI and intra-operative ultrasound (iUS) can be highly instrumental. While diffusion MRI allows the visualization of white matter tracts and helps define the resection plan to best preserve the eloquent areas, iUS can effectively track the brain shift after craniotomy that often renders the pre-surgical plan invalid, ensuring the accuracy and safety of the intervention. Unfortunately, brain shift correction using iUS and automatic registration has never been shown for brain tractography so far despite its rising significance in brain tumor resection.

METHODS: We employed a correlation-ratio-based nonlinear registration algorithm to account for brain shift through MRI-iUS registration and used the recovered deformations to warp both the brain anatomy and tractography seen in pre-surgical plans. The overall technique was demonstrated retrospectively on four patients who underwent iUS-guided low-grade brain gliomas resection.

RESULTS: Through qualitative and quantitative evaluations, the preoperative MRI and iUS scans were well realigned after nonlinear registration, and the deformed brain tumor volumes and white matter tracts showed large displacements away from the pre-surgical plans.

CONCLUSIONS: We are the first to demonstrate the technique to track nonlinear deformation of brain tractography using real clinical MRI and iUS data, and the results confirm the need for updating white matter tracts due to tissue shift during surgery.

PMID: 29299739 [PubMed - indexed for MEDLINE]

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