Susceptibility-Weighted MRI for Deep Brain Stimulation: Potentials in Trajectory Planning

Hutter, Frank; Husch, Andreas; Dooms, Grégoire; Bernard, Florian; Gemmar, Peter

doi:10.1159/000433445

Cited by 7 publications

(7 citation statements)

References 17 publications

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“…The lead's location accuracy in STN was verified by microelectrode registration (MER) with multiple microelectrodes to enable measuring the electrical activity on a single-neuron level [3,20]. As imaging technology developed, it became possible to measure MCP from CT or MRI scans [16] and later further development of MRI imaging [4,9,15] enabled the possibility of defining patientspecific anatomy of the STN [19] and target direct DBS electrodes. Alongside the development of imaging has enabled precise postoperative analysis of the lead location [5,7,11], thus facilitating the optimal programming.…”

Section: Introductionmentioning

confidence: 99%

A comparison of indirect and direct targeted STN DBS in the treatment of Parkinson’s disease—surgical method and clinical outcome over 15-year timespan

et al. 2020

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Background Deep brain stimulation (DBS) in the subthalamic nucleus (STN) is used in advanced Parkinson's disease (PD) for reducing motor fluctuations and the side effects of antiparkinsonian medication (APM). The development of neuroimaging has enabled the direct targeting of the STN. The aim of this study is to evaluate the outcome in patients with PD using STN DBS when changing from atlas-based indirect targeting method (iTM) to direct MRI-based targeting (dTM) assuming dTM is superior. Methods Twenty-five consecutive PD patients underwent dTM STN DBS surgery from 2014 to 2017 with follow-up for 1 year. The neuroimaging, surgical method, outcome in Unified Parkinson's Disease Rating Scale (UPDRS) scores, and reduction of APM are described and compared with the results of an earlier iTM STN DBS study. Results Twelve months after a dTM STN DBS, significant improvement (p < 0.001) was seen in six out of seven parameters of UPDRS when patients had medication (medON) and stimulation (stimON). The activities of daily living (UPDRSII) and motor scores (UPDRSIII) improved by 41% and 62%, respectively. Dyskinesias and fluctuations were both reduced by 81%. In dTM STN DBS group, the levodopa equivalent dose (LED) and the total daily levodopa equivalent dose (LEDD) were significantly decreased by 62% and 55%, respectively, compared with the baseline (p < 0.001). Five patients (20%) were without levodopa medication 12 months after the operation. Conclusions The development of surgical technique based on advanced neuroimaging has improved the outcome of PD STN DBS.

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Section: Introductionmentioning

confidence: 99%

A comparison of indirect and direct targeted STN DBS in the treatment of Parkinson’s disease—surgical method and clinical outcome over 15-year timespan

et al. 2020

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“…3B, Supplementary Video). Furthermore, the oblique planes are useful aids for teaching deep brain surgery or ophthalmology because a surgeon needs to interpret the oblique planes vertical to the electrode of deep brain surgery3 (Fig. 4A) or neuro-ocular plane45 (Fig.…”

Section: Resultsmentioning

confidence: 99%

“…Three-dimensional (3D) volume models consist of pixel information of two-dimensional (2D) medical images with spacing information between the 2D images. Based on the pixel and spacing information, volume models enable the observation of structures in a body not only on classical horizontal, coronal, and sagittal planes for the diagnosis of common diseases,1 but also on various oblique planes for specific clinical fields, such as a probe's eye and trajectory view on the magnetic resonance images (MRIs) in deep brain stimulation surgery,23 neuro-ocular plane on computed tomographs (CTs) of ophthalmology,45 and ultrasonographic view for heart and liver diagnoses 67. Furthermore, volume models of MRIs can be used for volumetric analysis of a structure for the diagnosis of various diseases89 and for human simulation purposes, such as phantoms for electromagnetic dosimetry 1011…”

Section: Introductionmentioning

confidence: 99%

Real-Color Volume Models Made from Real-Color Sectioned Images of Visible Korean

Chung

Park

2019

J Korean Med Sci

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BackgroundVolume models made from magnetic resonance images on computed tomographs can produce horizontal, coronal, sagittal, and oblique planes that are used widely in clinics, although detailed structures cannot be identified. Existing real color volume models are mostly commercial and their production methods have not been released. The aim of this study was to distribute free of charge, real-color volume models produced from sectioned images with the production method.MethodsThe original voxel size of sectioned images was increased appropriately so that the volume model could be handled by typical personal computers. By using Dicom Browser and MRIcroGL, the sectioned images were processed to become the volume models.ResultsOn the MRIcroGL, the resultant volume model with the voxel size of 0.5 × 0.5 × 0.5 mm3 could be displayed and freely rotated. By adjusting variables of the software, desired oblique planes could be produced instantly. With overlay function, a model of segmented structure can be overlapped to the entire volume models. The sectioned images with high quality and the segmentation data of Visible Korean enabled the identification of detailed anatomical structures on the planes.ConclusionThe volume models can be used by medical students and doctors for learning sectional anatomy. Other researchers can utilize the method of this study to produce volume models from their own sectioned images.

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“…SWI can visualize cerebral vascular structures and has been shown to improve target identification. [66] Additionally, QSM imaging has been demonstrated to depict greater contrast to noise ratio in targeting the subthalamic nucleus (STN). [67]…”

Section: Clinical Applicationsmentioning

confidence: 99%

Susceptibility-Based Neuroimaging: Standard Methods, Clinical Applications, and Future Directions

et al. 2017

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The evaluation of neuropathologies using MRI methods that leverage tissue susceptibility have become standard practice, especially to detect blood products or mineralization. Additionally, emerging MRI techniques have the ability to provide new information based on tissue susceptibility properties in a robust and quantitative manner. This paper discusses these advanced susceptibility imaging techniques and their clinical applications.

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Susceptibility-Weighted MRI for Deep Brain Stimulation: Potentials in Trajectory Planning

Cited by 7 publications

References 17 publications

A comparison of indirect and direct targeted STN DBS in the treatment of Parkinson’s disease—surgical method and clinical outcome over 15-year timespan

A comparison of indirect and direct targeted STN DBS in the treatment of Parkinson’s disease—surgical method and clinical outcome over 15-year timespan

Real-Color Volume Models Made from Real-Color Sectioned Images of Visible Korean

Susceptibility-Based Neuroimaging: Standard Methods, Clinical Applications, and Future Directions

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