software brainlab elements version 3.1.0 Search Results


element version 3.1.0  (Brainlab AG)
90
Brainlab AG element version 3.1.0
Workflow of the study. This figure presents the workflow of the current study. It consists of a cortical and subcortical part. In the yellow box, group 1 (patients with tumors inside the left corticospinal tract [CST] or precentral gyrus, G1) and group 2 (patients with tumors outside the left CST or precentral gyrus, G2) are defined by whether tumors are within or outside primary motor regions. In the green box, their T1 images with contrast (T1 + C) are applied for Navigated transcranial magnetic stimulation (nTMS) motor mapping, and the diffusion tensor imaging (DTI) files are imported to the <t>Brainlab</t> Element system for subcortical analysis (black box). According to different innervation, motor‐evoked potentials (MEPs) from other muscles are categorized into three groups. MEPs >50 mv are considered positive stimuli (PS). As shown in the gray box, PSs from the left abductor pollicis brevis muscle (APB) and flexor carpi radialis muscle (FCR) are grouped to median nerve‐related PSs (MPS), PSs from abductor digiti minimi muscle (ADM) are categorized as ulnar nerve‐related PSs (UPS), and all PSs are summarized as All PSs (APS). The cortical analysis of the center of gravity and mapping regions is depicted in the blue box. For the subcortical analysis in the black box, the areas of interest, respectively, from the MPS, UPS, and APS, are applied for the seed‐based fiber tracking analysis.
Element Version 3.1.0, supplied by Brainlab AG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/element version 3.1.0/product/Brainlab AG
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element version 3.1.0 - by Bioz Stars, 2026-05
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neuronavigation systems  (GE Healthcare)
92
GE Healthcare neuronavigation systems
Example integration of functional MRI maps into the <t>neuronavigation</t> system for intraoperative guidance (screenshot: patient 39). The tumor is outlined in green, and language maps in orange and pink. Purple represents tractography. A: Axial View. B: Coronal view, both showing the neuronavigation pointer device’s trajectory (hatched green line). Images are displayed in neurological convention.
Neuronavigation Systems, supplied by GE Healthcare, used in various techniques. Bioz Stars score: 92/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/neuronavigation systems/product/GE Healthcare
Average 92 stars, based on 1 article reviews
neuronavigation systems - by Bioz Stars, 2026-05
92/100 stars
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iplan net server  (Brainlab AG)
90
Brainlab AG iplan net server
Example integration of functional MRI maps into the <t>neuronavigation</t> system for intraoperative guidance (screenshot: patient 39). The tumor is outlined in green, and language maps in orange and pink. Purple represents tractography. A: Axial View. B: Coronal view, both showing the neuronavigation pointer device’s trajectory (hatched green line). Images are displayed in neurological convention.
Iplan Net Server, supplied by Brainlab AG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/iplan net server/product/Brainlab AG
Average 90 stars, based on 1 article reviews
iplan net server - by Bioz Stars, 2026-05
90/100 stars
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standard deterministic algorithm implemented in brainlab elements  (Brainlab AG)
90
Brainlab AG standard deterministic algorithm implemented in brainlab elements
Example integration of functional MRI maps into the <t>neuronavigation</t> system for intraoperative guidance (screenshot: patient 39). The tumor is outlined in green, and language maps in orange and pink. Purple represents tractography. A: Axial View. B: Coronal view, both showing the neuronavigation pointer device’s trajectory (hatched green line). Images are displayed in neurological convention.
Standard Deterministic Algorithm Implemented In Brainlab Elements, supplied by Brainlab AG, used in various techniques. Bioz Stars score: 90/100, based on 1 PubMed citations. ZERO BIAS - scores, article reviews, protocol conditions and more
https://www.bioz.com/result/standard deterministic algorithm implemented in brainlab elements/product/Brainlab AG
Average 90 stars, based on 1 article reviews
standard deterministic algorithm implemented in brainlab elements - by Bioz Stars, 2026-05
90/100 stars
  Buy from Supplier

Image Search Results


Workflow of the study. This figure presents the workflow of the current study. It consists of a cortical and subcortical part. In the yellow box, group 1 (patients with tumors inside the left corticospinal tract [CST] or precentral gyrus, G1) and group 2 (patients with tumors outside the left CST or precentral gyrus, G2) are defined by whether tumors are within or outside primary motor regions. In the green box, their T1 images with contrast (T1 + C) are applied for Navigated transcranial magnetic stimulation (nTMS) motor mapping, and the diffusion tensor imaging (DTI) files are imported to the Brainlab Element system for subcortical analysis (black box). According to different innervation, motor‐evoked potentials (MEPs) from other muscles are categorized into three groups. MEPs >50 mv are considered positive stimuli (PS). As shown in the gray box, PSs from the left abductor pollicis brevis muscle (APB) and flexor carpi radialis muscle (FCR) are grouped to median nerve‐related PSs (MPS), PSs from abductor digiti minimi muscle (ADM) are categorized as ulnar nerve‐related PSs (UPS), and all PSs are summarized as All PSs (APS). The cortical analysis of the center of gravity and mapping regions is depicted in the blue box. For the subcortical analysis in the black box, the areas of interest, respectively, from the MPS, UPS, and APS, are applied for the seed‐based fiber tracking analysis.

Journal: Human Brain Mapping

Article Title: Motor mapping of the hand muscles using peripheral innervation‐based navigated transcranial magnetic stimulation to identify functional reorganization of primary motor regions in malignant tumors

doi: 10.1002/hbm.26642

Figure Lengend Snippet: Workflow of the study. This figure presents the workflow of the current study. It consists of a cortical and subcortical part. In the yellow box, group 1 (patients with tumors inside the left corticospinal tract [CST] or precentral gyrus, G1) and group 2 (patients with tumors outside the left CST or precentral gyrus, G2) are defined by whether tumors are within or outside primary motor regions. In the green box, their T1 images with contrast (T1 + C) are applied for Navigated transcranial magnetic stimulation (nTMS) motor mapping, and the diffusion tensor imaging (DTI) files are imported to the Brainlab Element system for subcortical analysis (black box). According to different innervation, motor‐evoked potentials (MEPs) from other muscles are categorized into three groups. MEPs >50 mv are considered positive stimuli (PS). As shown in the gray box, PSs from the left abductor pollicis brevis muscle (APB) and flexor carpi radialis muscle (FCR) are grouped to median nerve‐related PSs (MPS), PSs from abductor digiti minimi muscle (ADM) are categorized as ulnar nerve‐related PSs (UPS), and all PSs are summarized as All PSs (APS). The cortical analysis of the center of gravity and mapping regions is depicted in the blue box. For the subcortical analysis in the black box, the areas of interest, respectively, from the MPS, UPS, and APS, are applied for the seed‐based fiber tracking analysis.

Article Snippet: MPS, UPS, and APS in DICOM format were imported into Brainlab Element (version 3.1.0; Brainlab AG, Munich, Germany) and set as seeds to fuse with T1 + C and DTI files.

Techniques: Diffusion-based Assay, Imaging, Muscles

Example integration of functional MRI maps into the neuronavigation system for intraoperative guidance (screenshot: patient 39). The tumor is outlined in green, and language maps in orange and pink. Purple represents tractography. A: Axial View. B: Coronal view, both showing the neuronavigation pointer device’s trajectory (hatched green line). Images are displayed in neurological convention.

Journal: Journal of neuroimaging : official journal of the American Society of Neuroimaging

Article Title: Intraoperative use of functional MRI for surgical decision-making after limited or infeasible electrocortical stimulation mapping.

doi: 10.1111/jon.12683

Figure Lengend Snippet: Example integration of functional MRI maps into the neuronavigation system for intraoperative guidance (screenshot: patient 39). The tumor is outlined in green, and language maps in orange and pink. Purple represents tractography. A: Axial View. B: Coronal view, both showing the neuronavigation pointer device’s trajectory (hatched green line). Images are displayed in neurological convention.

Article Snippet: Integration into the Neuronavigation System fMRI was integrated into neuronavigation systems (GE Instatrack 3500, GE Healthcare Navigation, Lawrence, MA, USA, or Brainlab, Munich, Germany) by converting clusters of functional activation at chosen threshold(s) to a value above the highest voxel intensity in the co-registered grayscale anatomical image.

Techniques: Functional Assay

Summary of all neurosurgical cases using functional MRI in the neuronavigation system. ECS= electrocortical stimulation. MAC = monitored anesthesia care.

Journal: Journal of neuroimaging : official journal of the American Society of Neuroimaging

Article Title: Intraoperative use of functional MRI for surgical decision-making after limited or infeasible electrocortical stimulation mapping.

doi: 10.1111/jon.12683

Figure Lengend Snippet: Summary of all neurosurgical cases using functional MRI in the neuronavigation system. ECS= electrocortical stimulation. MAC = monitored anesthesia care.

Article Snippet: Integration into the Neuronavigation System fMRI was integrated into neuronavigation systems (GE Instatrack 3500, GE Healthcare Navigation, Lawrence, MA, USA, or Brainlab, Munich, Germany) by converting clusters of functional activation at chosen threshold(s) to a value above the highest voxel intensity in the co-registered grayscale anatomical image.

Techniques: Functional Assay