最新版 NeuroGuide v3.3.1 更新於 2023/8/3
此軟體僅供教學模擬,非醫療器材
NeuroGuide 為眼球和臨床評估提供常規腦電圖和定量腦電圖分析軟體,提供腦電圖神經反饋、神經影像、生物反饋、聯合時頻分析、視頻監視系統和統計。
NeuroGuide有一個長達82年曆史的標準數據庫,具有腦外傷和學習障礙判斷功能、神經心理功能預測、時域頻域LORETA三維影像、聯合時頻分析、快速傅氏變換、統計分析、分批試驗、神經反饋、自動偽差去除、雙光譜分析、相位重置、交叉頻率相位同步、相干性、光強和相差等功能。同時,還提供彩色腦譜圖、聯通圖,移相寬度、鎖相寬度,三維LORETA Z-得分神經反饋。定量腦電圖和神經反饋實現了無縫結合,其內建有對應於大腦功能定位的症狀自評量表。
此外還有大量精神/心理紊亂三維神經影像療法用模塊。
NeuroGuide可以從34個不同的腦電圖放大器中獲取腦電圖,對放大器進行校準來匹配標準數據庫中的頻率特性。它還包括眼動、睡意檢測和消除軟體,以及一些再測信度措施。
- NeuroGuide™ Conventional and Quantitative EEG at the Same Time
- Imports from 45 different EEG amplifier formats
- EEG Auto Artifact Rejection without Phase Distortion
- Conventional EEG with Amplitude Time and Event Markers
- Conventional EEG with Time Domain LORETA for Epilepsy and Focal Disorders
- Test Re-test Reliability > 0.95
- EEG JTFA & FFT Analyses
- EEG Auto & Cross-Spectral Analyses
- Multiple Re-Montages with Normative Data Base Comparisons
- Discriminate and Multiple Regression Functions
- Bi-Spectral Analyses
- Gabor Adapative Spectrogram
- EEG 3-Dimensional Neuroimaging in Time and Frequency
- Symptom Checklist and Neural Network Protocol Generation
- EEG Surface and LORETA Z Score Neurofeedback
- BrainSurf 3-D Real-time Z scores of Phase Shift and Lock Duration and Graph Metrics
- Brain Function Index
- Concussion Index
- swLORETA using ICBM Database Navigation Tools for Network Functional and Effective Connectivity
- NeuroLink for the Self-Assessment of Symptom Severity Linked to Neurofeedback Protocol Generation
- Automatic QEEG Clinical Report Writer
- NeuroStat with Color Topographic Maps of ANOVA & t-tests
- Research Tools for Statistical Analyses of Digital Signal Processing of the EEG
- Research Tools for Clinical Evaluation of the EEG
- Research Tools for Optimal Performance Detection and Training
Minimum Computer Requirements
Due to the heavy demand on computer resources the minimum recommended PC configuration is dual-core or more than one core and at least 8 Gigabytes of ram. NeuroGuide™ runs with all supported versions of Windows, however, Windows 10 or 11 is recommended if you are using NeuroGuide 3.2.4 or higher.
In addition, the BrainSurfer Add-on requires a high quality video card with at least 2 Gigabytes of memory and is compatible with OpenGL 2.0.
The NeuroNavigator Add-ons require a high quality video card with at least 2 Gigabytes of memory and compatible with OpenGL 3.3 or greater.
If you are planning on Collecting EEG and/or doing Neurofeedback and/or using the NeuroNavigator via NeuroGuide we do not recommend the purchase or the use of a Mac with the M1 Chip or the M2 Chip… since Apple has stated that Windows through Bootcamp will not be supported.
NeuroGuide™ EEG Editing
NeuroGuide’s EEG Dynamic Color Maps
NeuroGuide’s Automatic Clinical Report Writer
NeuroGuide’s Brain Optimization Index
The NeuroNavigator™ and NeuroGuide™
Recording Modules
swLORETA Z Score Neurofeedback
swLORETA Z Score Neurofeedback: Z Score swLORETA biofeedback of Brodmann areas in the brain, “Hubs”, “Modules” and “Default Mode Network” and 3-dimensional locations registered to a reference MRI. Includes ‘Live’ swLORETA Coherence & Phase Differences from 88 Brodmann Areas, plus the Thalamus, Vermis, Red Nucleus and the Cerebellum Regions of Interests.
NeuroNavigator
This powerful new state of the art 3-Dimensional Electrical Neuroimaging tool uses a real-MRI with 12,270 voxels; the Boundary Element Method (to compute the inverse solution to avoid the errors inherent in the use of a spherical head model, allowing for more accurate source localization at depths); and swLORETA (adjusts for source space inhomogeneity and provides accurate estimates of source gradients from the upper to the lower cortical layers). The NeuroNavigator with Raw Current Density values must be purchased before you can have access to the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture Tools in NeuroGuide or before purchasing any of the NeuroNavigator add-on options. (See Description Tab).
BrainSurfer
BrainSurfer a Brain Computer Interface with 3-D NeuroImaging of Functional Brain Networks, sLORETA of Brodmann Areas & sLORETA of Networks in Real-time and Live Z scores of nodes and connections between nodes as measured by sLORETA Coherence and sLORETA Phase Differences.
3-D sLORETA Z Score Neurofeedback
sLORETA Z Score Neurofeedback: Z Score sLORETA biofeedback of Brodmann areas in the brain, “Hubs”, “Modules” and “Default Mode Network” and 3-dimensional locations registered to a reference MRI. Includes ‘Live’ sLORETA Coherence & Phase Differences from 88 Brodmann areas.
Surface 1 to 19 Channel Z Score Cross-Frequency Neurofeedback
Surface 1 to 19 Channel Z Score Cross-Frequency Neurofeedback includes Linked Ears real-time Z scores. ‘Live’ or Real-time, coherence & phase amplitude Z scores. Includes a Symptom Check List and Surface EEG Z Scores to help structure a biofeedback protocol design. LORETA Z scores measured during a QEEG analysis are also used to further aid in the development of a neurofeedback protocol.
Surface 1 to 19 Channel Z Score Neurofeedback
Surface 1 to 19 Channel Z Score Neurofeedback includes Average Reference, Linked Ears and Laplacian real-time Z scores. ‘Live’ or Real-time, coherence, phase difference, power, amplitude asymmetry, phase shift and phase lock duration Z scores. Includes a Symptom Check List and Surface EEG Z Scores to help structure a biofeedback protocol design. LORETA Z scores measured during a QEEG analysis are also used to further aid in the development of a neurofeedback protocol.
Discriminant Functions
Learning Disabilities (LD) and mild Traumatic Brain Injury (TBI) discriminant functions.*
* Please note that only EEG recorded using a Linked Ears reference is to be used with the discriminant functions. Some amplifier systems such as the Mitsar, Nicolet and Neuroscan/NuAmp/Synamp amplifiers are not to be used to evaluate the discriminant functions. Also, other constraints such as age must be adhered to as well as only patients with a history of learning disabilities or a history of mild traumatic brain injury are to be evaluated. The mTBI discriminant function is not designed to evaluate moderate to severe TBI, only individuals with a history of Mild TBI should be evaluated with the TBI discriminant function. Discriminant functions are not to be used for purposes of diagnosis, but rather to confirm or disconfirm a hypothesis and to statistically evaluate the EEG. Under FDA filings only competent and qualified individuals are to use NeuroGuide and the discriminant functions.
Evoked Potentials and Event Related Potentials
Visual Evoked Potentials (EPs) and Event Related Potentials (ERPs) Cognitive P-300 with Normative Database Comparisons.
Brain Performance Index
The Brain Performance Index (BPI) is an estimate of the efficiency of neural resource allocation and it is not designed to replace a neuropsychological test but rather to compliment neuropsychological evaluations especially where a patient has problems taking a conventional neuropsychological test or when one wants to rapidly repeat the test. Should only be used to with clients between the ages of 5 and 18 years of old.
LORETA Effective Connectivity
Purchase LORETA Effective Connectivity to generate Raw and Z Scored LORETA Phase Slope Index bitmaps and tab-delimited-text files.
LORETA Phase Reset
Generate Raw and Z Scored Bit Maps and Tab-delimited-text file for LORETA Phase Shift Duration and Phase Lock Duration.
LORETA Cross-Frequency Coherence
LORETA Cross-Frequency Coherence is anEEG LORETA measure of the Coherence (amplitude independent coupling) between frequencies and the center voxels of 88 different Brodmann areas, for example delta and beta or theta and alpha-2 or theta and high beta (Gamma), etc. Neurons in a given Brodmann area communicates with other brain regions over a range of frequencies. This add-on quantifies the coupling and provides a normative database comparison (Z scores) to help link symptoms to dysregulation in the brain.
NeuroNavigator’s Diffusion Tensor Imaging Overlay
Add the NeuroNavigator Diffusion Tensor Imaging (NNDTI) addon to view the DTI overlay(s) of the raw values or z-scores of the connectivity data of the NeuroNavigator. It is also possible to view the direction of the fibers in the NeuroNavigator, the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture. Must First Purchase NeuroNavigator (NN) and the swLORETA Current Source Density Normative Database (NNZ) and swLORETA Functional Connectivity Normative Database (NNF) and/or swLORETA Information Flow Normative Database (NNI) add-ons to NeuroGuide™ to use NNDTI.
NeuroNavigator’s swLORETA Effective Connectivity Normative Database
Add Effective Connectivity to your NeuroGuide NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw and Z Scores of Information Flow (Phase Slope Index) when you purchase the swLORETA Effective Connectivity Normative Database (Birth to 82 years). Must first purchase the NeuroNavigator (NN) and the swLORETA Current Density Normative Database (NNZ) add-ons to NeuroGuide™.
NeuroNavigator’s swLORETA Functional Connectivity Normative Database
Add Functional Connectivity to your NeuroGuide NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw Scores and/or Z Scores of Coherence, Lagged Coherence and Phase Difference by purchasing the swLORETA Functional Connectivity Normative Database (2 month – 82 years). Must first purchase NeuroNavigator and the swLORETA Current Source Density Normative Database (NNZ) add-on to NeuroGuide™.
NeuroNavigator’s swLORETA Current Source Density Normative Database
Add Current Source Density Z Scores to your NeuroGuide™ NeuroNavigator when you purchase the swLORETA Current Source Density Normative Database (2 months to 82 years). One must first purchase the NeuroNavigator add-on to NeuroGuide™.
LORETA Coherence and Phase Differences
LORETA Coherence and Phase Differences were computed by using cross-spectral analysis of Hilbert transforms of the current sources from the center voxels of each of 44 Brodmann areas in the left and right hemisphere in eight different frequency bands.
NeuroNavigator
NeuroNavigator is a new state of the art 3-D Electrical Neuroimaging tool that uses a real-MRI with 12,270 voxels, the Boundary Element Method (to compute the inverse solution and allows for accurate source localization at depths) and swLORETA (adjusts for source space inhomogeneity and provides accurate estimates of source gradients from the upper to lower cortical layers).
Standalone NeuroNavigator
This powerful new state of the art 3-Dimensional Electrical Neuroimaging tool uses a real-MRI with 12,270 voxels; the Boundary Element Method (allowing for more accurate source localization at depths); and swLORETA (adjusts for source space inhomogeneity and provides accurate estimates of source gradients from the upper to the lower cortical layers). The Standalone NeuroNavigator with Raw Current Density values must be purchased before you can have access to the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture Tools or before purchasing any of the Standalone NeuroNavigator add-on options. (See Description Tab).
NeuroNavigator
This powerful new state of the art 3-Dimensional Electrical Neuroimaging tool uses a real-MRI with 12,270 voxels; the Boundary Element Method (to compute the inverse solution to avoid the errors inherent in the use of a spherical head model, allowing for more accurate source localization at depths); and swLORETA (adjusts for source space inhomogeneity and provides accurate estimates of source gradients from the upper to the lower cortical layers). The NeuroNavigator with Raw Current Density values must be purchased before you can have access to the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture Tools in NeuroGuide or before purchasing any of the NeuroNavigator add-on options. (See Description Tab).
Diffusion Tensor Imaging Overlay for Standalone NeuroNavigator
Add the Diffusion Tensor Imaging (SNNDTI) addon to the Standalone NeuroNavigator to view the DTI overlay(s) of the Raw values or Z-scores of the connectivity data. Also, view the direction of the fibers in the Standalone NeuroNavigator, the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture. Must First Purchase the Standalone NeuroNavigator (SNN) and the swLORETA Current Source Density (SNNZ) and swLORETA Functional Connectivity (SNNF) and/or swLORETA Information Flow (SNNI) Normative Database add-ons to the Standalone NeuroNavigator to use SNNDTI.
swLORETA Effective Connectivity Normative Database for Standalone NeuroNavigator
Add Effective Connectivity to your Standalone NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw and Z Scores of Information Flow (Phase Slope Index) when you purchase the swLORETA Effective Connectivity Normative Database (Birth to 82 years). Must first purchase the Standalone NeuroNavigator (SNN) and the swLORETA Current Density Normative Database (NNZ) add-on for the Standalone NeuroNavigator.
swLORETA Functional Connectivity Normative Database for Standalone NeuroNavigator
Add Functional Connectivity to your Standalone NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw Scores and/or Z Scores of Coherence, Lagged Coherence and Phase Difference by purchasing the swLORETA Functional Connectivity Normative Database (2 month – 82 years). Must first purchase the Standalone NeuroNavigator (SNN) and the swLORETA Current Source Density Normative Database (NNZ) add-on to the Standalone NeuroNavigator.
swLORETA Current Source Density Normative Database for Standalone NeuroNavigator
Add Current Source Density Z Scores to your Standalone NeuroNavigator when you purchase the swLORETA Current Source Density Normative Database (2 months to 82 years). One must first purchase the Standalone NeuroNavigator.
NeuroNavigator’s Diffusion Tensor Imaging Overlay
Add the NeuroNavigator Diffusion Tensor Imaging (NNDTI) addon to view the DTI overlay(s) of the raw values or z-scores of the connectivity data of the NeuroNavigator. It is also possible to view the direction of the fibers in the NeuroNavigator, the Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture. Must First Purchase NeuroNavigator (NN) and the swLORETA Current Source Density Normative Database (NNZ) and swLORETA Functional Connectivity Normative Database (NNF) and/or swLORETA Information Flow Normative Database (NNI) add-ons to NeuroGuide™ to use NNDTI.
NeuroNavigator’s swLORETA Effective Connectivity Normative Database
Add Effective Connectivity to your NeuroGuide NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw and Z Scores of Information Flow (Phase Slope Index) when you purchase the swLORETA Effective Connectivity Normative Database (Birth to 82 years). Must first purchase the NeuroNavigator (NN) and the swLORETA Current Density Normative Database (NNZ) add-ons to NeuroGuide™.
NeuroNavigator’s swLORETA Functional Connectivity Normative Database
Add Functional Connectivity to your NeuroGuide NeuroNavigator, Real-Time NeuroNavigator and the NeuroNavigator Time Domain Capture to view the Raw Scores and/or Z Scores of Coherence, Lagged Coherence and Phase Difference by purchasing the swLORETA Functional Connectivity Normative Database (2 month – 82 years). Must first purchase NeuroNavigator and the swLORETA Current Source Density Normative Database (NNZ) add-on to NeuroGuide™.
NeuroNavigator’s swLORETA Current Source Density Normative Database
Add Current Source Density Z Scores to your NeuroGuide™ NeuroNavigator when you purchase the swLORETA Current Source Density Normative Database (2 months to 82 years). One must first purchase the NeuroNavigator add-on to NeuroGuide™.
LORETA Normative Database (2 month to 82 years) Modules
LORETA stands for Low Resolution Electromagnetic Tomography of the identification and quantification of the 3-dimensional current sources of the surface EEG. In 2000 improved localization was obtained by dividing the source space by the standard deviation of the source space and is called LORETA (or standardized LORETA). Applied Neuroscience, Inc. (ANI) implemented the same mathematics as the Key Institute LORETA but uses the standard deviation of the normative subjects to standardize LORETA (e.g., sLORETA). In 2016, implemented standardized weighted LORETA (swLORETA) using 12,270 voxels with improved localization accuracy which runs inside of the NeuroNavigator program.
LORETA Current Density Normative Database
The LORETA Current Density normative database used the Key Institute’s ‘T’ matrix and cross-spectrum equations to compute the cross-spectrum of the EEG from each subject in the NeuroGuide™ normative database for each 2,394 gray matter pixel. The NeuroGuide™ software was tested by comparisons to the Key Institute software programs. After log10 transforms of the Key Institute current density values, the means and standard deviations of the 2,394 LORETA currents were computed for different age groups from birth to 82 years thus enabling a Z score to be computed for each of the 2,394 gray matter pixels and displayed using the Key Institute’s LORETA viewer.
LORETA Source Correlation
The LORETA Source Correlation Add-on computes the Pearson Product Correlation Coefficient (-1 to +1) with respect to a 3-dimensional Region of Interest (ROI) and the remainder of the 2,394 LORETA Gray Matter Pixels over the time span of selected EEG and then displays the results in the LORETA Viewer. The ROI is identified by either an Anatomical Name or by Brodmann Area. The average current sources of the ROI are used in the computation of the correlation coefficient and the ROI correlation to itself = 0 in the LORETA Viewer.
LORETA Coherence and Phase Differences
LORETA Coherence and Phase Differences were computed by using cross-spectral analysis of Hilbert transforms of the current sources from the center voxels of each of 44 Brodmann areas in the left and right hemisphere in eight different frequency bands.
LORETA Phase Reset
Generate Raw and Z Scored Bit Maps and Tab-delimited-text file for LORETA Phase Shift Duration and Phase Lock Duration.
LORETA Cross-Frequency Coherence
LORETA Cross-Frequency Coherence is anEEG LORETA measure of the Coherence (amplitude independent coupling) between frequencies and the center voxels of 88 different Brodmann areas, for example delta and beta or theta and alpha-2 or theta and high beta (Gamma), etc. Neurons in a given Brodmann area communicates with other brain regions over a range of frequencies. This add-on quantifies the coupling and provides a normative database comparison (Z scores) to help link symptoms to dysregulation in the brain.
Discriminants and Indexes
Discriminant functions are statistical procedures that identify EEG measures that maximally discriminate between different populations and aid in the evaluation of relevant brain regions and frequencies in different groups of subjects. NeuroGuide includes four different discriminant function add-ons: 1- Traumatic Brain Injury (TBI), 2- Learning Disability (LD), 3- The Concussion Index designed to track changes in the brain following a TBI and 4- The Brain Function Index that uses the EEG recorded from Peak-Performers (.g., I.Q. > 120, etc) to evaluate the functioning of different brain networks, e.g., addiction network, attention network, depression network, anxiety network, etc.
The Brain Performance Index (BPI) used discriminant analyses to identify EEG measures that discriminate between low I.Q. vs high I.Q. subjects and then used a linear regression equation to provide an estimate of brain efficiency
Discriminant Functions
Learning Disabilities (LD) and mild Traumatic Brain Injury (TBI) discriminant functions.*
* Please note that only EEG recorded using a Linked Ears reference is to be used with the discriminant functions. Some amplifier systems such as the Mitsar, Nicolet and Neuroscan/NuAmp/Synamp amplifiers are not to be used to evaluate the discriminant functions. Also, other constraints such as age must be adhered to as well as only patients with a history of learning disabilities or a history of mild traumatic brain injury are to be evaluated. The mTBI discriminant function is not designed to evaluate moderate to severe TBI, only individuals with a history of Mild TBI should be evaluated with the TBI discriminant function. Discriminant functions are not to be used for purposes of diagnosis, but rather to confirm or disconfirm a hypothesis and to statistically evaluate the EEG. Under FDA filings only competent and qualified individuals are to use NeuroGuide and the discriminant functions.
Brain Performance Index
The Brain Performance Index (BPI) is an estimate of the efficiency of neural resource allocation and it is not designed to replace a neuropsychological test but rather to compliment neuropsychological evaluations especially where a patient has problems taking a conventional neuropsychological test or when one wants to rapidly repeat the test. Should only be used to with clients between the ages of 5 and 18 years of old.
Cross Frequency Coupling Modules
New and scientifically powerful measures of EEG Functional Connectivity called (Cross-Frequency Coupling) are available for both Surface EEG and 3-dimensional LORETA. These new tools quantify the degree of coupling between low vs high frequencies of the EEG and then compare the subject’s measure to an age matched normative database.
LORETA Cross-Frequency Coherence
LORETA Cross-Frequency Coherence is anEEG LORETA measure of the Coherence (amplitude independent coupling) between frequencies and the center voxels of 88 different Brodmann areas, for example delta and beta or theta and alpha-2 or theta and high beta (Gamma), etc. Neurons in a given Brodmann area communicates with other brain regions over a range of frequencies. This add-on quantifies the coupling and provides a normative database comparison (Z scores) to help link symptoms to dysregulation in the brain.
Surface Cross-Frequency Coherence
Surface Cross-Frequency Coherence is an EEG measure of the Coherence (amplitude independent coupling) between frequencies and scalp locations, for example delta & beta or theta & alpha-2 or theta & high beta (Gamma), etc. A given brain region communicates with other brain regions over a range of frequencies. This add-on quantifies the coupling and provides a normative database comparison (Z scores) to help link symptoms to dysregulation in the brain.
Surface Cross-Frequency Phase Amplitude
The amplitude of higher EEG frequencies (e.g., beta) are related to the phase of lower EEG frequencies (e.g., theta). Therefore, this is a surface EEG measure of the correlation between the phase and amplitude of the EEG across frequencies and scalp locations, for example delta and beta or theta and alpha-2 or theta and high beta (Gamma), etc. This is a unique and important metric that in part reflects the coupling between the upper cortical layers (I-III that generate beta) and the lower cortical layers (V-VI) that generate delta and theta. This add-on quantifies the coupling and provides a normative database comparison (Z scores) to help link symptoms to dysregulation in the brain.
Statistical Analysis and Batch Processing Modules
NeuroStat is an easy to use statistical program that computes: Analysis of Variance (ANOVA), independent t-tests and paired t-tests in the same individual whose EEG was recorded at different times (e.g., Pre vs Post treatment) and between different groups of subjects. Absolute differences and percent differences are also available. The results of the surface EEG statistics are displayed on color topographic maps as well as tab delimited outputs. LORETA statistics are also an option using the same statistical tests applied to 2,394 current source voxels and displayed using the Key Institute LORETA Viewer. NeuroBatch is used to automatically analyze hundreds of edited EEG data files and compute group statistics. Both programs empower the clinician, researcher and student to create publishable color topographic maps in a few minutes.
NeuroStat
An EEG statistics program for test-retest and group analyses. It only takes a few mouse clicks to publish your results! Individual comparison options are independent t-tests, paired t-tests, and repeated measures analysis of variance (ANOVA) as well as absolute and percent differences for Surface EEG as well as LORETA.
Descriptive Group statistics include Means and Standard Deviations and independent t-tests between Groups (does not assume equal variance or sample sizes). Some group comparative statistics require the use of NeuroBatch™ to produce a NeuroGuide™ Group Analysis File.
NeuroBatch
Automatic Processing of Large Numbers of EEG Files. Group comparative statistics require the use of NeuroBatch™ to produce a NeuroGuide™ Group Analysis File or *.NGG file. Descriptive Group statistics include Means and Standard Deviations and independent t-tests between Groups (does not assume equal variance or sample sizes). Group statistics are used to compare different groups of subjects such as 100 ADD children to 100 normal children, etc. Use NeuroBatch™ to create the *.NGG files before using NeuroStat™.
Neurofeedback Modules
EEG biofeedback and Neurofeedback are synonymous terms referring to operant learning whereby the brain controls an external device. NeuroGuide’s normative database Z scores aid the clinician to reinforce increased stability and efficiency in brain networks linked to symptoms.
swLORETA Z Score Neurofeedback
swLORETA Z Score Neurofeedback: Z Score swLORETA biofeedback of Brodmann areas in the brain, “Hubs”, “Modules” and “Default Mode Network” and 3-dimensional locations registered to a reference MRI. Includes ‘Live’ swLORETA Coherence & Phase Differences from 88 Brodmann Areas, plus the Thalamus, Vermis, Red Nucleus and the Cerebellum Regions of Interests.
3-D sLORETA Z Score Neurofeedback
sLORETA Z Score Neurofeedback: Z Score sLORETA biofeedback of Brodmann areas in the brain, “Hubs”, “Modules” and “Default Mode Network” and 3-dimensional locations registered to a reference MRI. Includes ‘Live’ sLORETA Coherence & Phase Differences from 88 Brodmann areas.
BrainSurfer
BrainSurfer a Brain Computer Interface with 3-D NeuroImaging of Functional Brain Networks, sLORETA of Brodmann Areas & sLORETA of Networks in Real-time and Live Z scores of nodes and connections between nodes as measured by sLORETA Coherence and sLORETA Phase Differences.
Surface 1 to 19 Channel Z Score Cross-Frequency Neurofeedback
Surface 1 to 19 Channel Z Score Cross-Frequency Neurofeedback includes Linked Ears real-time Z scores. ‘Live’ or Real-time, coherence & phase amplitude Z scores. Includes a Symptom Check List and Surface EEG Z Scores to help structure a biofeedback protocol design. LORETA Z scores measured during a QEEG analysis are also used to further aid in the development of a neurofeedback protocol.
Surface 1 to 19 Channel Z Score Neurofeedback
Surface 1 to 19 Channel Z Score Neurofeedback includes Average Reference, Linked Ears and Laplacian real-time Z scores. ‘Live’ or Real-time, coherence, phase difference, power, amplitude asymmetry, phase shift and phase lock duration Z scores. Includes a Symptom Check List and Surface EEG Z Scores to help structure a biofeedback protocol design. LORETA Z scores measured during a QEEG analysis are also used to further aid in the development of a neurofeedback protocol.
ANI Streamer
The Streamer is a Video Streamer for Neurofeedback. Dock any DVD Player window, or NetFlix, YouTube, hulu or any other Web Service that allows you to watch videos and/or TV show. Currently there are 2 display options available inside the Streamer that you can link to the Reward: Brightness or Size. One must own Surface Z Score Neurofeedback (NF1), LORETA Z Score Neurofeedback (NF2), Surface Cross Frequency Z Score Neurofeedback (NF3) and/or swLORETA Neurofeedback (swNFB) before you can use the ANI Streamer.
Per Use Products
There are four different per-use products where the user purchases a certain number of uses. The per-use price declines by the number of per-uses purchased at one time. The per-use products are: 1- Automatic Clinical Report Writer (ACR); 2- The Concussion Index to evaluate brain network changes as a function of time or treatment following a concussion or TBI; 3- The Brain Optimization Index that evaluates the changes in network hubs and connections with respect to a population of Peak Performers; and 4-NeuroLink Pro Assessment that provides Radar maps of changes in symptom severity over sessions or treatment.
Automatic Clinical Reports
Increase the productivity of your Clinical Service. Produce a professional quality in-house QEEG clinical report, in Microsoft Word format, that a physician and/or clinician can edit. Get relevant content and displays, plus helpful Neurofeedback recommendations in a few minutes. Automatic Clinical Reports are sold in packages of 10, 25 or 50 reports.
Brain Optimization Index Uses
Use the Brain Optimization Index™ to track changes in a patient’s various brain networks. The BOI can also be generated within an Automatic Clinic Report, if you purchase ACR uses. Before purchasing a Brain Optimization Index™ package, please verify that you have NeuroGuide v 3.0.7 or greater installed on your computer. NOTE if you have NeuroGuide v 2.9.3 – v 3.0.6 installed on your computer you can still purchase packages but the outputs will be labeled Brain Function Index and not include the latest updates.
Concussion Index™ Uses
Before purchasing a package Concussion Index™ uses, please verify that you have NeuroGuide™ Deluxe (Basic) v 2.9.1 or greater installed on your computer.
NeuroLink Pro Assessments
NeuroLink Pro is a standalone program that provides a self-assessment of symptoms. The assessment results can be imported by means of the NeuroLink tab when you click on the symptom checklist button inside of the Surface Z Score Neurofeedback, sLORETA Z Score Neurofeedback, Surface Z Score Cross-frequency Neurofeedback, swLORETA Z Score Neurofeedback and/or BrainSurfer Modules. NLAs are sold in packages of 10, 25, or 50 assessments.
Evoked Potential
Visual and auditory evoked potentials (EPs) are produced and saved and include normative database comparisons. Event related potentials for the P-300 and mismatch-negativity are also available. Tools to explore latency and amplitude are available, including topographic color maps.
Evoked Potentials and Event Related Potentials
Visual Evoked Potentials (EPs) and Event Related Potentials (ERPs) Cognitive P-300 with Normative Database Comparisons.