Our Research

Omniscient Neurotechnology conducts independent and collaborative research with institutions around the world. Using our Quicktome and Infinitome pipelines, we provide insight into neuropathology through advanced brain mapping and connectomic analyses.

 

Explore our research

Highlighted Publications

Minimally invasive keyhole techniques for resection of giant intracranial tumors

August 5, 2022

This retrospective investigation of 95 patients operated on between 2012-2017 advocates for the safety of keyhole approaches for removal of giant intracranial tumors.

Should Neurosurgeons Try to Preserve Non-Traditional Brain Networks? A Systematic Review of the Neuroscientific Evidence

April 6, 2022

A meta-analytic approach revealing the cognitive and emotional consequences of damaging brain networks in neurosurgery.

Patterns of Traditional and Nontraditional Network Involvement in Insulo-Sylvian Gliomas: An Anatomic Study using the Quicktome Platform

January 17, 2022

A retrospective investigation using Quicktome to demonstrate brain networks compromised by Glioma.

Connectivity-based parcellation of normal and anatomically distorted human cerebral cortex

November 28, 2021

As the basis for the creation of our patient-specific brain maps, this manuscript unveils the Structural Connectivity Atlas (SCA) methodology

Changes in the Brain Connectome Following Repetitive Transcranial Magnetic Stimulation for Stroke Rehabilitation

October 28, 2021

In this case report, we use Infinitome to find optimal targets for rTMS in a patient who had suffered an Ischemic Stroke.

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Anatomy and white matter connections of the precuneus

August 26, 2021

The Precuneus is involved in visuospatial processing and cognition. We reveal the major connections and functions of the precuneus.

A Connectivity Model of the Anatomic Substrates Underlying Ideomotor Apraxia A Meta-Analysis of Functional Neuroimaging Studies

June 15, 2021

A meta-analysis revealing the network constitutents of ideomotor apraxia. We present a connectivity model to explain the determinants of this condition.

Anatomy and White Matter Connections of the Lingual Gyrus and Cuneus

April 21, 2021

The medial occipital lobe, composed of the lingual gyrus and cuneus, is necessary for basic and higher level visual processing. We investigate the connections of the medial occipital lobe.

Targeting location relates to treatment response in active but not sham rTMS stimulation

April 1, 2021

A re-opened investigation utilizing o8t atlassing revealed that inaccurate targeting of the dlPFC in veterans reduced treatment response.

Anatomy and white matter connections of the superior parietal lobule

March 19, 2021

The superior parietal lobule (SPL) is involved in somatosensory and visuospatial integration. We reveal the cortical constituents and connections of the SPL.

Anatomy and white matter connections of the middle frontal gyrus

March 17, 2021

The Middle Frontal Gyrus (MFG) is involved in attention processing and working memory. We reveal the major connections and functions of the MFG.

A cortical based analysis of ventral premotor area connectivity

March 10, 2021

The Ventral Premotor Area (VPM) is involved in motor control and execution. We reveal the major connections and functions of the VPM.

The Unique Fiber Anatomy of Middle Temporal Gyrus Default Mode Connectivity

February 3, 2021

The middle temporal gyrus (MTG) is understood to play a role in language related tasks. We investigate the cortical connections and components of the MTG.

Parcellation-based modeling of the supplementary motor area

January 18, 2021

The supplementary motor area (SMA) plays a role in the initiation of internally and externally cued movements. This manuscript investigates the cortical connections of the SMA.

Anatomy and white matter connections of the parahippocampal gyrus

January 4, 2021

The Parahippocampal Gyrus (PHG) is involved in memory encoding and cognition. We reveal the major connections and functions of the PHG.

Application of structural and functional connectome mismatch for classification and individualized therapy for Alzheimers disease

November 23, 2020

By utilizing the o8t Infinitome processing pipeline, this study revealed connectomic anomalies in the Default Mode Network (DMN) which underpinned the progression of Alzheimer's Disease.

Parcellation-based anatomic modelling of the default mode network

November 15, 2020

The default mode network (DMN) is an important mediator of passive states of mind. We investigate the cortical areas which constitute the DMN.

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A parcellation-based model of the auditory network

September 11, 2020

Many cortical areas co-ordinate human's auditory sense. We present a tractographic model of the brain's primary auditory network

Anatomy and white matter connections of the fusiform gyrus

August 10, 2020

The fusiform gyrus is understood to be involved in the processing of high-order visual information. We characterize its connections by anatomical dissection and fibre tractography.

The cortical organization of language: distilling human connectome insights for supratentorial neurosurgery

July 31, 2020

Connectomic approaches have bolstered surgical understanding of the brains major language networks. This manuscript summarizes and reviews these major advancements.

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Parcellation-based modelling of the dorsal premotor area

May 17, 2020

This manuscript investigates the cortical connections of the Dorsal Premotor Area (DPM), a critical region for coordinating hand muscle recruitment for motor tasks such as grasping and lifting.

Citing our software

Infinitome Neuroscience Platform:

Omniscient Neurotechnology Pty. Ltd. (o8t) (2020). Infinitome [Computer software]. https://infinitome.o8t.com/. Sydney, Australia.

Quicktome Brain Mapping Platform:

Omniscient Neurotechnology Pty. Ltd. (o8t) (2021). Quicktome [Computer software]. https://quicktome.o8t.com/. Sydney, Australia.

Collaboration and future research

We are always interested in engaging with passionate research groups - register your interest to work with our talented data science team below

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