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OncoField Lab

One platform for electric-field planning and hyperthermia research

Design TTFields, tDCS, tACS, and hyperthermia plans faster, compare them more easily, and keep your evidence organized.

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For research and education only. Not a medical device.

OncoField Lab interface preview
01 TTFields

TTFields Planning Research

Design patient-specific electrode arrays and compare electric-field distributions to refine each plan.

02 tDCS · tACS

tDCS and tACS Stimulation Studies

Iterate on low-frequency stimulation conditions with patient-specific modeling and analysis.

03 ~460 kHz

Hyperthermia Planning up to 460 kHz

Build thermal-treatment plans and review electric-field and temperature results side by side.

Core Features

Complete Planning Toolkit

Core capabilities for TTFields, tDCS, tACS, and hyperthermia research in one place.

AI-assisted segmentation interface

AI-Assisted Segmentation

From DICOM images to 3D models, switch quickly with automated and manual segmentation tools.

Patient-specific modeling environment

Patient-Specific Modeling

Build high-precision patient-specific models by setting tissue properties, geometry, and electrodes.

Multiphysics simulation view

Multiphysics Simulation

Model electric-field (TTFields) and thermal (hyperthermia) effects together in one environment.

Volume of interest based analysis

VOI-Based Analysis

Analyze results by volume of interest (VOI) to gain quantitative insights.

Treatment plan comparison display

Plan Comparison

Compare multiple treatment plans side by side to find the optimal setup.

Integrated reporting workspace

Integrated Reporting

Generate consistent reports and visualizations ready for papers and presentations.

Highlights

Feature Preview

OncoField Lab is designed with a user-friendly interface.

AI-assisted segmentation screen

Start modeling fast.

Create 3D models from medical images, then refine only what you need.

  • AI-based auto tissue segmentation
  • Multi-organ/tissue segmentation support
  • Manual correction tools

Save electrode arrays as plans.

Change placement and conditions to compare plans.

  • Electrode/array geometry and orientation
  • Layer thickness/material parameter tuning
  • 3D array visualization

Electric field and temperature in one flow.

Review field and thermal distributions sequentially in one project.

  • FEM-based electric field analysis
  • 2D/3D result map visualization
  • 3D thermal distribution simulation

Read results with VOI focus.

Turn visual maps into comparable metrics.

  • VOI (Volume of Interest) statistics/summary
  • Plan comparison with key metrics
  • Visualizations that aid interpretation

Package shareable results.

Complete collaboration/review flow with reports and exports.

  • Result saving/exports (fit to institutional workflows)
  • Auto report generation (PDF, etc.)
  • Case/plan-based result tracking
Use Cases

Who is this platform for?

Driving Oncology Discovery

Empower your researchers with tools that handle the heavy lifting of data preparation. Focus on the science, not the software.

  • Create/manage patient/case-based 3D models
  • Compare plans by varying electrode arrays/parameters
  • Interpret results quickly with VOI-centered metrics
Research institute team reviewing oncology simulation outputs
Validation & Differentiation

Validated technology, optimized workflow

Modeling experience from the field, applied to research workflows.

  • Based on TTFields R&D experience
  • Technology built on patents/IP portfolio
  • Practical design of modeling/analysis flow

Benchmark electrode array optimization outcomes.

  • Electrode array optimization experience for pancreas/brain cases
  • Identify hotspot/coldspot and improvement points
  • Optune vs Fieldcure electrode comparative analysis
  • Results presented with ROI 2D/3D comparison views
Research Evidence

Academic Papers & Research

Papers and research validating the technology behind OncoField Lab.

arXiv
2025.04
Effect of Electrode Array Position on Electric Field Intensity in Glioblastoma Patients Undergoing Electric Field Therapy
BMC
2025.04
Optimization of electrode position in electric field treatment for pancreatic cancer
Study
2025.02
Feasibility of 3D quality assurance system with electrode array for electric fields therapy
MP
2024.11
A device-dependent auto-segmentation method based on combined generalized and single-device datasets
MP
2024.03
Study of multistep Dense U-Net-based automatic segmentation for head MRI scans
Study
2022.08
Feasibility of a quality assurance system for electromagnetic field therapy
Product Specifications

System Requirements and Support Range

Recommended System

  • CPU Intel Core i7-12700 or higher
  • Memory 32 GB or higher
  • Storage 512 GB or higher
  • OS Windows 10 x64 or higher
  • Monitor 1280 x 900 or higher
  • VGA NVIDIA RTX2060 (8 GB VRAM) or higher

Standard DICOM Data Handling Support

Support for core transfer syntaxes and key imaging workflows

Uncompressed RLE Lossless Classic JPEG (Baseline/Lossless)
  • Standard DICOM dataset handling
  • Support for basic uncompressed transfer syntaxes
  • Implicit VR Little Endian / Explicit VR Little Endian / Explicit VR Big Endian
  • Support for key medical imaging workflows

Detailed support scope follows the product conformance documentation

Higher specifications are recommended for large imaging datasets and complex 3D analysis environments.

FAQ

Frequently Asked Questions

No. It is a simulation tool for research and education.

No. This product is for research/education only and cannot be used for clinical diagnosis or treatment decisions.

The product supports standard DICOM datasets and key imaging workflows. The current public range includes basic uncompressed transfer syntaxes, RLE Lossless, and classic JPEG (Baseline/Lossless). Detailed support scope follows the product conformance documentation.

Yes. Please refer to the System Requirements section below.

Data is stored in the installed device/institution environment by default (configurable).

Institutional quotes; licenses tailored to research/education/enterprise environments.

It is currently best suited for TTFields, tDCS, tACS, and hyperthermia planning up to 460 kHz.

Purchase / Request Demo

Now available. Start your onboarding consultation.

Request an institution-specific quote, demo session, and training or technical consultation in one place.

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Our specialists will walk you through a customized workflow relevant to your research area.

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Purchase

  • Custom demo session
  • Onboarding consulting
  • Training materials & tutorials
  • Dedicated technical support

Starting from

2,000 USD/year

3,500 USD/year

Early bird discount · VAT not included

Before purchase

Digital fulfillment begins when a license key, activation data, executable package, or bundled third-party runtime component is delivered. After that point, change-of-mind refunds may be restricted except where required by law.

Use the 28-day free trial to confirm fit and review the Refund Policy.

Research Software Notice

This software is a simulation tool for research and education. It is not certified as a medical device and cannot be used for clinical diagnosis or treatment. For actual patient treatment use, regulatory requirements and approvals in the relevant country are required.

Review Policy Documents

License Policy Refund Policy MSSQL Disk Sector Check