VenusX multi-modal intelligent linear accelerator integrates world-class technology and aesthetics.

VenusX allows for 3D Conformal Radiation Therapy (3D-CRT), Intensity-Modulated Radiation Therapy (IMRT), Rotational Radiation Therapy (VMAT) and other treatment modes. Besides, it is equipped with kV-kV, kV-MV, MV-MV, CBCT and other mixed image-guided methods. Automated AI QA function streamlines quality control, allowing for increased patient treatment accuracy.

VenusX introduces the world's first orthogonal double-layer multi-leaf collimator technology, effectively improving dose conformity and uniformity. Through these innovations, VenusX LINAC can better protect the organs at risk (OARs) and meet clinical needs for precise treatment of complex cases.

The future of radiotherapy treatment deliverу:
Innovation based on clinical efficacy and patient experience.

A game changing technology.

Venus X
Orthogonal Double-layer MLC
Low Leakage Rate, multi-target treatment, Good protection of OARs, high-efficiency Treatment.
High-efficiency VMAT
The VMAT based on the Orthogonal Double-Layer MLC has a shorter treatment time than the traditional IMRT technique. TPS is equipped with a GPU-based accelerated Monte-Carlo dose algorithm, making planning more accurate and efficient.
Intelligent Image Guidance System
Designed with the independent double slip rings, the kV CBCT Image Guidance System and MV EPID can reduce alignment time through automated positioning powered by the hybrid algorithm.
Artificial Intelligence
"5G+Cloud+AI" is an intelligent radiotherapy solution providing AI and cloud-based remote planning and real-time monitoring, which can ensure the optimal performance of LINAC.
Product benefits
Ultra-low Leakage Rate
Low leakage rate, concentrated dose on the target area
Higher Conformity
Improved conformity and homogeneity of the target area and the protection rate of OARs is increased by 12.2%
Ultimate Treatment Efficiency
The 204 leaves move synchronously and rapidly, which greatly improves the efficiency of VMAT technique and greatly shortens the treatment time
The GPU-based accelerated Monte-Carlo TiGRT Treatment Planning System (TPS) offers 3D CRT/IMRT/VMAT/SRS-SBRT using modified Generic Algorithms.

TiGRT TPS also supports Auto Beam Selection and Aperture Based Optimization features, which makes for a seamless radiation treatment planning and communication experience for dosimetrists, physicists and radiation oncologists.
Monte-Carlo Dose Calculation Algorithm
Based on the GPU-accelerated Monte-Carlo dose calculation algorithm, IMRT plan calculation for nasopharyngeal carcinoma can be completed within 3 minutes. The production performance is superior, and MU is significantly reduced while improving the Conformity Index (CI) and reducing Homogeneity Index (HI), ensuring target area coverage and minimising the dose drop outside the target area.
Automated AI Contouring αC
VenusX utilises AI deep learning algorithms to contour OARs accurately, covering more than 40 OARs in all parts of the body. It is a customisable piece of equipment with a high contouring accuracy. Over 90% of cases can be used directly for planning without further modification; GPU-based acceleration reduces regular contouring time by at least ten folds.
Automatic organs-at-risk (OARs) segmentation in CT images for head and neck (HaN)
Purpose: a novel deep learning model, Siamese Ensemble Boundary Network (SEB-Net), was developed to improve the accuracy of automatic organs-at-risk (OARs) segmentation in CT images for head and neck (HaN) as well as small organs, which was verified for use in radiation oncology practice.
Wei Wang¹, Qingxin Wang¹˙², Mengyu Jia², Zhongqiu Wang¹, Chengwen Yang¹, Daguang Zhang¹, Shujing Wen¹, Delong Hou¹, Ningbo Liu¹, Ping Wang¹* and Jun Wang¹*
¹Department of Radiation Oncology, Tianjin Medical University Cancer Institute and Hospital, National Clinical Research Center for Cancer, Key Laboratory of Cancer Prevention and Therapy, Tianjin's Clinical Research Center for Cancer, Tianjin, China, 2School of Precision Instruments and Optoelectronics Engineering, Tianjin University, Tianjin, China
Product benefits
Gold Standard
Monte-Carlo Algorithm
AI Efficiency
Automated AI Contouring αC
Extremely Fast Process
GPU-based acceleration
MV Image Viewing System (IVS), also known as Radiation Therapy Image Guidance System, is an accurate and easy-to-use Patient Position Verification and Electronic Portal Imaging Device (EPID) system. It verifies patient position, tracks patient tumour, verifies and records portal, detects dynamic MLC leaf, and verifies and records dosage.

IVS uses stand-alone 8" or 16" digital panel hardware and related software to calculate a 6-dimensional correction vector (3 translations + rotation, pitch, roll) that is required to bring the patient to the position and orientation specified in the prescription.
High Resolution Image
Using the latest amorphous silicon flat panel detector, the 2816x2816 resolution of the MV-level verification image allows the users to clearly visualize bone structures and soft tissues.
Automated AI Positioning System αL
The AI-powered 6-D couch can rapidly correct positioning errors. Combined with the TiGRT TPS, it can be used to provide efficient and convenient multi-target treatments.
One-board Multi-function
Using the detector, the IVS can achieve imaging QA, mechanical QA, beam QA, cone QA and planning QA and automatically generate detailed QA reports for further analysis.
Perfect as workhorse LINAC
No LINAC or bunker modification is required; it can be installed into existing bunker through simple adjustment of the accelerator counterweight.
Product benefits
High Resolution Image
2816 X 2816
All in One
Provides all necessary features
High Compatibility
Adaptable to various devices
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