MRCAT Brain

MR-RT clinical application

NMRF320

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MRCAT Brain clinical application allows the use of MRI as the primary imaging modality for radiotherapy planning of primary and metastatic tumors in the brain without the need for CT. Detailed anatomical information for contouring and attenuation maps for dose calculations are both obtained from a single, submillimeter resolution 3D T1W mDIXON MR sequence. Artificial Intelligence (AI) is used for fast computation of continuous Hounsfield units directly on the MR console.

Features
Unleash the real power of MR simulation
Unleash the real power of MR simulation

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.

Unleash the real power of MR simulation

Unleash the real power of MR simulation
MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.
Click here for more information
Unleash the real power of MR simulation
Unleash the real power of MR simulation

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.
The single scan advantage
The single scan advantage

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.

The single scan advantage

The single scan advantage
With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.
Click here for more information
The single scan advantage
The single scan advantage

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.
Automatic generation of synthetic CT images using AI
Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.

Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI
MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.
Click here for more information
Automatic generation of synthetic CT images using AI
Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.
Accuracy in dose planning
Accuracy in dose planning

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.

Accuracy in dose planning

Accuracy in dose planning
MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.
Click here for more information
Accuracy in dose planning
Accuracy in dose planning

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.
Seamless workflow integration
Seamless workflow integration

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.

Seamless workflow integration

Seamless workflow integration
DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.
Click here for more information
Seamless workflow integration
Seamless workflow integration

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.
Put Philips MR-only radiotherapy to work today
Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.

Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today
To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.
Click here for more information
Put Philips MR-only radiotherapy to work today
Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.
  • Unleash the real power of MR simulation
  • The single scan advantage
  • Automatic generation of synthetic CT images using AI
  • Accuracy in dose planning
See all features
Unleash the real power of MR simulation
Unleash the real power of MR simulation

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.

Unleash the real power of MR simulation

Unleash the real power of MR simulation
MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.
Click here for more information
Unleash the real power of MR simulation
Unleash the real power of MR simulation

Unleash the real power of MR simulation

MRCAT Brain lets you plan radiation therapy for patients with primary and metastatic tumors in the brain using MRI as a single-modality solution. Within just one fast MR scan, MRCAT Brain provides excellent soft-tissue contrast for target and OAR delineation, and CT-like density information for dose calculations - directly on the console. This not only extends the benefits of MRI’s outstanding soft-tissue contrast to radiotherapy planning, but it also eliminates arduous, error-prone CT-MRI registration from the process, reducing uncertainties and complexity.
The single scan advantage
The single scan advantage

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.

The single scan advantage

The single scan advantage
With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.
Click here for more information
The single scan advantage
The single scan advantage

The single scan advantage

With Philips MRCAT (MR for Calculating ATtenuation) Brain imaging protocol, a single mDIXON T1W scan provides information for both contouring and dose calculation for treatment planning. As anatomical and density information originate from the same scan, no image registration is required and spatial and temporal consistency are ensured.
Automatic generation of synthetic CT images using AI
Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.

Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI
MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.
Click here for more information
Automatic generation of synthetic CT images using AI
Automatic generation of synthetic CT images using AI

Automatic generation of synthetic CT images using AI

MRCAT Brain uses Artificial Intelligence (AI) for fast computation of MRCAT attenuation maps based on the mDIXON T1W scan. MRCAT generation takes place right on the MR console and provides continuous Hounsfield units for CT-like image appearance.
Accuracy in dose planning
Accuracy in dose planning

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.

Accuracy in dose planning

Accuracy in dose planning
MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.
Click here for more information
Accuracy in dose planning
Accuracy in dose planning

Accuracy in dose planning

MRCAT Brain has been designed with the strict accuracy requirements of RT in mind. MRCAT image acquisition is geometrically accurate* and verification studies have shown that MRCAT-based dose plans are equivalent** to CT-based plans, promoting confidence in dose planning.
Seamless workflow integration
Seamless workflow integration

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.

Seamless workflow integration

Seamless workflow integration
DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.
Click here for more information
Seamless workflow integration
Seamless workflow integration

Seamless workflow integration

DICOM-CT conform, the MRCAT Brain dataset can be exported to treatment planning systems and used as the primary image dataset for dose calculations. You can also use the high-resolution MRCAT data for patient positioning at the Linac. Studies have shown that positioning verification is as accurate as with CT-based workflows***.
Put Philips MR-only radiotherapy to work today
Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.

Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today
To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.
Click here for more information
Put Philips MR-only radiotherapy to work today
Put Philips MR-only radiotherapy to work today

Put Philips MR-only radiotherapy to work today

To successfully bring MR-only radiotherapy into your clinical routine, we recognize that you must look beyond the imaging itself and address important steps such as patient marking, position verification, and quality assurance. We are prepared to support you throughout this process. To this end, we offer dedicated workflow descriptions, best practice sharing and tailored training support, designed to provide assistance as you adopt this new treatment paradigm.

Specifications

MRCAT Brain
MRCAT Brain
Compatibility MR system
  • Ingenia 1.5T and 3.0T MR-RT, Ambition 1.5T MR-RT and Elition 3.0T MR-RT
MRCAT Brain
MRCAT Brain
Compatibility MR system
  • Ingenia 1.5T and 3.0T MR-RT, Ambition 1.5T MR-RT and Elition 3.0T MR-RT
See all specifications
MRCAT Brain
MRCAT Brain
Compatibility MR system
  • Ingenia 1.5T and 3.0T MR-RT, Ambition 1.5T MR-RT and Elition 3.0T MR-RT
  • *Accurate means: MRCAT image acquisition provides <lt/> ± 1 mm geometric accuracy of image data in <lt/> 20 cm Diameter Spherical Volume (DSV) and <lt/> ± 2 mm geometric accuracy of image data in <lt/> 40 cm Diameter Spherical Volume (DSV)*. *Limited to 32 cm in z-direction in more than 95% of the points within the volume
  • **The mean dose in the PTV based on CT based plans does not differ more than 1% when simulated on MRCAT images as compared to when simulated on CT images for 95% of the patient cases
  • ***Accurate means: MRCAT-based DRRs are within 1 mm accuracy compared to CT-based DRRs for 95% of cases
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