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Brilliance CT Big Bore

CT scanner

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The Brilliance CT Big Bore provides clinical excellence in radiation oncology, with a system design and workflow tailored to CT simulation. In addition, this big bore CT offers flexibility in performing radiology and interventional CT procedures as well.

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Table Top with Patient Couch

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.
85 cm patient aperture

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.
iDose⁴ and OMAR

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.
Pulmonary Toolkit for Oncology with Amplitude Binning

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.
Tumor LOC

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.
Scan to Scan consistency

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.
  • Table Top with Patient Couch
  • 85 cm patient aperture
  • iDose⁴ and OMAR
  • Pulmonary Toolkit for Oncology with Amplitude Binning
Bekijk alle kenmerken
Table Top with Patient Couch

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.

Positional accuracy supports absolute patient marking

This system features a true 60 cm Scan Field of View (SFOV) which provides consistent HU integrity across the FOV and fits the girth of most patients. It provides a spatial positioning accuracy of less than 2 mm between the CT imaging plane and the laser marking plane to support positional accuracy. This meets the AAPM TG 66 guidelines.
85 cm patient aperture

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.

Flexibility for even complex simulation setups

The large patient aperture can reduce setup time during patient handling and setup by providing increased flexibility when positioning the patient.
iDose⁴ and OMAR

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.

The Power of two

O-MAR reduces artifacts caused by large orthopedic implants. iDose⁴ improves image quality through noise reduction and improvements in spatial resolution. Together they produce high image quality with reduced artifacts.
Pulmonary Toolkit for Oncology with Amplitude Binning

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.

4D CT Motion Management

The Pulmonary Toolkit for oncology provides flexibility to meet your clinical needs by offering three acquisition modes as well as phase and amplitude binning methods in order to evaluate target and organ motion and aid in clinical decisions regarding patient positioning and gated treatment delivery.
Tumor LOC

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.

CT simulation tools for accurate and efficient patient marking on console

The Tumor LOC application provides the tools to perform isocenter localization for patient marking and fast simulations for increased productivity and improved radiation oncology workflow.
Scan to Scan consistency

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.

Scan to Scan consistency

Philips iPatient is an advanced platform that puts you in control of your CT system today, while preparing you for the challenges of tomorrow.  This allows you to plan the results, not the acquisition.  It also gives you confidence and consistency 24/7.
  • * Improved image quality as defined by improvements in spatial resolution and/or noise reduction as measured in phantom studies.

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Door op de link te klikken, verlaat u de officiële website van Royal Philips ("Philips"). Alle links naar websites van derden die op deze site kunnen verschijnen, zijn alleen bedoeld voor uw gemak en vertegenwoordigen op geen enkele manier enige aansluiting bij of goedkeuring van de informatie die op die gelinkte websites wordt verstrekt. Philips geeft geen verklaringen of garanties van welke aard dan ook met betrekking tot websites van derden of de daarin opgenomen informatie.

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You are about to visit a Philips global content page

Continue
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