Development of new ultra-fast 3D cardiac resonance sequence for clinical application (Q3179090): Difference between revisions
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(Removed claim: summary (P836): Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in h...) |
(Created claim: summary (P836): Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in hos...) |
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Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in hospitals is shared for different indications. To overcome these limitations, the research team (comprising CNIC scientists-cardiologists and Philips physicists/engineers) has designed a new 3D acquisition methodology that dramatically accelerates the acquisition of a complete cardio-RM study. In 40 seconds, a quality study similar to that carried out in 45 minutes is obtained. This unprecedented methodology can revolutionise the field of MRI and universalise its use. The research team proposes to adjust this sequence initially into an experimental model similar to human (pig), and then implement this methodology in two clinical MRIs in two collaborating hospitals. This methodology is protected by a joint patent CNIC-Philips and the ultimate objective is to bring this development to the clinic as a product at the end of this project. The impact on SNS will be high by reducing the costs associated with the use of cardioRM (significant reduction in machine use), improving the diagnosis of patients by having access to the technique considered gold standard, and finally resulting in an economic return on the investment made within this public-private partnership. (English) | |||||||||||||||
| Property / summary: Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in hospitals is shared for different indications. To overcome these limitations, the research team (comprising CNIC scientists-cardiologists and Philips physicists/engineers) has designed a new 3D acquisition methodology that dramatically accelerates the acquisition of a complete cardio-RM study. In 40 seconds, a quality study similar to that carried out in 45 minutes is obtained. This unprecedented methodology can revolutionise the field of MRI and universalise its use. The research team proposes to adjust this sequence initially into an experimental model similar to human (pig), and then implement this methodology in two clinical MRIs in two collaborating hospitals. This methodology is protected by a joint patent CNIC-Philips and the ultimate objective is to bring this development to the clinic as a product at the end of this project. The impact on SNS will be high by reducing the costs associated with the use of cardioRM (significant reduction in machine use), improving the diagnosis of patients by having access to the technique considered gold standard, and finally resulting in an economic return on the investment made within this public-private partnership. (English) / rank | |||||||||||||||
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| Property / summary: Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in hospitals is shared for different indications. To overcome these limitations, the research team (comprising CNIC scientists-cardiologists and Philips physicists/engineers) has designed a new 3D acquisition methodology that dramatically accelerates the acquisition of a complete cardio-RM study. In 40 seconds, a quality study similar to that carried out in 45 minutes is obtained. This unprecedented methodology can revolutionise the field of MRI and universalise its use. The research team proposes to adjust this sequence initially into an experimental model similar to human (pig), and then implement this methodology in two clinical MRIs in two collaborating hospitals. This methodology is protected by a joint patent CNIC-Philips and the ultimate objective is to bring this development to the clinic as a product at the end of this project. The impact on SNS will be high by reducing the costs associated with the use of cardioRM (significant reduction in machine use), improving the diagnosis of patients by having access to the technique considered gold standard, and finally resulting in an economic return on the investment made within this public-private partnership. (English) / qualifier | |||||||||||||||
point in time: 12 October 2021
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Revision as of 20:30, 12 October 2021
Project Q3179090 in Spain
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | Development of new ultra-fast 3D cardiac resonance sequence for clinical application |
Project Q3179090 in Spain |
Statements
35,250.0 Euro
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70,500.0 Euro
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50.0 percent
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1 January 2018
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31 December 2020
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FUNDACION CENTRO NAL DE INV. CARDIOVASCULARES CARLOS III
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40°25'0.12"N, 3°42'12.89"W
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28079
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La resonancia magnética (RM) es la mejor técnica para evaluar la anatomía y función del corazón. La RM es considerada el patrón oro para este objetivo, sin embargo su uso no es universal por dos motivos principales: 1) necesidad de técnicos especialistas en la adquisición; 2) Largo tiempo de adquisición (estudio estándar de función y realce con contraste de gadolinio dura de media 45-60 minutos). Esta larga duración hace imposible su uso extendido ya que los equipos de RM en los hospitales son compartidos para diferentes indicaciones. Para superar estas limitaciones, el equipo investigador (formado por científicos-cardiólogos de CNIC y físicos/ingenieros de Philips) ha diseñado una nueva metodología de adquisición 3D que acelera drásticamente la adquisición de un estudio completo de cardio-RM. En 40 segundos se obtiene un estudio de calidad similar al que hasta ahora se realiza en 45 minutos. Esta metodología sin precedentes puede revolucionar el campo de la RM y universalizar su uso. El equipo investigador propone ajustar esta secuencia inicialmente en un modelo experimental similar al humano (cerdo), y posteriormente implementar esta metodología en dos RM clínicas en dos hospitales colaboradores. Esta metodología está protegida por una patente conjunta CNIC-Philips y el objetivo final es llevar a la clínica este desarrollo como producto al finalizar este proyecto. El impacto para el SNS será alto por reducir los costes asociados al uso de cardioRM (reducción importante del uso de máquina), mejorar el diagnóstico de pacientes por tener acceso a la técnica considerada patrón oro, y finalmente resultar en retorno económico a la inversión realizada dentro de esta colaboración público-privada. (Spanish)
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Magnetic resonance imaging (MRI) is the best technique for evaluating anatomy and heart function. MRI is considered the gold standard for this purpose, however its use is not universal for two main reasons: 1) the need for specialised procurement technicians; 2) Long acquisition time (standard function study and enhancement with gadolinium contrast lasts 45-60 minutes). This long duration makes its extended use impossible as MRI equipment in hospitals is shared for different indications. To overcome these limitations, the research team (comprising CNIC scientists-cardiologists and Philips physicists/engineers) has designed a new 3D acquisition methodology that dramatically accelerates the acquisition of a complete cardio-RM study. In 40 seconds, a quality study similar to that carried out in 45 minutes is obtained. This unprecedented methodology can revolutionise the field of MRI and universalise its use. The research team proposes to adjust this sequence initially into an experimental model similar to human (pig), and then implement this methodology in two clinical MRIs in two collaborating hospitals. This methodology is protected by a joint patent CNIC-Philips and the ultimate objective is to bring this development to the clinic as a product at the end of this project. The impact on SNS will be high by reducing the costs associated with the use of cardioRM (significant reduction in machine use), improving the diagnosis of patients by having access to the technique considered gold standard, and finally resulting in an economic return on the investment made within this public-private partnership. (English)
12 October 2021
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Madrid
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Identifiers
DTS17_00136
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