Purpose: Human cortical bone has a rapid T2 - decay, and it can be visualized using ultrashort echo time (UTE) techniques in magnetic resonance imaging (MRI). These sequences operate at the limits of gradient and transmit-receive signal performance. Development of multicompartment anthropomorphic phantoms that can mimic human cortical bone can assist with quality assurance and optimization of UTE sequences. The aims of this study were to (a) characterize the MRI signal properties of a photopolymer resin that can be 3D printed, (b) develop multicompartment phantoms based on the resin, and (c) demonstrate the feasibility of using these phantoms to mimic human anatomy in the assessment of UTE sequences. Methods: A photopolymer resin (Prismlab ...
Conditions of bone health such as variations of the thickness of cortical layer, intracortical poros...
The paper presents the development and test of a skull phantom, which can be used for the assessment...
Objective: Develop a magnetic resonance imaging (MRI) compatible head phantom with acoustic attenuat...
Purpose Human cortical bone has a rapid T2* decay, and it can be visualized using ultrashort echo ti...
To ensure accurate and consistent imaging of patients, medical imaging systems are controlled and te...
Objectives: Additively manufactured bone models, implants and drill guides are becoming increasingly...
Brain, outside the body, will decay quickly, causing ex vivo studies to be difficult. Having a phant...
Magnetic Resonance Imaging (MRI) is a powerful and non-invasive imaging modality that is widely used...
PurposeTo demonstrate the use of anatomic MRI-visible three-dimensional (3D)-printed phantoms and to...
Purpose: Imaging phantoms are widely used for testing and optimization of imaging devices without th...
Objective The goal of the proposed study was the development of a magnetic resonance imaging (MRI) c...
Background: Neurosurgical procedures are complex and require years of training and experience. Tradi...
Introduction: In this study, a novel anthropomorphic head phantom for quantitative image quality ass...
Abstract The two most popular models used in anatomical training for residents, clinicians, or surge...
This thesis is about applying 3D printing in evaluating CT image quality and showing how this low-co...
Conditions of bone health such as variations of the thickness of cortical layer, intracortical poros...
The paper presents the development and test of a skull phantom, which can be used for the assessment...
Objective: Develop a magnetic resonance imaging (MRI) compatible head phantom with acoustic attenuat...
Purpose Human cortical bone has a rapid T2* decay, and it can be visualized using ultrashort echo ti...
To ensure accurate and consistent imaging of patients, medical imaging systems are controlled and te...
Objectives: Additively manufactured bone models, implants and drill guides are becoming increasingly...
Brain, outside the body, will decay quickly, causing ex vivo studies to be difficult. Having a phant...
Magnetic Resonance Imaging (MRI) is a powerful and non-invasive imaging modality that is widely used...
PurposeTo demonstrate the use of anatomic MRI-visible three-dimensional (3D)-printed phantoms and to...
Purpose: Imaging phantoms are widely used for testing and optimization of imaging devices without th...
Objective The goal of the proposed study was the development of a magnetic resonance imaging (MRI) c...
Background: Neurosurgical procedures are complex and require years of training and experience. Tradi...
Introduction: In this study, a novel anthropomorphic head phantom for quantitative image quality ass...
Abstract The two most popular models used in anatomical training for residents, clinicians, or surge...
This thesis is about applying 3D printing in evaluating CT image quality and showing how this low-co...
Conditions of bone health such as variations of the thickness of cortical layer, intracortical poros...
The paper presents the development and test of a skull phantom, which can be used for the assessment...
Objective: Develop a magnetic resonance imaging (MRI) compatible head phantom with acoustic attenuat...