Your search keyword '"Alessandro Arduino"' showing total 3 results

1. A contribution to <scp>MRI</scp> safety testing related to gradient‐induced heating of medical devices

Author

Alessandro Arduino, Oriano Bottauscio, Mario Chiampi, Umberto Zanovello, and Luca Zilberti

Subjects

Heating, Hot Temperature, Phantoms, Imaging, Radio Waves, Humans, Female, Radiology, Nuclear Medicine and imaging, Prostheses and Implants, Magnetic Resonance Imaging

Abstract

To theoretically investigate the feasibility of a novel procedure for testing the MRI gradient-induced heating of medical devices and translating the results into clinical practice.The concept of index of stress is introduced by decoupling the time waveform characteristics of the gradient field signals from the field spatial distribution within an MRI scanner. This index is also extended to consider the anisotropy of complex bulky metallic implants. Merits and drawbacks of the proposed index of stress are investigated through virtual experiments. In particular, the values of the index of stress evaluated for realistic orthopedic implants placed within an ASTM phantom are compared with accurate heating simulations performed with 2 anatomic body models (a man and a woman) implanted through a virtual surgery procedure.The manipulation of the proposed index of stress allows to identify regions within the MRI bore where the implant could affect the safety of the examinations. Furthermore, the conducted analysis shows that the power dissipated into the implant by the induced eddy currents is a dosimetric quantity that estimates well the maximum temperature increase in the tissues surrounding the implant.The results support the adoption of an anisotropic index of stress to regulate the gradient-induced heating of geometrically complex implants. They also pave the way for a laboratory characterization of the implants based on electrical measurements, rather than on thermal measurements. The next step will be to set up a standardized experimental procedure to evaluate the index of stress associated with an implant.

Published

2022

2. Heating of hip joint implants in MRI: The combined effect of RF and switched‐gradient fields

Author

Jeffrey Hand, Umberto Zanovello, Mario Chiampi, Luca Zilberti, Alessandro Arduino, Oriano Bottauscio, and Rüdiger Brühl

Subjects

radiofrequency heating, Hot Temperature, Materials science, Radio Waves, MRI safety, Precession (mechanical), 030218 nuclear medicine & medical imaging, Full Papers—Computer Processing and Modeling, Heating, hip prosthesis, 03 medical and health sciences, Hip implant, 0302 clinical medicine, Humans, Radiology, Nuclear Medicine and imaging, Joint (geology), Full Paper, Computer simulation, Phantoms, Imaging, Specific absorption rate, Prostheses and Implants, Magnetic Resonance Imaging, gradient coil heating, numerical simulation, Hip Joint, Vector field, Implant, 030217 neurology & neurosurgery, Radiofrequency coil, Biomedical engineering

Abstract

Purpose To investigate how the simultaneous exposure to gradient and RF fields affects the temperature rise in patients with a metallic hip prosthesis during an MRI session. Methods In silico analysis was performed with an anatomically realistic human model with CoCrMo hip implant in 12 imaging positions. The analysis was performed at 1.5 T and 3 T, considering four clinical sequences: turbo spin-echo, EPI, gradient-echo, and true fast imaging sequence with steady precession. The exposure to gradient and RF fields was evaluated separately and superposed, by adopting an ad hoc computational algorithm. Temperature increase within the body, rather than specific absorption rate, was used as a safety metric. Results With the exception of gradient-echo, all investigated sequences produced temperature increases higher than 1 K after 360 seconds, at least for one body position. In general, RF-induced heating dominates the turbo spin-echo sequence, whereas gradient-induced heating prevails with EPI; the situation with fast imaging sequence with steady precession is more diversified. The RF effects are enhanced when the implant is within the RF coil, whereas the effects of gradient fields are maximized if the prosthesis is outside the imaging region. Cases for which temperature-increase thresholds were exceeded were identified, together with the corresponding amount of tissue mass involved and the exposure time needed to reach these limits. Conclusion The analysis confirms that risky situations may occur when a patient carrying a hip implant undergoes an MRI exam and that, in some cases, the gradient field heating may be significant. In general, exclusion criteria only based on whole-body specific absorption rate may not be sufficient to ensure patients' safety.

Published

2021

3. RF-induced heating of metallic implants simulated as PEC: Is there something missing?

Author

Mario Chiampi, Umberto Zanovello, Luca Zilberti, Oriano Bottauscio, and Alessandro Arduino

Subjects

Heating, Materials science, Hot Temperature, business.industry, Phantoms, Imaging, Radio Waves, Optoelectronics, Radiology, Nuclear Medicine and imaging, Prostheses and Implants, business, Magnetic Resonance Imaging, Radio wave

Published

2020