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1.
Phys Med ; 85: 98-106, 2021 May.
Article in English | MEDLINE | ID: mdl-33991807

ABSTRACT

PURPOSE: The purpose of this multicenter phantom study was to exploit an innovative approach, based on an extensive acquisition protocol and unsupervised clustering analysis, in order to assess any potential bias in apparent diffusion coefficient (ADC) estimation due to different scanner characteristics. Moreover, we aimed at assessing, for the first time, any effect of acquisition plan/phase encoding direction on ADC estimation. METHODS: Water phantom acquisitions were carried out on 39 scanners. DWI acquisitions (b-value = 0-200-400-600-800-1000 s/mm2) with different acquisition plans (axial, coronal, sagittal) and phase encoding directions (anterior/posterior and right/left, for the axial acquisition plan), for 3 orthogonal diffusion weighting gradient directions, were performed. For each acquisition setup, ADC values were measured in-center and off-center (6 different positions), resulting in an entire dataset of 84 × 39 = 3276 ADC values. Spatial uniformity of ADC maps was assessed by means of the percentage difference between off-center and in-center ADC values (Δ). RESULTS: No significant dependence of in-center ADC values on acquisition plan/phase encoding direction was found. Ward unsupervised clustering analysis showed 3 distinct clusters of scanners and an association between Δ-values and manufacturer/model, whereas no association between Δ-values and maximum gradient strength, slew rate or static magnetic field strength was revealed. Several acquisition setups showed significant differences among groups, indicating the introduction of different biases in ADC estimation. CONCLUSIONS: Unsupervised clustering analysis of DWI data, obtained from several scanners using an extensive acquisition protocol, allows to reveal an association between measured ADC values and manufacturer/model of scanner, as well as to identify suboptimal DWI acquisition setups for accurate ADC estimation.


Subject(s)
Diffusion Magnetic Resonance Imaging , Cluster Analysis , Diffusion , Phantoms, Imaging , Reproducibility of Results
2.
Phys Med ; 55: 135-141, 2018 Nov.
Article in English | MEDLINE | ID: mdl-30342982

ABSTRACT

PURPOSE: To propose an MRI quality assurance procedure that can be used for routine controls and multi-centre comparison of different MR-scanners for quantitative diffusion-weighted imaging (DWI). MATERIALS AND METHODS: 44 MR-scanners with different field strengths (1 T, 1.5 T and 3 T) were included in the study. DWI acquisitions (b-value range 0-1000 s/mm2), with three different orthogonal diffusion gradient directions, were performed for each MR-scanner. All DWI acquisitions were performed by using a standard spherical plastic doped water phantom. Phantom solution ADC value and its dependence with temperature was measured using a DOSY sequence on a 600 MHz NMR spectrometer. Apparent diffusion coefficient (ADC) along each diffusion gradient direction and mean ADC were estimated, both at magnet isocentre and in six different position 50 mm away from isocentre, along positive and negative AP, RL and HF directions. RESULTS: A good agreement was found between the nominal and measured mean ADC at isocentre: more than 90% of mean ADC measurements were within 5% from the nominal value, and the highest deviation was 11.3%. Away from isocentre, the effect of the diffusion gradient direction on ADC estimation was larger than 5% in 47% of included scanners and a spatial non uniformity larger than 5% was reported in 13% of centres. CONCLUSION: ADC accuracy and spatial uniformity can vary appreciably depending on MR scanner model, sequence implementation (i.e. gradient diffusion direction) and hardware characteristics. The DWI quality assurance protocol proposed in this study can be employed in order to assess the accuracy and spatial uniformity of estimated ADC values, in single- as well as multi-centre studies.


Subject(s)
Diffusion Magnetic Resonance Imaging/instrumentation , Diffusion , Phantoms, Imaging , Quality Control
4.
Med Lav ; 109(1): 57-67, 2018 02 01.
Article in English | MEDLINE | ID: mdl-29405178

ABSTRACT

INTRODUCTION: In light of both current Italian radioprotection law and the new European Directive, radiation dose monitoring was carried out on the interventional staff, of the new Papa Giovanni XXIII Hospital in Bergamo, Italy, potentially exposed to high radiation levels. METHODS: Interventional activities were mapped and personal dose data were collected for three years using thermo-luminescent dosimeters. Effective dose (ED) to whole body and equivalent dose (HT) to hands and eye lenses were estimated from Hp(10) and Hp(0.07) measurements. RESULTS: During the monitoring period, individual annual cumulative ED ranged from 0.2 to 9.3 mSv for radiologists (N=4), from 0.1 to 4.6 mSv for neuroradiologists (N=4), from 0.1 to 2.0 mSv for nurses (N=11), and from less than 0.1 to 1.2 mSv for radiographers (N=14). Individual annual HTs to hands ranged from 1.5 to 282.0 mSv for radiologists, from 0.5 to 99.7 mSv for neuroradiologists, from 1.9 to 12.8 mSv for nurses and from 0.7 to 12 mSv for radiographers. Individual annual HTs to eye lenses ranged from 1.1 to 110.9 mSv, from 0.6 to 58.3 mSv, from 0.1 to 8.6 mSv, from less than 0.1 to 11.7 mSv for radiologists, neuroradiologists, nurses and radiographers respectively. CONCLUSIONS: The doses received by medical doctors were higher than those for the other two groups. The Italian dose limits have been respected for all operator categories. The eye lens dose limit of the new European Directive (BSS 2013) was exceeded in 2013 by three medical doctors, prompting prescription of protective glasses. Since 2015 also this new limit has been observed.


Subject(s)
Occupational Exposure , Radiation Dosage , Radiation Monitoring , Humans , Italy
5.
Radiol Med ; 121(2): 93-105, 2016 Feb.
Article in English | MEDLINE | ID: mdl-26286004

ABSTRACT

OBJECTIVE: This study aimed at estimating the patient effective dose during whole-body low-dose multi detector computed tomography with a scanner Philips Brillance 64, and to compare it with those reported in literature for the same procedure and with the dose of the conventional X-ray examination in our institution. MATERIALS AND METHODS: WBLDMDCT effective dose was evaluated for 29 MM patients, using Dose Length Product values. Conventional X-ray examination dose was estimated using a Rando Phantom and Dose Area Product indexes. ICRP Publication 103 based coefficients were used. RESULTS: Mean WBLDMDCT effective dose values-estimated using sex-specific conversion coefficients and body weight factors-were 3.6 and 2.8 mSv for females and males, respectively. The effective dose for the conventional method was 1.2 mSv for Rando phantom. CONCLUSION: The WBLDMDCT effective dose in our institution is consistent with the values reported in previous studies. Such a dose is about 2.5- to 3-fold higher than the mean radiation dose of the conventional X-ray study. Nevertheless, considering the improved diagnostic accuracy of the CT investigation, the comfort of the patient and the old age of the MM population, dose/quality ratio can be considered favourable.


Subject(s)
Multidetector Computed Tomography , Multiple Myeloma/diagnostic imaging , Radiation Dosage , Aged , Female , Humans , Male , Multidetector Computed Tomography/instrumentation , Phantoms, Imaging
6.
J Magn Reson Imaging ; 43(1): 213-9, 2016 Jan.
Article in English | MEDLINE | ID: mdl-26013043

ABSTRACT

PURPOSE: To propose a magnetic resonance imaging (MRI) quality assurance procedure that can be used for multicenter comparison of different MR scanners for quantitative diffusion-weighted imaging (DWI). MATERIALS AND METHODS: Twenty-six centers (35 MR scanners with field strengths: 1T, 1.5T, and 3T) were enrolled in the study. Two different DWI acquisition series (b-value ranges 0-1000 and 0-3000 s/mm(2) , respectively) were performed for each MR scanner. All DWI acquisitions were performed by using a cylindrical doped water phantom. Mean apparent diffusion coefficient (ADC) values as well as ADC values along each of the three main orthogonal directions of the diffusion gradients (x, y, and z) were calculated. Short-term repeatability of ADC measurement was evaluated for 26 MR scanners. RESULTS: A good agreement was found between the nominal and measured mean ADC over all the centers. More than 80% of mean ADC measurements were within 5% from the nominal value, and the highest deviation and overall standard deviation were 9.3% and 3.5%, respectively. Short-term repeatability of ADC measurement was found <2.5% for all MR scanners. CONCLUSION: A specific and widely accepted protocol for quality controls in DWI is still lacking. The DWI quality assurance protocol proposed in this study can be applied in order to assess the reliability of DWI-derived indices before tackling single- as well as multicenter studies.


Subject(s)
Diffusion Magnetic Resonance Imaging/instrumentation , Diffusion Magnetic Resonance Imaging/standards , Image Interpretation, Computer-Assisted/instrumentation , Image Interpretation, Computer-Assisted/standards , Quality Assurance, Health Care/standards , Diffusion Magnetic Resonance Imaging/methods , Equipment Design , Equipment Failure Analysis , Image Interpretation, Computer-Assisted/methods , Italy , Phantoms, Imaging , Quality Assurance, Health Care/methods , Reproducibility of Results , Sensitivity and Specificity
7.
Med Lav ; 106(1): 3-16, 2015 Jan 09.
Article in Italian | MEDLINE | ID: mdl-25607283

ABSTRACT

BACKGROUND: In this study occupational exposure to static magnetic fields of 1T and 1.5 T MR scanners installed at Azienda Ospedaliera Papa Giovanni XXIII, Bergamo, Italy, was assessed and the results were compared with the limits for worker's exposure to static magnetic field currently applicable in Italy (Attachment 1 of D.M. 02/08/91). OBJECTIVES: The aim of the study was to assess current occupational exposure to static magnetic fields at 1T and 1.5 T MRI scanner sites and to predict exposure using the new 3 T MR equipment due to come into operation shortly. METHODS: Measurements were performed sampling the static magnetic field experienced by workers while carrying out their tasks by means of a Hall effect probe. All together, 167 measurements were obtained for 29 workers (11 healthcare assistants, 14 radiography technicians and 4 anaesthesiologists). RESULTS: The results showed wide variations of occupational exposure parameters according to the worker's job, type of procedure and patient's state. Nevertheless, it was possible to confirm that the regulatory limits were observed in all cases: the time spent by workers in the zone of the magnet room where B > 200 mT was much shorter than the limit of 1 hour a day prescribed by Italian law (D.M 02/08/91) and the maximum time variation of B (dB/dt) was at least 4 times lower than the value of 6 T/s taken as the health safety threshold in DM 3/8/93. CONCLUSIONS: The data collected suggest that compliance with exposure limits prescribed by Italian law will also be met with the new 3 T MR.


Subject(s)
Health Personnel , Magnetic Fields/adverse effects , Magnetic Resonance Imaging , Occupational Exposure/analysis , Radiation Monitoring , European Union , Guidelines as Topic , Hospitals, Public , Humans , Italy , Mathematical Computing , Occupational Exposure/legislation & jurisprudence , Radiation Dosage , Radiation Monitoring/methods , Radiation Protection , Safety Management/legislation & jurisprudence , Time Factors
8.
Magn Reson Imaging ; 31(6): 875-81, 2013 Jul.
Article in English | MEDLINE | ID: mdl-23602727

ABSTRACT

Vascular space occupancy (VASO) is a magnetic resonance imaging technique sensitive to cerebral blood volume, and is a potential alternative to the blood oxygenation level dependent (BOLD) sensitive technique as a basis for functional mapping of the neurovascular response to a task. Many implementations of VASO have made use of echo-planar imaging strategies that allow rapid acquisition, but risk introducing potentially confounding BOLD effects. Recently, multi-slice and 3D VASO techniques have been implemented to increase the imaging volume beyond the single slice of early reports. These techniques usually rely, however, on advanced scanner software or hardware not yet available in many centers. In the present study, we have implemented a short-echo time, multi-shot 3D Turbo Spin-Echo (TSE) VASO sequence that provided 8-slice coverage on a routine clinical scanner. The proposed VASO sequence was tested in assessing the response of the human motor cortex during a block design finger tapping task in 10 healthy subjects. Significant VASO responses, inversely correlated with the task, were found at both individual and group level. The location and extent of VASO responses were in close correspondence to those observed using a conventional BOLD acquisition in the same subjects. Although the spatial coverage and temporal resolution achieved were limited, robust and consistent VASO responses were observed. The use of a susceptibility insensitive volumetric TSE VASO sequence may have advantages in locations where conventional BOLD and echo-planar based VASO imaging is compromised.


Subject(s)
Brain Mapping/methods , Cerebrovascular Circulation/physiology , Evoked Potentials, Motor/physiology , Imaging, Three-Dimensional/methods , Magnetic Resonance Imaging/methods , Motor Cortex/physiology , Movement/physiology , Adult , Female , Humans , Image Enhancement/methods , Image Interpretation, Computer-Assisted/methods , Male , Oximetry/methods , Oxygen/blood , Reproducibility of Results , Sensitivity and Specificity
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