How does the technical status of medical ultrasound equipment affect image quality? Studies based on human observer experiments and a novel method for automatic detection of defective transducers
Abstract
Ultrasound as an imaging modality has a fundamental role in modern healthcare. The
equipment, especially transducers, is fragile and handled daily, and transducers are
known to sometimes become defective. The overall aim of this thesis was to evaluate
how the technical status of the equipment affects clinical image quality.
In study 1 a novel automatic method to detect defects in linear transducers by analysing
the images that are saved for documentation was developed which makes it possible
to monitor many transducers without interference with clinical activity.
The method was evaluated in study 2 by comparing the result obtained with the
automatic method to the well-established in-air method, which is used for quality
control, for 81 linear and curvilinear transducers. The methods showed good
agreement, the area under curve for the receiver operating characteristics evaluation
being 0.88 (SD 0.06).
There is a variety of different scanners, from regular to high-end. In study 3 a
comparison of a regular and a high-end scanner was made, the images from the
clinically relevant objects in a greyscale phantom being assessed by six observers in a
detection study. Visibility was substantially better for the advanced scanner in four out
of 16 combinations of depth, contrast and size.
The method from study 1 was also used in study 4 to find images from defective
transducers that had been used clinically. 160 images from four defective transducers,
with defects that had different grades of severity, were collected, and were compared
to 160 images from non-defective transducers in an observer study with four
experienced radiologists. There were four mandatory questions concerning whether the
defects were detectable, whether the possible defects might affect the diagnosis, the
visibility of structural details and total image quality. For three of the transducers the
defects were detectable, the visibility of structural details being assessed as worse for
all the four defective transducers. The total image quality was assessed as worse for
three of the defective transducers. Out of the assessments of the images produced by
the defective transducers, 19 % were “confident that the artifacts could affect the
diagnosis”.
This thesis shows that differences in image quality between different kind of ultrasound
scanners can be detected using human observers. The thesis also shows that clinical
image quality can be affected by defective transducers and that there is a risk of
misdiagnosis if transducers with severe defects are used. The developed method for
automatic detection of non-uniformities in clinical images could be used as a
complement to normal quality control for earlier detection of defective transducers.
Parts of work
1. Lorentsson R, Hosseini N, Johansson J-O, Rosenberg W,
Stenborg B, Månsson L G, Båth M. Method for automatic
detection of defective ultrasound linear array transducers
based on uniformity assessment of clinical images – A case
study.
J Appl Clin Med Phys 2018; 19:265–274
https://doi.org/10.1002/acm2.12248 2. Lorentsson R, Hosseini N. Månsson L G, Båth M.
Evaluation of an automatic method for detection of defects
in linear and curvilinear ultrasound transducers.
Phys Med 2021; 84:33–40
https://doi.org/10.1016/j.ejmp.2021.03.025 3. Lorentsson R, Hosseini N, Johansson J-O, Rosenberg W,
Stenborg B, Månsson L G, Båth M. Comparison of the low contrast detectability of two ultrasound systems using a
grayscale phantom.
J Appl Clin Med Phys 2016; 17:366–378
https://doi.org/10.1120/jacmp.v17i6.6246 4. Lorentsson R, Hosseini N, Aurell Y, Collin D, Frösing E,
Szaro P, Månsson L G, Båth M. Investigation of the impact
of defective ultrasound transducers on clinical image quality
in grayscale 2-D still images.
Ultrasound Med Biol 2023; 49:2126-2133
https://doi.org/10.1016/j.ultrasmedbio.2023.06.004
Degree
Doctor of Philosophy (Medicine)
University
University of Gothenburg. Sahlgrenska Academy
Institution
Institute of Clinical Sciences. Department of Radiation Physics
Disputation
Fredagen den 15 september 2023, kl. 9.00, Hörsal Arvid Carlsson, Academicum, Medicinaregatan 3, Göteborg
Date of defence
2023-09-15
robert.lorentsson@vgregion.se
Date
2023-08-25Author
Lorentsson, Robert
Keywords
Ultrasound
defective transducer
image quality
Publication type
Doctoral thesis
ISBN
978-91-8069-307-3 (tryckt)
978-91-8069-308-0 (PDF)
Language
eng