Flexible PolyCMUTs: Fabrication and Characterization of a Flexible Polymer‐Based Capacitive Micromachined Ultrasonic Array for Conformal Ultrasonography

Omidvar, Amirhossein; Cretu, Edmond; Rohling, Robert; Cresswell, Mark; Hodgson, Antony J.

doi:10.1002/admt.202201316

Cited by 14 publications

(7 citation statements)

References 51 publications

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“…The studies outlined above resulted in a nominal tool design with reasonable convergence performance using several of the optimization algorithms. However, since we are developing flexible ultrasound transducers, 21 it is possible for us to design alternative sensor profiles in which one or more of the transducers in each strip could be angled to emit and sense signals in varying directions (see Figure 4). Here, we considered five different array configurations.…”

Section: Methodology and Design Processmentioning

confidence: 99%

Design of an ultrasound‐emitting drill guide for freehand pedicle screw navigation

MacLean,

Street,

Hodgson

2023

Robotics Computer Surgery

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BackgroundAccurate pedicle screw placement in spinal surgery is critical as inaccuracies can lead to morbidity and suboptimal outcomes. Navigation and robotics have reduced malplacement rates, but their adoption is limited by high costs, learning curves, surgical time, and radiation. The authors propose an ultrasound‐emitting and self‐localising drill guide for precise screw placement that overcomes the limitations of current techniques.Materials and MethodsThe preliminary configuration analysis involves systematically varying design parameters and assessing localization performance using lumbar spine MRI based simulations. The authors evaluate localization techniques based on accuracy and optimization capture range.ResultsResults suggest that feasible designs can accurately estimate position. A promising design features a 5 mm radius cannula with ten 35mm‐long ultrasound strips, 32 elements per strip, and a fanned‐out emission profile. A multi‐start active‐set optimization algorithm with six initial estimates ensures reliable and efficient localization.ConclusionsThe simulation suggests that the proposed design can achieve sufficient localization accuracy for pedicle screw navigation. These findings will guide the fabrication of a novel ultrasound‐emitting drill guide for further evaluation and physical testing.

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Section: Methodology and Design Processmentioning

confidence: 99%

Design of an ultrasound‐emitting drill guide for freehand pedicle screw navigation

MacLean,

Street,

Hodgson

2023

Robotics Computer Surgery

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“…Where current ultrasound systems require pointing and positioning by a sonographer, patches of flexible and large-sized ultrasound arrays enable hands-free imaging and offer a solution for short and long-term monitoring applications. With some notable exceptions 4 , 5 , most prototypes of ultrasound patches are typically made by micro-assembly of individual piezoelectric transducer materials onto a flexible or stretchable substrate 6 – 10 . The rigid islands contain the functional ultrasound transducers, while thin electrodes in-between provide mechanical flexibility allowing the patch to conform to nonplanar surfaces.…”

Section: Introductionmentioning

confidence: 99%

Flexible large-area ultrasound arrays for medical applications made using embossed polymer structures

van Neer,

Peters,

Verbeek

et al. 2024

Nat Commun

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With the huge progress in micro-electronics and artificial intelligence, the ultrasound probe has become the bottleneck in further adoption of ultrasound beyond the clinical setting (e.g. home and monitoring applications). Today, ultrasound transducers have a small aperture, are bulky, contain lead and are expensive to fabricate. Furthermore, they are rigid, which limits their integration into flexible skin patches. New ways to fabricate flexible ultrasound patches have therefore attracted much attention recently. First prototypes typically use the same lead-containing piezo-electric materials, and are made using micro-assembly of rigid active components on plastic or rubber-like substrates. We present an ultrasound transducer-on-foil technology based on thermal embossing of a piezoelectric polymer. High-quality two-dimensional ultrasound images of a tissue mimicking phantom are obtained. Mechanical flexibility and effective area scalability of the transducer are demonstrated by functional integration into an endoscope probe with a small radius of 3 mm and a large area (91.2×14 mm2) non-invasive blood pressure sensor.

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“…[13][14][15] Polymer-based capacitive micromachined US transducers (polyCMUT), for example, are an emerging technology offering wider bandwidth than most ceramics, fast fabrication processes and a high degree of integration. [16,17] Despite their potential advantages, the need for constant DC bias voltage, as well as limited sensitivity and power delivery can pose design and application challenges. [18] Another potential lead-free alternative to conventional piezoelectric ceramics is the use of softer piezoelectric polymers.…”

Section: Introductionmentioning

confidence: 99%

Fully Printed Flexible Ultrasound Transducer for Medical Applications

Keller

Leitner

Baumgartner

et al. 2023

Adv Materials Technologies

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The fabrication of a fully printed, lead‐free, polymer piezoelectric transducer is presented and the characterization of its structural, dielectric, and ferroelectric properties at different processing stages is demonstrated. The performance of poly(vinylidene fluoride‐trifluoroethylene) transducers with resonance frequency analyses, acoustic power measurements, and pulse‐echo experiments is evaluated. Notably, for the first time for a fully printed transducer, an optimal performance in the medical ultrasound range (<15 MHz) is demonstrated with acoustic power >1 W cm−2, which is promising for applications in epidermal and wearable electronics. Overall, the findings provide a strong foundation for future research in the area of flexible ultrasound transducers.

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Flexible PolyCMUTs: Fabrication and Characterization of a Flexible Polymer‐Based Capacitive Micromachined Ultrasonic Array for Conformal Ultrasonography

Cited by 14 publications

References 51 publications

Design of an ultrasound‐emitting drill guide for freehand pedicle screw navigation

Design of an ultrasound‐emitting drill guide for freehand pedicle screw navigation

Flexible large-area ultrasound arrays for medical applications made using embossed polymer structures

Fully Printed Flexible Ultrasound Transducer for Medical Applications

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