J Shanghai Jiaotong Univ Sci

Journal of Shanghai Jiaotong University(Science) >

2021 , Vol. 26 >Issue 4: 471 - 481

DOI: https://doi.org/10.1007/s12204-021-2325-1

Computer & Communication Engineering

Universal Software Architecture of Magnetic Resonance-Guided Focused Ultrasound Surgery System and Experimental Study

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  • (1. Shanghai Shende Medical Device Technology Co., Ltd., Shanghai 200233, China; 2. Shanghai General Hospital,
    Shanghai 200080, China; 3. School of Biomedical Engineering, Shanghai Jiao Tong University, Shanghai 200030, China)

Online published: 2021-06-13

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Abstract

Magnetic resonance-guided focused ultrasound surgery (MRgFUS) is an emerging, non-invasive hyperthermia technology which can be used for the treatment of benign and malignant tumours, in conjunction with intracranial neurological diseases. To treat different indications, it is often necessary to design special focused ultrasound devices and treatment plans, which poses great challenges and results in substantial costs during software development. This article introduces a general software architecture that can be applied to three different focused ultrasound devices for the treatment of uterine fibroids, breast fibroids, and pain palliation of bone metastases, respectively, and can be integrated with GE Discovery or Signa MRI scanners and Xingaoyi BroadScan MRI scanners. Finally, the proposed software architecture was shown to possess desirable universality and safety through various tests and animal experimental studies.

Key words: magnetic resonance-guided focused ultrasound surgery (MRgFUS); software architecture; focused ; ultrasound surgery workflow; MRI thermometry

Cite this article

ZHANG Shengfa (张胜发), TANG Na (唐纳), SHEN Guofeng (沈国峰), WANG Han (王悍), QIAO Shan (乔杉) . Universal Software Architecture of Magnetic Resonance-Guided Focused Ultrasound Surgery System and Experimental Study[J]. Journal of Shanghai Jiaotong University(Science), 2021 , 26(4) : 471 -481 . DOI: 10.1007/s12204-021-2325-1

References

[1] RIEKE V, BUTTS PAULY K. MR thermometry [J].Journal of Magnetic Resonance Imaging, 2008, 27(2):376-390.
[2] KIM J H, HAHN E W. Clinical and biological studiesof localized hyperthermia [J]. Cancer Research, 1979,39(6 Pt 2): 2258-2261.
[3] KENNEDY J E. High-intensity focused ultrasound inthe treatment of solid tumours [J]. Nature ReviewsCancer, 2005, 5(4): 321-327.
[4] COPELAN A, HARTMAN J, CHEHAB M, et al.High-intensity focused ultrasound: Current status forimage-guided therapy [J]. Seminars in InterventionalRadiology, 2015, 32(4): 398-415.
[5] DEWHIRST M W, VIGLIANTI B L, LORAMICHIELS M, et al. Basic principles of thermaldosimetry and thermal thresholds for tissue damagefrom hyperthermia [J]. International Journal of Hyperthermia,2003, 19(3): 267-294.
[6] SAPARETO S A, DEWEY W C. Thermal dose determinationin cancer therapy [J]. International Journalof Radiation Oncology*Biology*Physics, 1984, 10(6):787-800.
[7] JOLESZ F A. MRI-guided focused ultrasound surgery[J]. Annual Review of Medicine, 2009, 60: 417-430.
[8] SCHLESINGER D, BENEDICT S, DIEDERICH C,et al. MR-guided focused ultrasound surgery, presentand future [J]. Medical Physics, 2013, 40(8): 080901.
[9] HECTORS S J, JACOBS I,MOONEN C T, et al. MRI methods for the evaluation of high intensity focusedultrasound tumor treatment: Current status and futureneeds [J]. Magnetic Resonance in Medicine, 2016,75(1): 302-317.
[10] DE POORTER J, DE WAGTER C, DE DEENE Y,et al. Noninvasive MRI thermometry with the protonresonance frequency (PRF) method: In vivo results inhuman muscle [J]. Magnetic Resonance in Medicine,1995, 33(1): 74-81.
[11] MENG Y, SUPPIAH S, MITHANI K, et al. Currentand emerging brain applications of MR-guidedfocused ultrasound [J]. Journal of Therapeutic Ultrasound,2017, 5: 26.
[12] GHANOUNI P, PAULY K B, ELIAS W J, et al. TranscranialMRI-guided focused ultrasound: A review ofthe technology and neuro applications [J]. AmericanJournal of Roentgenology, 2015, 205(1): 150-159.
[13] HURWITZ M D, ZAORSKY N G. Image-guided focusedultrasound for the treatment of bone metastases:Current status and future direction [J]. Current RadiologyReports, 2013, 1(2): 147-153.
[14] GIANFELICE D, GUPTA C, KUCHARCZYK W, etal. Palliative treatment of painful bone metastases withMR imaging-guided focused ultrasound [J]. Radiology,2008, 249(1): 355-363.
[15] GOMBOS E C, KACHER D F, FURUSAWA H, etal. Breast focused ultrasound surgery with magneticresonance guidance [J]. Topics in Magnetic ResonanceImaging, 2006, 17(3): 181-188.
[16] HYNYNEN K, POMEROY O, SMITH D N, et al. MRimaging-guided focused ultrasound surgery of fibroadenomasin the breast: A feasibility study [J]. Radiology,2001, 219(1): 176-185.
[17] CHAPMAN A, TER HAAR G. Thermal ablation ofuterine fibroids using MR-guided focused ultrasoundatruly non-invasive treatment modality [J]. EuropeanRadiology, 2007, 17(10): 2505-2511.
[18] HYNYNEN K. MRI-guided focused ultrasound treatments[J]. Ultrasonics, 2010, 50(2): 221-229.
[19] ZUCCONI F, COLOMBO P E, PASETTO S, etal. Analysis and reduction of thermal dose errors inMRgFUS treatment [J]. Physica Medica, 2014, 30(1):111-116.
[20] ELLIS S, RIEKE V, KOHI M, et al. Clinical applicationsfor magnetic resonance guided high intensity focusedultrasound (MRgHIFU): Present and future [J].Journal of Medical Imaging and Radiation Oncology,2013, 57(4): 391-399.
[21] LOEVE A J, AL-ISSAWI J, FERNANDEZGUTI′ ERREZ F, et al. Workflow and interventiontimes of MR-guided focused ultrasound: Predictingthe impact of new techniques [J]. Journal ofBiomedical Informatics, 2016, 60: 38-48.
[22] HOKLAND S L, PEDERSEN M, SALOMIR R, et al.MRI-guided focused ultrasound: Methodology and applications[J]. IEEE Transactions on Medical Imaging,2006, 25(6): 723-731.
[23] LAPLANTE P A, NEILL C J, SANGWAN R S.Healthcare professionals’ perceptions of medical softwareand what to do about it [J]. Computer, 2006,39(4): 26-32.
[24] WALLACE D R, KUHN D R. Lessons from 342 medicaldevice failures [C]//Proceedings 4th IEEE InternationalSymposium on High-Assurance Systems Engineering.Washington, DC, USA: IEEE, 1999: 123-131.
[25] FELDMANN R L, SHULL F, DENGER C, et al.A survey of software engineering techniques in medicaldevice development [C]//2007 Joint Workshopon High Confidence Medical Devices, Software, andSystems and Medical Device Plug-and-Play Interoperability(HCMDSS-MDPnP 2007 ). Boston, MA, USA:IEEE, 2007: 46-54.
[26] AMIRI A. St. Jude medical: An object-oriented softwarearchitecture for embedded and real-time medicaldevices [D]. San Luis Obispo, USA: California PolytechnicState University, 2010.
[27] POORMAN M E, CHAPLIN V L, WILKENS K, et al. Open-source, small-animal magnetic resonance-guidedfocused ultrasound system [J]. Journal of TherapeuticUltrasound, 2016, 4(1): 22.

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