Your search keyword '"High intensity focused ultrasound (HIFU)"' showing total 222 results

1. Post-correctional improvement of T2-weighted fast spin echo magnetic resonance imaging pulse sequence for detecting high intensity focused ultrasound thermal lesions

Author

Lee, Gabrielle S., Ferrier, Graham A., and Tavakkoli, Jahangir (Jahan)

Published

2024

2. Advancing Boiling Histotripsy Dose in Ex Vivo And In Vivo Renal Tissues Via Quantitative Histological Analysis and Shear Wave Elastography.

Author

Ponomarchuk, Ekaterina, Thomas, Gilles, Song, Minho, Wang, Yak-Nam, Totten, Stephanie, Schade, George, Thiel, Jeff, Bruce, Matthew, Khokhlova, Vera, and Khokhlova, Tatiana

Subjects

*KIDNEY cortex, *RENAL cell carcinoma, *YOUNG'S modulus, *SHEAR waves, *KIDNEY tumors

Abstract

In the context of developing boiling histotripsy (BH) as a potential clinical approach for non-invasive mechanical ablation of kidney tumors, the concept of BH dose (BHD) was quantitatively investigated in porcine and canine kidney models in vivo and ex vivo. Volumetric lesions were produced in renal tissue using a 1.5-MHz 256-element HIFU-array with various pulsing protocols: pulse duration t p = 1–10 ms, number of pulses per point ppp = 1–15. Two BHD metrics were evaluated: BHD1 = ppp, BHD2 = t p × ppp. Quantitative assessment of lesion completeness was performed by their histological analysis and assignment of damage score to different renal compartments (i.e., cortex, medulla, and sinus). Shear wave elastography (SWE) was used to measure the Young's modulus of renal compartments in vivo vs ex vivo , and before vs after BH treatments. In vivo tissue required lower BH doses to achieve identical degree of fractionation as compared to ex vivo. Renal cortex (homogeneous, low in collagen) was equal or higher in stiffness than medulla (anisotropic, collagenous), 5.8–12.2 kPa vs 4.7–9.6 kPa, but required lower BH doses to be fully fractionated. Renal sinus (fatty, irregular, with abundant collagenous structures) was significantly softer ex vivo vs in vivo , 4.9–5.1 kPa vs 9.7–15.2 kPa, but was barely damaged in either case with any tested BH protocols. BHD1 was shown to be relevant for planning the treatment of renal cortex (sufficient BHD1 = 5 pulses in vivo and 10 pulses ex vivo), while none of the tested doses resulted in complete fractionation of medulla or sinus. Post-treatment SWE imaging revealed reduction of tissue stiffness ex vivo by 27–58%, increasing with the applied dose, and complete absence of shear waves within in vivo lesions, both indicative of tissue liquefaction. The results imply that tissue resistance to mechanical fractionation, and hence required BH dose, are not solely determined by tissue stiffness but also depend on its composition and structural arrangement, as well as presence of perfusion. The SWE-derived reduction of tissue stiffness with increasing BH doses correlated with tissue damage score, indicating potential of SWE for post-treatment confirmation of BH lesion completeness. [ABSTRACT FROM AUTHOR]

Published

2024

3. Model based deep learning method for focused ultrasound pathway scanning

Author

Salman Lari, Mohammad Kohandel, and Hyock Ju Kwon

Subjects

Cancer treatment, Computational simulation, High intensity focused ultrasound (HIFU), Hyperthermia, Treatment planning, Medicine, Science

Abstract

Abstract The primary purpose of high-intensity focused ultrasound (HIFU), a non-invasive medical therapy, is to precisely target and ablate tumors by focusing high-frequency ultrasound from an external power source. A series of ablations must be performed in order to treat a big volume of tumors, as a single ablation can only remove a small amount of tissue. To maximize therapeutic efficacy while minimizing adverse side effects such as skin burns, preoperative treatment planning is essential in determining the focal site and sonication duration for each ablation. Here, we introduce a machine learning-based approach for designing HIFU treatment plans, which makes use of a map of the material characteristics unique to a patient alongside an accurate thermal simulation. A numerical model was employed to solve the governing equations of HIFU process and to simulate the HIFU absorption mechanism, including ensuing heat transfer process and the temperature rise during the sonication period. To validate the accuracy of this numerical model, a series of tests was conducted using ex vivo bovine liver. The findings indicate that the developed models properly represent the considerable variances observed in tumor geometrical shapes and proficiently generate well-defined closed treated regions based on imaging data. The proposed strategy facilitated the formulation of high-quality treatment plans, with an average tissue over- or under-treatment rate of less than 0.06%. The efficacy of the numerical model in accurately predicting the heating process of HIFU, when combined with machine learning techniques, was validated through quantitative comparison with experimental data. The proposed approach in cooperation with HIFU simulation holds the potential to enhance presurgical HIFU plan.

Published

2024

4. Model based deep learning method for focused ultrasound pathway scanning.

Author

Lari, Salman, Kohandel, Mohammad, and Kwon, Hyock Ju

Subjects

HIGH-intensity focused ultrasound, DEEP learning, ULTRASONIC imaging, COMPUTER-assisted image analysis (Medicine), TREATMENT effectiveness, MACHINE learning, HEAT transfer

Abstract

The primary purpose of high-intensity focused ultrasound (HIFU), a non-invasive medical therapy, is to precisely target and ablate tumors by focusing high-frequency ultrasound from an external power source. A series of ablations must be performed in order to treat a big volume of tumors, as a single ablation can only remove a small amount of tissue. To maximize therapeutic efficacy while minimizing adverse side effects such as skin burns, preoperative treatment planning is essential in determining the focal site and sonication duration for each ablation. Here, we introduce a machine learning-based approach for designing HIFU treatment plans, which makes use of a map of the material characteristics unique to a patient alongside an accurate thermal simulation. A numerical model was employed to solve the governing equations of HIFU process and to simulate the HIFU absorption mechanism, including ensuing heat transfer process and the temperature rise during the sonication period. To validate the accuracy of this numerical model, a series of tests was conducted using ex vivo bovine liver. The findings indicate that the developed models properly represent the considerable variances observed in tumor geometrical shapes and proficiently generate well-defined closed treated regions based on imaging data. The proposed strategy facilitated the formulation of high-quality treatment plans, with an average tissue over- or under-treatment rate of less than 0.06%. The efficacy of the numerical model in accurately predicting the heating process of HIFU, when combined with machine learning techniques, was validated through quantitative comparison with experimental data. The proposed approach in cooperation with HIFU simulation holds the potential to enhance presurgical HIFU plan. [ABSTRACT FROM AUTHOR]

Published

2024

5. Magnetic resonance-guided focused ultrasound in dystonia: a scoping review

Author

Guinal, Safrollah M., Jamora, Roland Dominic G., Khu, Kathleen Joy O., and Aguilar, Jose A.

Published

2024

6. Recanalize ureteral stents with focused ultrasound.

Author

Singh, Rohit, Samaddar, Abhirup, Duchene, David, Waller, Stephen, and Yang, Xinmai

Subjects

*INTRAVASCULAR ultrasonography, *ACOUSTIC radiation force, *SURGICAL stents, *ACOUSTIC streaming, *HIGH-intensity focused ultrasound, *ULTRASONIC imaging, *INCRUSTATIONS

Abstract

Background: Maintaining ureteral patency is imperative to preventing renal injury and systemic infection. Ureteral stents are small conduits connecting the kidney and the bladder. They have been widely used to treat ureteral obstructions and ureteral leaks. The most problematic and frequent stent‐associated complication is stent encrustation. This occurs when mineral crystals (e.g. calcium, oxalate, phosphorus, struvite) are deposited onto the surface and internal lumen of the stent. Encrustation can lead to the obstruction of a stent and increases risk of systemic infection. As a result, ureteral stents need to be replaced typically every 2–3 months. Purpose: In this study, we present a non‐invasive, high‐intensity focused ultrasound (HIFU)‐based technique to recanalize obstructed stents. By taking advantage of the mechanical force produced by a HIFU beam, including acoustic radiation force, acoustic streaming, and cavitation, HIFU can break up encrustations, clearing the stent of obstruction. Methods: The ureteral stents for this study were obtained from patients undergoing ureteral stent removal. Under the guidance of ultrasound imaging, the encrustation in the stents were located, and then targeted by HIFU at frequencies of 0.25 and 1 MHz. The duty cycle of HIFU was 10%, and the HIFU burst repetition rate was 1 Hz, while the HIFU amplitude was varied to find the threshold pressure that would displace encrustations. The treatment duration was limited at 2 min (or 120 shots from HIFU). The treatments were carried out in two different orientations (parallel and perpendicular) of the ureteral stent with respect to the HIFU beam. For each setting, five treatments were conducted for a maximum duration of 2 min. During the entire treatment, an ultrasound imaging system was used to monitor the movement of encrustations inside the stent. The peak negative HIFU pressures needed to move the encrustations inside the stent was recorded for quantitative analysis. Results: Our results demonstrated that at both 0.25 and 1 MHz ultrasound frequencies, obstructed stents could be recanalized. At 0.25 MHz, the needed average peak negative pressure was 0.52 MPa in parallel orientation and 0.42 MPa in perpendicular orientation. At 1 MHz, the needed average peak negative pressure was 1.10 MPa in parallel orientation and 1.15 MPa in perpendicular orientation Conclusions: This first in‐vitro study has demonstrated the feasibility of non‐invasive HIFU to recanalize ureteral stents. This technology has a potential to reduce the need for ureteral stent exchange. [ABSTRACT FROM AUTHOR]

Published

2023

7. Artificial intelligence-assisted ultrasound-guided focused ultrasound therapy: a feasibility study

Author

Moslem Sadeghi-Goughari, Hossein Rajabzadeh, Jeong-woo Han, and Hyock-Ju Kwon

Subjects

High intensity focused ultrasound (HIFU), artificial intelligence (AI), Ultrasound-Guided-Focused ultrasound (USgFUS) treatment, ultrasound B-Mode imaging, Medical technology, R855-855.5

Abstract

AbstractObjectives Focused ultrasound (FUS) therapy has emerged as a promising noninvasive solution for tumor ablation. Accurate monitoring and guidance of ultrasound energy is crucial for effective FUS treatment. Although ultrasound (US) imaging is a well-suited modality for FUS monitoring, US-guided FUS (USgFUS) faces challenges in achieving precise monitoring, leading to unpredictable ablation shapes and a lack of quantitative monitoring. The demand for precise FUS monitoring heightens when complete tumor ablation involves controlling multiple sonication procedures.Methods To address these challenges, we propose an artificial intelligence (AI)-assisted USgFUS framework, incorporating an AI segmentation model with B-mode ultrasound imaging. This method labels the ablated regions distinguished by the hyperechogenicity effect, potentially bolstering FUS guidance. We evaluated our proposed method using the Swin-Unet AI architecture, conducting experiments with a USgFUS setup on chicken breast tissue.Results Our results showed a 93% accuracy in identifying ablated areas marked by the hyperechogenicity effect in B-mode imaging.Conclusion Our findings suggest that AI-assisted ultrasound monitoring can significantly improve the precision and control of FUS treatments, suggesting a crucial advancement toward the development of more effective FUS treatment strategies.

Published

2023

8. Tumor growth inhibition and tumor specific immunity enhancement in endometrial carcinoma by high intensity focused ultrasound.

Author

Shaohua Yuan, Peng Gu, Wukui Huang, Fen Li, and Xiwen Fan

Subjects

*ENDOMETRIAL cancer, *HIGH-intensity focused ultrasound, *TUMOR growth, *APOPTOSIS, *JANUS kinases

Abstract

Endometrial carcinoma (EC) is a type of epithelial malignancy prevalent in about 8% of the total malignancies in women. Development of new treatment methods is vital for improving the prognosis of endometrial cancer. High Intensity Focused Ultrasound (HIFU) is a safe method for oncological treatment with low complication rate. However, EC treatment by HIFU is rarely reported and its mechanism is unclear. Herein, the effects of HIFU on EC progression were detected. Data confirmed the inhibition of EC tumor growth in mice by HIFU. Moreover, HIFU inhibited the EC tumor apoptosis. It down-regulated the Treg cell production and enhanced the tumorspecific cytotoxicity. It restrained the Janus kinase/Signal transducer and activator of transcription 3 (JAK/STAT3) pathway in vivo, and suppressed the EC progression. HIFU could thus be a promising treatment for EC. [ABSTRACT FROM AUTHOR]

Published

2023

9. Tolerance and efficacy of HIFU ablation for uterine fibroids NPVR ≥ 90%: a nested case-control study

Author

Xue Gong, Dang Liu, Mei-Jie Yang, Rong Zhang, Wen-Zhi Chen, and Jin-Yun Chen

Subjects

High intensity focused ultrasound (HIFU), uterine fibroids, non-perfused volume ratio (NPVR), tolerance, adverse event, Medical technology, R855-855.5

Abstract

Objective To investigate the tolerance and efficacy of HIFU ablation for uterine fibroids with a non-perfused volume ratio (NPVR) ≥ 90%.Methods A prospective cohort study of 2411 patients from 20 clinical centers was available. Contrast-enhanced MRI was used to assess the non-perfused volume ratio (NPVR). The International Society of Interventional Radiotherapy (SIR) complication grading system was used as the tolerance index. Uterine Fibroids-related Symptoms-Quality of Life (UFS-QoL) was used to evaluate the efficacy.Results A total of 1352 patients underwent USgHIFU ablation treatment enrolled, NPVR was median 91.9% (IQR, 81.4%,100.0%). There was 761 case (56.3%) in the NPVR ≥ 90% group in which 17.5% case experienced SIR-B abdominal pain, 591 cases (43.7%) in NPVR < 90% group in which 9.3% case had SIR-B abdominal pain. There were statistically differences in the improvement degree of UFS at 12 months among the four subgroups (NPVR < 70%, 70%–80%, 80%–90%, 90%–100%) (all p

Published

2022

10. Predictive value of image indexes of B-mode and power Doppler sonography on the efficacy of high intensity focused ultrasound ablation for uterine fibroids

Author

Xiaohui Chen, Guohua Huang, Lian Zhang, and Jin Bai

Subjects

High intensity focused ultrasound (HIFU), fibroids, transvaginal ultrasonography, MRI signal intensity, ultrasound image indexes, Medical technology, R855-855.5

Abstract

Objective To investigate the value of the image indexes of B-mode and power Doppler sonography in predicting the therapeutic efficacy of high intensity focused ultrasound (HIFU) ablation for uterine fibroids.Materials and methods Two hundred and three patients with a solitary uterine fibroid were enrolled in this study. Every patient underwent transvaginal sonography (TVS) and magnetic resonance imaging (MRI) before HIFU. The patients were divided into hypointense, isointense and hyperintense fibroid groups based on T2 weighted MR imaging characteristics, and ultrasonic image indexes of the fibroids in different groups were compared. Multiple linear regression analysis was used to evaluate the correlation between ultrasonic image indexes and energy efficiency factor (EEF), non-perfused volume (NPV) ratio of uterine fibroids.Results Among them, 72 patients had a hypointense fibroid, 70 had an isointense fibroid and 61 had a hyperintense fibroid. Significant differences were observed in the ultrasound imaging gray scale value difference between the myometrium and uterine fibroids (GSmyo-fib), the ultrasound imaging gray scale value ratio of fibroids over the myometrium (GSfib/myo), and the ratio of power Doppler pixel area to fibroid area (PDPA/FA) among the three groups (p

Published

2022

11. A hybrid denoising algorithm for HIFU echo signal based on ICEEMDAN combined with MMSVC and WT.

Author

ZHAO Yujie, YAN Shangqu, HE Jinglin, LI Jixiang, ZOU Xiao, and QIAN Shengyou

Subjects

ECHO, HILBERT-Huang transform, ALGORITHMS

Abstract

Copyright of Journal of Measurement Science & Instrumentation is the property of Journal of Measurement Science & Instrumentation and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

12. Combination of Focused Ultrasound, Immunotherapy, and Chemotherapy: New Perspectives in Breast Cancer Therapy.

Author

Dahan, Myléva, Cortet, Marion, Lafon, Cyril, and Padilla, Frédéric

Subjects

HIGH-intensity focused ultrasound, CANCER treatment, ULTRASONIC therapy, BREAST cancer, IMMUNOTHERAPY, CANCER chemotherapy

Abstract

Focused ultrasound is a treatment modality increasingly used for diverse therapeutic applications, and currently approved for several indications, including prostate cancers and uterine fibroids. But what about breast cancer? Breast cancer is the most common and deadliest cancer in women worldwide. While there are different treatment strategies available, there is a need for development of more effective and personalized modalities, with fewer side effects. Therapeutic ultrasound is such an option, and this review summarizes the state of the art in their use for the treatment of breast cancer and evaluate potentials of novel treatment approaches combining therapeutic ultrasound, immuno‐ and chemo‐therapies. [ABSTRACT FROM AUTHOR]

Published

2023

13. Artificial intelligence-assisted ultrasound-guided focused ultrasound therapy: a feasibility study.

Author

Sadeghi-Goughari, Moslem, Rajabzadeh, Hossein, Han, Jeong-woo, and Kwon, Hyock-Ju

Subjects

CHICKEN as food, ULTRASONIC imaging, COMPUTER-assisted image analysis (Medicine), FEASIBILITY studies, ARTIFICIAL intelligence

Abstract

Focused ultrasound (FUS) therapy has emerged as a promising noninvasive solution for tumor ablation. Accurate monitoring and guidance of ultrasound energy is crucial for effective FUS treatment. Although ultrasound (US) imaging is a well-suited modality for FUS monitoring, US-guided FUS (USgFUS) faces challenges in achieving precise monitoring, leading to unpredictable ablation shapes and a lack of quantitative monitoring. The demand for precise FUS monitoring heightens when complete tumor ablation involves controlling multiple sonication procedures. To address these challenges, we propose an artificial intelligence (AI)-assisted USgFUS framework, incorporating an AI segmentation model with B-mode ultrasound imaging. This method labels the ablated regions distinguished by the hyperechogenicity effect, potentially bolstering FUS guidance. We evaluated our proposed method using the Swin-Unet AI architecture, conducting experiments with a USgFUS setup on chicken breast tissue. Our results showed a 93% accuracy in identifying ablated areas marked by the hyperechogenicity effect in B-mode imaging. Our findings suggest that AI-assisted ultrasound monitoring can significantly improve the precision and control of FUS treatments, suggesting a crucial advancement toward the development of more effective FUS treatment strategies. [ABSTRACT FROM AUTHOR]

Published

2023

14. A Cost-Effective Reusable Tissue Mimicking Phantom for High Intensity Focused Ultrasonic Liver Surgery.

Author

Guntur, Sitaramanjaneya Reddy, Kim, Seong-Chan, and Choi, Min-Joo

Subjects

*LIVER surgery, *NONIONIC surfactants, *IMAGING phantoms, *ULTRASONIC equipment, *ACOUSTIC impedance, *ULTRASONICS

Abstract

A polyacrylamide polysaccharide hydrogel (PASG) containing a nonionic surfactant of the polyoxyethylene nonylphenyl ethers series (NP14) has been adapted to the fabrication of a reusable cost-effective ultrasonic tissue-mimicking phantom for real-time visualization of the thermal lesions by high intensity focused ultrasound (HIFU) irradiation. The constructed NP14 (40% in w/v) PASG is optically transparent at room temperatures, and it turns out to be opaque white as heated over the clouding points of about 55 °C and returns to its original transparent state after cooling. The acoustic property of the proposed phantom is similar to those of human liver tissues, which includes the acoustic impedance of 1.68 Mrayls, the speed of sound of 1595 ± 5 m/s, the attenuation coefficient of 0.52 ± 0.05 dB cm−1 (at 1 MHz), the backscatter coefficient of 0.21 ± 0.09 × 10−3 sr−1 cm−1 (at 1 MHz), and the nonlinear parameter B/A of 6.4 ± 0.2. The NP14-PASG was tested to assess the characteristic information (sizes, shapes, and locations) of the thermal lesions visualized when exposed to typical HIFU fields (1.1 MHz, focal pressure up to 20.1 MPa, focal intensity 4075 W/cm2). The proposed NP14-PASG is expected to replace the existing costly BSA-PASG used for more effective testing of the performance of therapeutic ultrasonic devices based on thermal mechanisms. [ABSTRACT FROM AUTHOR]

Published

2022

15. Quantitative Assessment of Boiling Histotripsy Progression Based on Color Doppler Measurements.

Author

Song, Minho, Thomas, Gilles P. L., Khokhlova, Vera A., Sapozhnikov, Oleg A., Bailey, Michael R., Maxwell, Adam D., Yuldashev, Petr V., and Khokhlova, Tatiana D.

Subjects

*COLORIMETRY, *ACOUSTIC radiation force, *HIGH-intensity focused ultrasound, *DOPPLER ultrasonography, *BEAM steering, *MICROBUBBLE diagnosis, *ULTRASONIC imaging, *DIASTOLE (Cardiac cycle)

Abstract

Boiling histotripsy (BH) is a mechanical tissue liquefaction method that uses sequences of millisecond-long high intensity focused ultrasound (HIFU) pulses with shock fronts. The BH treatment generates bubbles that move within the sonicated volume due to acoustic radiation force. Since the velocity of the bubbles and tissue debris is expected to depend on the lesion size and liquefaction completeness, it could provide a quantitative metric of the treatment progression. In this study, the motion of bubble remnants and tissue debris immediately following BH pulses was investigated using high-pulse repetition frequency (PRF) plane-wave color Doppler ultrasound in ex vivo myocardium tissue. A 256-element 1.5 MHz spiral HIFU array with a coaxially integrated ultrasound imaging probe (ATL P4-2) produced 10 ms BH pulses to form volumetric lesions with electronic beam steering. Prior to performing volumetric BH treatments, the motion of intact myocardium tissue and anticoagulated bovine blood following isolated BH pulses was assessed as two limiting cases. In the liquid blood the velocity of BH-induced streaming at the focus reached over 200 cm/s, whereas the intact tissue was observed to move toward the HIFU array consistent with elastic rebound of tissue. Over the course of volumetric BH treatments tissue motion at the focus locations was dependent on the axial size of the forming lesion relative to the corresponding size of the HIFU focal area. For axially small lesions, the maximum velocity after the BH pulse was directed toward the HIFU transducer and monotonically increased over time from about 20–100 cm/s as liquefaction progressed, then saturated when tissue was fully liquefied. For larger lesions obtained by merging multiple smaller lesions in the axial direction, the high-speed streaming away from the HIFU transducer was observed at the point of full liquefaction. Based on these observations, the maximum directional velocity and its location along the HIFU propagation axis were proposed and evaluated as candidate metrics of BH treatment completeness. [ABSTRACT FROM AUTHOR]

Published

2022

16. High-intensity focused ultrasound ablation as an adjuvant surgical salvage procedure in gestational trophoblastic neoplasia chemotherapy with chemoresistance or recurrence: two case reports

Author

Chaokun She, Sha Li, Xiaojun Wang, Xianghui Lu, Hao Liang, and Xiaoyun Liu

Subjects

chemoresistance, chemotherapy, gestational trophoblastic neoplasia, high intensity focused ultrasound (hifu), recurrence, Medical technology, R855-855.5

Abstract

Background Chemotherapy is the main treatment strategy for gestational trophoblastic neoplasia (GTN). Surgical resection is crucial to deal with chemoresistance and recurrence following chemotherapy. The aim of this study was to explore if high-intensity focused ultrasound (HIFU) can be used as a complementary technique to surgical procedures in the management of GTN. Case report This case report described two females who previously developed chemoresistance or recurrence during chemotherapy and then underwent HIFU as an adjuvant surgical salvage procedure. For high-risk GTN patients with chemoresistance, HIFU treatment decreased the risk of chemoresistance and shortened the course of chemotherapy. It also reduced the dosage of chemotherapeutic agents used for the patient who suffered a recurrence. Conclusion For patients with GTN who desire to preserve their uterus, HIFU may be used as a complementary technique to surgical resection in the management of GTN.

Published

2021

17. Ultrasonic Thermal Monitoring of the Brain Using Golay-Coded Excitations—Feasibility Study.

Author

Dahis, Daniel, Farti, Noy, Romano, Tomer, Artzi, Natalie, and Azhari, Haim

Subjects

*ULTRASONICS, *FEASIBILITY studies, *HYDROCEPHALUS, *COOLDOWN, *SIGNAL-to-noise ratio

Abstract

Thermal monitoring during focused ultrasound (FUS) transcranial procedures is mandatory and commonly performed by MRI. Transcranial ultrasonic thermal monitoring is an attractive alternative. Furthermore, using the therapeutic FUS transducer itself for this task is highly desirable. Nonetheless, such application is challenged by massive skull-induced signal attenuation and aberrations. This study examined the feasibility of implementing the Golay-coded excitations (CoE) for temperature monitoring in bovine brain samples in the range of 35 °C–43 °C (hyperthermia). Feasibility was assessed using computer simulations, water-based phantoms, and ex vivo bovine brain white-matter samples. The samples were gradually heated to about 45 °C and sonicated during cool down with a 1-MHz therapeutic FUS implementing Golay CoE. Initially, a calibration curve correlating the normalized time-of-flight (TOF) changes and the temperature was generated. Next, a bovine bone was positioned between the FUS and the brain samples, and the scanning process was repeated for different fresh samples. The calibration curve was then used as a mean for estimating the temperature, which was compared to thermocouple measurements. The simulations demonstrated a substantial improvement in signal-to-noise ratio (SNR) and suggested that the implementation of 4-bit sequences is advantageous. The experimental measurements with bone demonstrated good temperature estimation with an average absolute error for the water phantoms and brains of 1.46 °C ± 1.22 °C and 1.23 °C ± 0.99 °C, respectively. In conclusion, a novel noninvasive method utilizing the Golay CoE for ultrasonic thermal monitoring using a therapeutic FUS transducer is introduced. This method can lead to the development of an acoustic tool for brain thermal monitoring. [ABSTRACT FROM AUTHOR]

Published

2022

18. Compensation for Aberrations of Focused Ultrasound Beams in Transcranial Sonications of Brain at Different Depths.

Author

Chupova, D. D., Rosnitskiy, P. B., Gavrilov, L. R., and Khokhlova, V. A.

Subjects

*ULTRASONIC imaging, *OPTICAL aberrations, *MAGNETIC resonance imaging, *RAYLEIGH waves, *ACOUSTIC models, *WAVE equation

Abstract

The study analyzes the possibilities of compensating for aberrations when focusing an ultrasound beam through the skull bones using arrays with mosaic pattern of elements, curvature radius and aperture of F = D = 200 mm, frequency of 1 MHz, and fully populated randomized pattern of the elements. The effect of the number of elements (256, 512, and 1024) and focusing depth (25–65 mm from the inner surface of the skull) on the quality of aberration correction is considered, i.e., the sharpness of focusing, location of the focus, and the maximum pressure therein. An acoustic model of the human head is constructed from magnetic resonance imaging (MRI) data. The field and compensation for aberrations are calculated using the Rayleigh integral and wave equation in the Kelvin–Voigt model. The possibility of sharp focusing with the focal region width of about 2 mm at the level of 6 dB using the considered arrays is demonstrated within the indicated depth interval. The relative contribution of different wave effects to distortion of the ultrasound beam as it passes through the skull is analyzed. It is shown that the strongest contributions to beam attenuation come from aberrations (7.4 dB) and absorption (6.7 dB). Contributions from reflection (2.1 dB) and shear-wave generation in the skull (2 dB) are less significant. [ABSTRACT FROM AUTHOR]

Published

2022

19. Hepatocellular carcinoma clinical update: Current standards and therapeutic strategies

Author

Steven D. Colquhoun

Subjects

Hepatocellular carcinoma (HCC), Ablation, Transarterial chemoembolization (TACE), High intensity focused ultrasound (HIFU), Stereotactic body radiation therapy (SBRT), Irreversible electroporation (IRE), Diseases of the digestive system. Gastroenterology, RC799-869

Abstract

Hepatocellular carcinoma (HCC) accounts for the vast majority of primary hepatic malignancies. The overall incidence of this disease has always been significant, but in recent years it has continued to rise, now making HCC one of the leading causes of cancer deaths worldwide. Fortunately, research into the mechanisms of carcinogenesis and treatment options for this disease has also been progressing rapidly. Although the future for new insights and therapies appears more promising than ever, it also remains important to understand both the nature of HCC and the current state-of-the-art for treating affected patients. Although surgery is often considered to be a first choice, many patients present with extensive disease and are therefore not operative candidates. Fortunately, significant clinical advances over the last decade have contributed a number of new or improved treatment options. Many of these treatments require expertise from a variety of different clinical subspecialties. Indeed, managing patients with HCC has rapidly become a multi-modality, multi-disciplinary endeavor in which the details of each individual’s circumstance can greatly impact outcomes, and strategies can be quite nuanced. The purpose of this review is to provide a perspective on the disease itself, the patients who become afflicted, the spectrum of currently available treatment options, and the strategies for their optimal implementation. Such knowledge can be critically important as new data become available on the research front.

Published

2020

20. Tolerance and efficacy of HIFU ablation for uterine fibroids NPVR ( 90%: a nested case-control study.

Author

Xue Gong, Dang Liu, Mei-Jie Yang, Rong Zhang, Wen-Zhi Chen, and Jin-Yun Chen

Subjects

UTERINE fibroids, CONTRAST-enhanced magnetic resonance imaging, CASE-control method, ABDOMINAL pain, LONGITUDINAL method

Abstract

Objective: To investigate the tolerance and efficacy of HIFU ablation for uterine fibroids with a non-perfused volume ratio (NPVR) ≥ 90%. Methods: A prospective cohort study of 2411 patients from 20 clinical centers was available. Contrast-enhanced MRI was used to assess the non-perfused volume ratio (NPVR). The International Society of Interventional Radiotherapy (SIR) complication grading system was used as the tolerance index. Uterine Fibroids-related Symptoms-Quality of Life (UFS-QoL) was used to evaluate the efficacy. Results: A total of 1352 patients underwent USgHIFU ablation treatment enrolled, NPVR was median 91.9% (IQR, 81.4%,100.0%). There was 761 case (56.3%) in the NPVR ≥ 90% group in which 17.5% case experienced SIR-B abdominal pain, 591 cases (43.7%) in NPVR < 90% group in which 9.3% case had SIR-B abdominal pain. There were statistically differences in the improvement degree of UFS at 12 months among the four subgroups (NPVR < 70%, 70%–80%, 80%–90%, 90%–100%) (all p < 0.05). Conclusions: Patients with NPVR ≥ 90% had a higher incidence of SIR-B lower abdominal pain. NPVR was positively correlated with the degree of symptom relief at 12 months, and NPVR ≥ 90% was more likely to obtain better clinical symptom relief. [ABSTRACT FROM AUTHOR]

Published

2022

21. Repeated Acoustic Vaporization of Perfluorohexane Nanodroplets for Contrast-Enhanced Ultrasound Imaging.

Author

Namen, Austin Van, Jandhyala, Sidhartha, Jordan, Tomas, and Luke, Geoffrey P.

Subjects

*MICROBUBBLE diagnosis, *CONTRAST-enhanced ultrasound, *ULTRASONIC imaging, *HIGH-intensity focused ultrasound, *ULTRASOUND contrast media, *VAPORIZATION

Abstract

Superheated perfluorocarbon nanodroplets are emerging ultrasound imaging contrast agents that boast biocompatible components, unique phase-change dynamics, and therapeutic loading capabilities. Upon exposure to a sufficiently high-intensity pulse of acoustic energy, the nanodroplet’s perfluorocarbon core undergoes a liquid-to-gas phase change and becomes an echogenic microbubble, providing ultrasound contrast. The controllable activation leads to high-contrast images, while the small size of the nanodroplets promotes longer circulation times and better in vivo stability. One drawback, however, is that the nanodroplets can only be vaporized a single time, limiting their versatility. Recently, we and others have addressed this issue by using a perfluorohexane core, which has a boiling point above body temperature. Thus after vaporization, the microbubbles recondense back into their stable nanodroplet form. Previous work with perfluorohexane nanodroplets relied on optical activation via pulsed laser absorption of an encapsulated dye. This strategy limits the imaging depth and temporal resolution of the method. In this study, we overcome these limitations by demonstrating acoustic droplet vaporization with 1.1-MHz high-intensity focused ultrasound (HIFU). A short-duration, high-amplitude pulse of focused ultrasound provides a sufficiently strong peak negative pressure to initiate vaporization. A custom imaging sequence was developed to enable the synchronization of a HIFU transducer and a linear array imaging transducer. We show a visualization of repeated acoustic activation of perfluorohexane nanodroplets in polyacrylamide tissue-mimicking phantoms. We further demonstrate the detection of hundreds of vaporization events from individual nanodroplets with activation thresholds well below the tissue cavitation limit. Overall, this approach has the potential to result in reliable and repeatable contrast-enhanced ultrasound imaging at clinically relevant depths. [ABSTRACT FROM AUTHOR]

Published

2021

22. The Use of High-Intensity Focused Ultrasound (HIFU) Plus 150mg Bicalutamide as First Line Salvage Therapy for Local Recurrent Prostate Cancer.

Author

Cao, Jian-zhou, Su, Rui, Pan, Jin-feng, Yan, Ze-jun, and Ma, Qi

Subjects

HIGH-intensity focused ultrasound, PROSTATE cancer, SALVAGE therapy, RADICAL prostatectomy, ANDROGEN deprivation therapy, PROSTATE cancer patients

Abstract

Patients with localized prostate cancer (PCa) are often treated with radical prostatectomy (RP). However, more than 30% of such patients have high risk of recurrence. Salvage radiotherapy (SRT), androgen deprivation therapy (ADT) and combination of radiotherapy and ADT are the standard care for recurrent PCa. Recently, high intensity focused ultrasound (HIFU) has gradually applied in the treatment of recurrent PCa. Here, we proposed a hypothesis that combined HIFU and bicalutamide 150mg as first line salvage therapy to treat patients with local recurrent PCa with visible lesions due to the following advantages: (1) HIFU is effective in reducing local tumor load, and bicalutamide 150mg is a feasible and safety option to combine with HIFU. (2) Compared with radiotherapy, HIFU plus 150mg bicalutamide is minimal invasiveness with fewer adverse effects and better quality of life(QOL); (3) Radiotherapy can be preserved as the second-line salvage method in the cases who are failure to HIFU and 150mg bicalutamide combination. More clinical trials are warranted to confirm this hypothesis in treatment with recurrent PCa. [ABSTRACT FROM AUTHOR]

Published

2021

23. The Use of High-Intensity Focused Ultrasound (HIFU) Plus 150mg Bicalutamide as First Line Salvage Therapy for Local Recurrent Prostate Cancer

Author

Jian-zhou Cao, Rui Su, Jin-feng Pan, Ze-jun Yan, and Qi Ma

Subjects

high intensity focused ultrasound (HIFU), anti-androgen therapy, bicalutamide, hypothesis, local recurrent prostate cancer, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Patients with localized prostate cancer (PCa) are often treated with radical prostatectomy (RP). However, more than 30% of such patients have high risk of recurrence. Salvage radiotherapy (SRT), androgen deprivation therapy (ADT) and combination of radiotherapy and ADT are the standard care for recurrent PCa. Recently, high intensity focused ultrasound (HIFU) has gradually applied in the treatment of recurrent PCa. Here, we proposed a hypothesis that combined HIFU and bicalutamide 150mg as first line salvage therapy to treat patients with local recurrent PCa with visible lesions due to the following advantages: (1) HIFU is effective in reducing local tumor load, and bicalutamide 150mg is a feasible and safety option to combine with HIFU. (2) Compared with radiotherapy, HIFU plus 150mg bicalutamide is minimal invasiveness with fewer adverse effects and better quality of life(QOL); (3) Radiotherapy can be preserved as the second-line salvage method in the cases who are failure to HIFU and 150mg bicalutamide combination. More clinical trials are warranted to confirm this hypothesis in treatment with recurrent PCa.

Published

2021

24. The Auto-Regressive Model and Spectrum Information Entropy Judgment Method for High Intensity Focused Ultrasound Echo Signal.

Author

Yan, Shang-Qu, Huang, Zheng, Liu, Bei, Ni, Xu-Sheng, Zhang, Han, Zou, Xiao, and Qian, Sheng-You

Subjects

ENTROPY (Information theory), INFORMATION modeling, HIGH-intensity focused ultrasound, POWER spectra, SENSITIVITY & specificity (Statistics), RECEIVER operating characteristic curves, AUTOREGRESSIVE models

Abstract

For accurate evaluation of high intensity focused ultrasound (HIFU) treatment effect, it is of great importance to effectively judge whether the sampled signal is the HIFU echo signal or the noise signal. In this paper, a judgment method based on an auto-regressive (AR) model and spectrum information entropy is proposed. In total, 188 groups of data are obtained while the HIFU source is on or off through experiments, and these sampled signals are judged by this method. The judgment results of this method are compared with empirical judgments. It is found that when the segment number for the power spectrum estimated by AR model is 14 to 17, the judgment results of this method have a higher consistency with empirical judgments, and Accuracy, Sensitivity and Specificity all have good values. Moreover, after comparing and analyzing this method with the classic power spectrum estimation method, it is found that the recognition rate of the two sampled signals of this method is higher than that of the classic power spectrum estimation method. Therefore, this method can effectively judge the different types of sampled signals. [ABSTRACT FROM AUTHOR]

Published

2021

25. Disseminated peritoneal leiomyomatosis after uterine artery embolization, laparoscopic surgery, and high intensity focused ultrasound for uterine fibroids：a case report

Author

Chunyan Liu, Bojie Chen, Xingmei Tang, and Yu Xiong

Subjects

disseminated peritoneal leiomyomatosis (dpl), uterine fibroids, uterine artery embolization (uae), laparoscopic myomectomy, high intensity focused ultrasound (hifu), Medical technology, R855-855.5

Abstract

Background Disseminated peritoneal leiomyomatosis (DPL) is a rare, generally benign disorder. With the advent of laparoscopic surgery for uterine fibroids, the reported number of cases of DPL has significantly increased since the introduction of unconfined power morcellation. Morcellation and other procedures may be associated with DPL. Methods We present the case of a 48-year-old patient with DPL who underwent uterine artery embolization (UAE), laparoscopic myomectomy and high intensity focused ultrasound (HIFU) 11 years, 6 years, and 2 years before the final diagnosis of DPL was made. A subtotal hysterectomy with bilateral salpingo-oopherectomy was performed to remove the uterus, the fallopian tube and the ovaries. We carefully excised as many visible lesions as possible. Results After the surgical treatment performed in our center the patient became free of symptoms. Conclusion In our case, the occurrence of DPL is most likely associated with laparoscopic myomectomy using power morcellation. In addition, it should be noted whether some other factors played a role in stimulating the growth of the multiple nodules.

Published

2020

26. Analysis of magnetic resonance signal intensity changes in the sacrococcygeal region of patients with uterine fibroids treated with high intensity focused ultrasound ablation

Author

Dandan Li, Chunmei Gong, Jin Bai, and Lian Zhang

Subjects

high intensity focused ultrasound (hifu), uterine fibroids, mr signal intensity changes, sacral injury, leg pain, Medical technology, R855-855.5

Abstract

Objective To evaluate the magnetic resonance (MR) signal intensity changes in the sacrococcygeal region of patients with uterine fibroids treated with high intensity focused ultrasound (HIFU). Materials and Methods Two hundred and sixty-seven patients with uterine fibroids treated with HIFU between January and December 2016 were retrospectively reviewed. All patients underwent enhanced pre- and post-HIFU MRI. Multivariate analysis was used to assess the relationship between the factors and the signal intensity changes in the sacrum and the soft tissue adjacent to the sacrum. Results Among the 267 patients, 122 (46%) had MR signal intensity changes in the sacrum and/or the soft tissue adjacent to the sacrum after HIFU. Multivariate analysis showed that the position of the uterus, the distance from the dorsal side of the fibroid to the sacrum, and the ablation efficiency were significantly correlated with MR signal intensity changes in the sacrum and the soft tissue adjacent to the sacrum. Further analysis showed a significant relationship between the location of the MR signal intensity changes and uterine size, the enhancement degree of the uterus. Leg pain was only seen in patients with MR signal intensity changes both in the sacrum and the soft tissue adjacent to the sacrum. Conclusions The location of the uterus, the distance between the dorsal side of the fibroids to the sacrum, and ablation efficiency have a significant relationship with the MR signal intensity changes. The size of the uterus and the degree of enhancement are related to the locations of MR signal changes.

Published

2020

27. Comparative Effectiveness and Safety of High-Intensity Focused Ultrasound for Uterine Fibroids: A Systematic Review and Meta-Analysis

Author

Yi Wang, Jinsong Geng, Haini Bao, Jiancheng Dong, Jianwei Shi, and Qinghua Xi

Subjects

high intensity focused ultrasound (HIFU), uterine fibroids, meta-analysis, myomectomy, uterine arterial embolisation, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Background: Uterine fibroids are common benign tumors among premenopausal women. High- intensity focused ultrasound (HIFU) is an emerging non-invasive intervention which uses the high-intensity ultrasound waves from ultrasound probes to focus on the targeted fibroids. However, the efficacy of HIFU in comparison with that of other common treatment types in clinical procedure remains unclear.Objective: To investigate the comparative effectiveness and safety of HIFU with other techniques which have been widely used in clinical settings.Methods: We searched the Cochrane Central Register of Controlled Trials, PubMed, EMBASE, Cumulative Index to Nursing & Allied Health Literature, Web of Science, ProQuest Nursing & Allied Health Database, and three Chinese academic databases, including randomized controlled trials (RCTs), non-RCTs, and cohort studies. The primary outcome was the rate of re-intervention, and the GRADE approach was used to interpret the findings.Results: About 18 studies met the inclusion criteria. HIFU was associated with an increased risk of re-intervention rate in comparison with myomectomy (MYO) [pooled odds ratio (OR): 4.05, 95% confidence interval (CI): 1.82–8.9]. The results favored HIFU in comparison with hysterectomy (HYS) on the change of follicle-stimulating hormone [pooled mean difference (MD): −7.95, 95% CI: −8.92–6.98), luteinizing hormone (MD: −4.38, 95% CI: −5.17−3.59), and estradiol (pooled MD: 43.82, 95% CI: 36.92–50.72)]. HIFU had a shorter duration of hospital stay in comparison with MYO (pooled MD: −4.70, 95% CI: −7.46−1.94, p < 0.01). It had a lower incidence of fever (pooled OR: 0.15, 95% CI: 0.06–0.39, p < 0.01) and a lower incidence of major adverse events (pooled OR: 0.04, 95% CI: 0.00–0.30, p < 0.01) in comparison with HYS.Conclusions: High-intensity focused ultrasound may help maintain feminity and shorten the duration of hospital stay. High-quality clinical studies with a large sample size, a long-term follow-up, and the newest HIFU treatment protocol for evaluating the re-intervention rate are suggested to be carried out. Clinical decision should be based on the specific situation of the patients and individual values.

Published

2021

28. Comparative Effectiveness and Safety of High-Intensity Focused Ultrasound for Uterine Fibroids: A Systematic Review and Meta-Analysis.

Author

Wang, Yi, Geng, Jinsong, Bao, Haini, Dong, Jiancheng, Shi, Jianwei, and Xi, Qinghua

Subjects

HIGH-intensity focused ultrasound, UTERINE fibroids, ULTRASONIC imaging, RANDOMIZED controlled trials, FOLLICLE-stimulating hormone

Abstract

Background: Uterine fibroids are common benign tumors among premenopausal women. High- intensity focused ultrasound (HIFU) is an emerging non-invasive intervention which uses the high-intensity ultrasound waves from ultrasound probes to focus on the targeted fibroids. However, the efficacy of HIFU in comparison with that of other common treatment types in clinical procedure remains unclear. Objective: To investigate the comparative effectiveness and safety of HIFU with other techniques which have been widely used in clinical settings. Methods: We searched the Cochrane Central Register of Controlled Trials, PubMed, EMBASE, Cumulative Index to Nursing & Allied Health Literature, Web of Science, ProQuest Nursing & Allied Health Database, and three Chinese academic databases, including randomized controlled trials (RCTs), non-RCTs, and cohort studies. The primary outcome was the rate of re-intervention, and the GRADE approach was used to interpret the findings. Results: About 18 studies met the inclusion criteria. HIFU was associated with an increased risk of re-intervention rate in comparison with myomectomy (MYO) [pooled odds ratio (OR): 4.05, 95% confidence interval (CI): 1.82–8.9]. The results favored HIFU in comparison with hysterectomy (HYS) on the change of follicle-stimulating hormone [pooled mean difference (MD): −7.95, 95% CI: −8.92–6.98), luteinizing hormone (MD: −4.38, 95% CI: −5.17−3.59), and estradiol (pooled MD: 43.82, 95% CI: 36.92–50.72)]. HIFU had a shorter duration of hospital stay in comparison with MYO (pooled MD: −4.70, 95% CI: −7.46−1.94, p < 0.01). It had a lower incidence of fever (pooled OR: 0.15, 95% CI: 0.06–0.39, p < 0.01) and a lower incidence of major adverse events (pooled OR: 0.04, 95% CI: 0.00–0.30, p < 0.01) in comparison with HYS. Conclusions: High-intensity focused ultrasound may help maintain feminity and shorten the duration of hospital stay. High-quality clinical studies with a large sample size, a long-term follow-up, and the newest HIFU treatment protocol for evaluating the re-intervention rate are suggested to be carried out. Clinical decision should be based on the specific situation of the patients and individual values. [ABSTRACT FROM AUTHOR]

Published

2021

29. Analytical and Numerical Model of High Intensity Focused Ultrasound Enhanced With Nanoparticles.

Author

Sadeghi-Goughari, Moslem, Jeon, Soo, and Kwon, Hyock-Ju

Subjects

*HIGH-intensity focused ultrasound, *ULTRASONIC waves, *HEAT, *HEAT transfer, *ULTRASONIC imaging, *THERMAL efficiency

Abstract

Objective: High intensity focused ultrasound (HIFU) is a new noninvasive therapeutics that allows local treatment of solid tumors through a hyperthermal mechanism using ultrasonic energy. One promising strategy to increase the thermal efficiency of HIFU is to employ nanoparticles (NPs) as ultrasound agents for the hyperthermia procedure. However, the interaction mechanism between NPs and ultrasonic waves has not been well understood. Methods: In an effort to investigate the heating process of NPs-enhanced HIFU, we derived a set of HIFU equations governing the temperature variation during the thermal ablation based on the principle of conservation of energy for heat transfer mechanism. A numerical model was developed to solve the HIFU equations to simulate the absorption mechanism of HIFU in the presence of NPs, the consequent heat transfer process, and the temperature rise profile during the sonication period. The accuracy of numerical model was verified by performing a series of experiments on tissue-mimicking phantoms embedded with magnetic NPs (MNPs). Results: The transport processes taking place at the boundaries between NPs and surrounding medium played the major role in the temperature rise during HIFU sonication. Besides, the effects of MNPs on rising temperature were improved by amplifying the ultrasonic power and frequency as well as by increasing the MNP concentration. Conclusion: A quantitative comparison with experimental results demonstrated the potential of the numerical model to accurately predict the heating mechanism of HIFU mediated by NPs. Significance: The proposed method can help with simulation of HIFU when NPs are employed as ultrasound agents. [ABSTRACT FROM AUTHOR]

Published

2020

30. The Auto-Regressive Model and Spectrum Information Entropy Judgment Method for High Intensity Focused Ultrasound Echo Signal

Author

Shang-Qu Yan, Zheng Huang, Bei Liu, Xu-Sheng Ni, Han Zhang, Xiao Zou, and Sheng-You Qian

Subjects

high intensity focused ultrasound (HIFU), auto-regressive (AR) model, spectrum information entropy, classic power spectrum, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

For accurate evaluation of high intensity focused ultrasound (HIFU) treatment effect, it is of great importance to effectively judge whether the sampled signal is the HIFU echo signal or the noise signal. In this paper, a judgment method based on an auto-regressive (AR) model and spectrum information entropy is proposed. In total, 188 groups of data are obtained while the HIFU source is on or off through experiments, and these sampled signals are judged by this method. The judgment results of this method are compared with empirical judgments. It is found that when the segment number for the power spectrum estimated by AR model is 14 to 17, the judgment results of this method have a higher consistency with empirical judgments, and Accuracy, Sensitivity and Specificity all have good values. Moreover, after comparing and analyzing this method with the classic power spectrum estimation method, it is found that the recognition rate of the two sampled signals of this method is higher than that of the classic power spectrum estimation method. Therefore, this method can effectively judge the different types of sampled signals.

Published

2021

31. The Effectiveness of High-Intensity Focused Ultrasound in Treating Nasal Obstruction Caused by Inferior Turbinate Hypertrophy: A Clinical Study.

Author

Al-Hilali AMS, Khalaf AQ, and Yaseen ET

Abstract

Background Nasal obstruction due to inferior turbinate hypertrophy is a common medical complaint among ENT clinic patients, which can significantly affect the patient's quality of life, and some are compelled to use topical intranasal decongestants. Conservative management is the first line of treatment; however, surgical reduction of the inferior turbinate becomes necessary if the symptoms persist after three months of treatment. The optimal surgical technique is controversial. High-intensity focused ultrasound (HIFU) is a minimally invasive surgical option that targets tissue volume precisely and minimally impacts surrounding tissue. This study aimed to assess the effectiveness and safety of HIFU in treating patients suffering from nasal obstruction due to inferior turbinate hypertrophy. Methods This prospective study was conducted from February to December 2016. The study lasted over six months. Patients with a history of allergic and non-allergic rhinitis participated in this study. It included 43 patients who had been experiencing chronic nasal obstruction due to bilateral inferior turbinate hypertrophy and had not shown improvement after three months of medical treatment. The patients underwent Ultrasound Volumetric Tissue Reduction (UVTR) surgery using the D & A Ultrasurg device (Diamant Medical Equipment Ltd., Amman, Jordan) under local anesthesia. The effectiveness, safety, and tolerance of HIFU were assessed subjectively for six months using a well-designed questionnaire utilizing a visual analog scale (VAS) and nasal endoscopy after the surgery. Results The study included 43 patients, 22 male and 21 female, aged 13 to 65 years. The study found that 40 (93%) patients showed significant improvement in nasal obstruction within a month of the surgery. However, three (7%) patients continued to experience persistent nasal obstruction even after six months of follow-up. The procedure was well-tolerated, with low rates of complications after surgery and reasonable pain control. During the surgery, 20 (46.5%) patients reported mild pain described as a pressure-like sensation, and 10 out of 43 patients (23%) required paracetamol after the procedure. Four patients (9.3%) had mild bleeding, which was treated with an ultrasound nasal probe without nasal packing. All patients experienced crusting of the nasal cavity during the first week, but no crustation was observed after the first month. There were no reported cases of synechia among the patients. Conclusion This study confirms that HIFU treatment is a reliable and effective treatment for improving short-term nasal obstruction caused by inferior turbinate hypertrophy. The procedure is easily applied and well-tolerated in outpatient clinics., Competing Interests: The authors have declared that no competing interests exist., (Copyright © 2024, Al-Hilali et al.)

Published

2024

32. Development and validation of a radiomics model based on T2-weighted imaging for predicting the efficacy of high intensity focused ultrasound ablation in uterine fibroids.

Author

Cheng Y, Yang L, Wang Y, Kuang L, Pan X, Chen L, Cao X, and Xu Y

Abstract

Background: The heterogeneity of uterine fibroids in magnetic resonance imaging (MRI) is complex for a subjective visual evaluation, therefore it is difficult for an accurate prediction of the efficacy of high intensity focused ultrasound (HIFU) ablation in fibroids before the treatment. The purpose of this study was to set up a radiomics model based on MRI T2-weighted imaging (T2WI) for predicting the efficacy of HIFU ablation in uterine fibroids, and it would be used in preoperative screening of the fibroids for achieving high non-perfused volume ratio (NPVR)., Methods: A total of 178 patients with uterine fibroids were consecutively enrolled and treated with ultrasound-guided HIFU under conscious sedation between February 2017 and December 2021. Among them, 96 patients with 108 uterine fibroids with high ablation efficacy (NPVR ≥80%, h&#95;NPVR) and 82 patients with 92 fibroids with lower ablation efficacy (NPVR <80%, l&#95;NPVR) were retrospectively analyzed. The transverse T2WI images of fibroids were selected, and the fibroids were delineated slice by slice using ITK-SNAP software. The radiomics analysis was performed to find the imaging biomarker for the construction of a predicting model for the evaluation of the ablation efficacy, including the feature extraction, feature selection and model construction. The prediction model was built by logistic regression and assessed by receiver operating characteristic (ROC) curve, and the prediction efficiency of the two models was compared by Delong test. The ratio of the training set to the testing set was 8:2., Results: The logistic regression model showed that the mean area under the curve (AUC) of the training set was 0.817 [95% confidence interval (CI): 0.755-0.882], and the testing set was 0.805 (95% CI: 0.670-0.941), respectively, which indicated a strong classification ability. The Delong test showed that there was no significant difference in the area under the ROC curve between the training set and testing set (P>0.05)., Conclusions: The radiomics model based on T2WI is feasible and effective for predicting the efficacy of HIFU ablation in treatment of uterine fibroids., Competing Interests: Conflicts of Interest: All authors have completed the ICMJE uniform disclosure form (available at https://qims.amegroups.com/article/view/10.21037/qims-23-916/coif). X.P., L.C. and X.C. are full-time employees of Shanghai United Imaging Intelligence Co., Ltd. The other authors have no conflicts of interest to declare., (2024 Quantitative Imaging in Medicine and Surgery. All rights reserved.)

Published

2024

33. High‐resolution intravascular MRI‐guided perivascular ultrasound ablation.

Author

Liu, Xiaoyang, Ellens, Nicholas, Williams, Emery, Burdette, Everette C., Karmarkar, Parag, Weiss, Clifford R., Kraitchman, Dara, and Bottomley, Paul A.

Subjects

HIGH-intensity focused ultrasound, VENA cava inferior, PSOAS muscles, CATHETER ablation, BLOOD vessels

Abstract

Purpose: To develop and test in animal studies ex vivo and in vivo, an intravascular (IV) MRI‐guided high‐intensity focused ultrasound (HIFU) ablation method for targeting perivascular pathology with minimal injury to the vessel wall. Methods: IV‐MRI antennas were combined with 2‐ to 4‐mm diameter water‐cooled IV‐ultrasound ablation catheters for IV‐MRI on a 3T clinical MRI scanner. A software interface was developed for monitoring thermal dose with real‐time MRI thermometry, and an MRI‐guided ablation protocol developed by repeat testing on muscle and liver tissue ex vivo. MRI thermal dose was measured as cumulative equivalent minutes at 43°C (CEM43). The IV‐MRI IV‐HIFU protocol was then tested by targeting perivascular ablations from the inferior vena cava of 2 pigs in vivo. Thermal dose and lesions were compared by gross and histological examination. Results: Ex vivo experiments yielded a 6‐min ablation protocol with the IV‐ultrasound catheter coolant at 3‐4°C, a 30 mL/min flow rate, and 7 W ablation power. In 8 experiments, 5‐ to 10‐mm thick thermal lesions of area 0.5‐2 cm2 were produced that spared 1‐ to 2‐mm margins of tissue abutting the catheters. The radial depths, areas, and preserved margins of ablation lesions measured from gross histology were highly correlated (r ≥ 0.79) with those measured from the CEM43 = 340 necrosis threshold determined by MRI thermometry. The psoas muscle was successfully targeted in the 2 live pigs, with the resulting ablations controlled under IV‐MRI guidance. Conclusion: IV‐MRI‐guided, IV‐HIFU has potential as a precision treatment option that could preserve critical blood vessel wall during ablation of nonresectable perivascular tumors or other pathologies. [ABSTRACT FROM AUTHOR]

Published

2020

34. Analysis of magnetic resonance signal intensity changes in the sacrococcygeal region of patients with uterine fibroids treated with high intensity focused ultrasound ablation.

Author

Li, Dandan, Gong, Chunmei, Bai, Jin, and Zhang, Lian

Abstract

To evaluate the magnetic resonance (MR) signal intensity changes in the sacrococcygeal region of patients with uterine fibroids treated with high intensity focused ultrasound (HIFU). Two hundred and sixty-seven patients with uterine fibroids treated with HIFU between January and December 2016 were retrospectively reviewed. All patients underwent enhanced pre- and post-HIFU MRI. Multivariate analysis was used to assess the relationship between the factors and the signal intensity changes in the sacrum and the soft tissue adjacent to the sacrum. Among the 267 patients, 122 (46%) had MR signal intensity changes in the sacrum and/or the soft tissue adjacent to the sacrum after HIFU. Multivariate analysis showed that the position of the uterus, the distance from the dorsal side of the fibroid to the sacrum, and the ablation efficiency were significantly correlated with MR signal intensity changes in the sacrum and the soft tissue adjacent to the sacrum. Further analysis showed a significant relationship between the location of the MR signal intensity changes and uterine size, the enhancement degree of the uterus. Leg pain was only seen in patients with MR signal intensity changes both in the sacrum and the soft tissue adjacent to the sacrum. The location of the uterus, the distance between the dorsal side of the fibroids to the sacrum, and ablation efficiency have a significant relationship with the MR signal intensity changes. The size of the uterus and the degree of enhancement are related to the locations of MR signal changes. [ABSTRACT FROM AUTHOR]

Published

2020

35. Bone remodeling following MR-guided focused ultrasound: Evaluation with HR-pQCT and FTIR.

Author

Bucknor, Matthew D., Goel, Harsh, Pasco, Courtney, Horvai, Andrew E., and Kazakia, Galateia J.

Subjects

*PERIOSTEUM, *OSTEOARTHRITIS, *BONE tumors, *ZYGAPOPHYSEAL joint, *BENIGN tumors, *BONE remodeling

Abstract

Abstract Magnetic resonance-guided focused ultrasound (MRgFUS) is a novel non-invasive ablation technique that uses focused sound energy to destroy focal tumors, primarily via heat deposition. It is widely used for palliation of pain from bone metastases and has also recently gained popularity as a technique for ablation of benign bone tumors and facet degenerative joint disease (rhizotomy). Clinically, in a subset of patients who have undergone MRgFUS of bone, a variety of treatment responses have been noted on follow-up imaging, including focal sclerosis within the target lesion or more exuberant proliferative changes associated with the periosteum. In this study, high resolution peripheral quantitative CT (HR-pQCT) was used to evaluate remodeling of bone following ablation in a swine model of MRgFUS and compared to samples from a control, non-treated femur. Within each treated femur, two lesions were created: a higher energy focused ultrasound dose was used for one lesion compared to a lower energy dose for the second lesion. Exuberant, extra-cortical bone formation was detected at the higher energy ablation zones, with volumes ranging from 340 mm3 to 1040 mm3. More subtle endosteal and cortical changes were detected in the lower energy ablation zones, however cortical thickness was significantly increased at these sites compared to control bone. For both high and low energy lesions, lower bone mineral density and tissue mineral density was noted in treated regions compared to control regions, consistent with the formation of newly mineralized tissue. Following HR-pQCT analysis, Fourier transform infrared (FTIR) spectroscopy was subsequently used to detect biochemical changes associated with remodeling of bone following MRgFUS, and compared to samples from the control, non-treated femur. Findings were compared with histopathologic examination following hematoxylin-eosin staining. FTIR analysis demonstrated lower mineral/phosphate ratio and increased crystallinity compared to the control samples (p = 0.013). Histopathologic review demonstrated associated areas of endosteal inflammation, scarring, fat necrosis, and new extra-cortical bone formation associated with the ablations. Overall, these findings provide novel characterization of new bone formation following MRgFUS ablation. Highlights • MRgFUS of bone can cause new bone formation associated with higher energies. • HR-pQCT is sensitive to increases in bone mineral density after MRgFUS over 6 weeks. • Changes in bone maturity after MRgFUS can be evaluated with FTIR analysis. [ABSTRACT FROM AUTHOR]

Published

2019

36. Thermal Ablation and High-Resolution Imaging Using a Back-to-Back (BTB) Dual-Mode Ultrasonic Transducer: In Vivo Results

Author

Hae Gyun Lim, Hyunhee Kim, Kyungmin Kim, Jeongwoo Park, Yeonggeun Kim, Jinhee Yoo, Dasom Heo, Jinhwan Baik, Sung-Min Park, and Hyung Ham Kim

Subjects

back-to-back structure, dual-mode transducer, high-frequency ultrasonic imaging, high intensity focused ultrasound (HIFU), high-resolution imaging, Chemical technology, TP1-1185

Abstract

We present a back-to-back (BTB) structured, dual-mode ultrasonic device that incorporates a single-element 5.3 MHz transducer for high-intensity focused ultrasound (HIFU) treatment and a single-element 20.0 MHz transducer for high-resolution ultrasound imaging. Ultrasound image-guided surgical systems have been developed for lesion monitoring to ensure that ultrasonic treatment is correctly administered at the right locations. In this study, we developed a dual-element transducer composed of two elements that share the same housing but work independently with a BTB structure, enabling a mode change between therapy and imaging via 180-degree mechanical rotation. The optic fibers were embedded in the HIFU focal region of ex vivo chicken breasts and the temperature change was measured. Images were obtained in vivo mice before and after treatment and compared to identify the treated region. We successfully acquired B-mode and C-scan images that display the hyperechoic region indicating coagulation necrosis in the HIFU-treated volume up to a depth of 10 mm. The compact BTB dual-mode ultrasonic transducer may be used for subcutaneous thermal ablation and monitoring, minimally invasive surgery, and other clinical applications, all with ultrasound only.

Published

2021

37. Focused ultrasound in ophthalmology

Author

Silverman RH

Subjects

Ophthalmic ultrasound, Ultrasound Biomicroscopy (UBM), High Intensity Focused Ultrasound (HIFU), ultrafast imaging, Ophthalmology, RE1-994

Abstract

Ronald H Silverman1,2 1Department of Ophthalmology, Columbia University Medical Center, 2F.L. Lizzi Center for Biomedical Engineering, Riverside Research, New York, NY, USA Abstract: The use of focused ultrasound to obtain diagnostically significant information about the eye goes back to the 1950s. This review describes the historical and technological development of ophthalmic ultrasound and its clinical application and impact. Ultrasound, like light, can be focused, which is crucial for formation of high-resolution, diagnostically useful images. Focused, single-element, mechanically scanned transducers are most common in ophthalmology. Specially designed transducers have been used to generate focused, high-intensity ultrasound that through thermal effects has been used to treat glaucoma (via cilio-destruction), tumors, and other pathologies. Linear and annular transducer arrays offer synthetic focusing in which precise timing of the excitation of independently addressable array elements allows formation of a converging wavefront to create a focus at one or more programmable depths. Most recently, linear array-based plane-wave ultrasound, in which the array emits an unfocused wavefront and focusing is performed solely on received data, has been demonstrated for imaging ocular anatomy and blood flow. While the history of ophthalmic ultrasound extends back over half-a-century, new and powerful technologic advances continue to be made, offering the prospect of novel diagnostic capabilities. Keywords: ophthalmic ultrasound, ultrasound biomicroscopy (UBM), high-intensity focused ultrasound (HIFU), ultrafast imaging, Doppler imaging

Published

2016

38. Numerical analysis of thermal response of tissues subjected to high intensity focused ultrasound.

Author

Gupta, Pragya and Srivastava, Atul

Subjects

*NUMERICAL analysis, *HEAT, *TISSUES, *TEMPERATURE distribution, *THERMAL analysis, *ACOUSTIC wave propagation

Abstract

The present work is concerned with the numerical investigation of the thermal response of tissue-mimicking biological phantom(s) subjected to high intensity focused ultrasound (HIFU). Simulations have been performed on the 3-dimensional physical domain for two-layered as well as multi-layered medium consisting of water and liver tissue. Local pressure distribution within the body of the phantom has been calculated by solving the complete full-wave nonlinear form of Westervelt equation. The solution of the pressure wave equation has been coupled with Pennes bioheat transfer equation to determine the full field temperature distribution. Results in the form of pressure fields, temperature distributions and the corresponding thermal dosage in the targeted region of the tissue domain have been presented. Magnitudes of the maximum pressure (and hence the resultant temperature levels) in the focal region as obtained using the nonlinear form of Westervelt equation are found to be significantly higher than that determined based on the linear form of the equation. Compared to water, wherein the acoustic intensity is maximum, the addition of sub-layers of skin, fat, and muscle into water resulted in the reduction of the peak intensity and also shifted the intensity profiles along the direction of propagation of the acoustic waves. However, addition of liver tissue into water led to the shifting of intensity profile in the opposite direction i.e., towards the transducer. The results further reveal that due to the dependence of attenuation coefficient on the source frequency, the temperature at the focal region increases with an increase in the transducer frequency. The work is further extended from single lesion to multiple lesion generation through controlled movement of the transducer and the resultant transient full field temperature distribution has been presented. The concerned observations highlight the need of optimizing the thermal energy for each lesion, the inter spatial distance between different lesions and the delay time so as to ensure minimal thermal damage to the surrounding healthy cells as well as to reduce the total treatment duration. [ABSTRACT FROM AUTHOR]

Published

2018

39. A review on the use of magnetic fields and ultrasound for non-invasive cancer treatment.

Author

Sengupta, Somoshree and Balla, Vamsi K.

Subjects

*CANCER treatment, *CANCER chemotherapy, *HORMONE therapy, *ANTINEOPLASTIC agents, *CANCER cells, *METASTASIS, TUMOR surgery

Abstract

Graphical abstract Abstract Current popular cancer treatment options, include tumor surgery, chemotherapy, and hormonal treatment. These treatments are often associated with some inherent limitations. For instances, tumor surgery is not effective in mitigating metastases; the anticancer drugs used for chemotherapy can quickly spread throughout the body and is ineffective in killing metastatic cancer cells. Therefore, several drug delivery systems (DDS) have been developed to target tumor cells, and release active biomolecule at specific site to eliminate the side effects of anticancer drugs. However, common challenges of DDS used for cancer treatment, include poor site-specific accumulation, difficulties in entering the tumor microenvironment, poor metastases and treatment efficiency. In this context, non-invasive cancer treatment approaches, with or without DDS, involving the use of light, heat, magnetic field, electrical field and ultrasound appears to be very attractive. These approaches can potentially improve treatment efficiency, reduce recovery time, eliminate infections and scar formation. In this review we focus on the effects of magnetic fields and ultrasound on cancer cells and their application for cancer treatment in the presence of drugs or DDS. [ABSTRACT FROM AUTHOR]

Published

2018

40. Method for Designing Multielement Fully Populated Random Phased Arrays for Ultrasound Surgery Applications.

Author

Rosnitskiy, Pavel B., Vysokanov, Boris A., Gavrilov, Leonid R., Sapozhnikov, Oleg A., and Khokhlova, Vera A.

Subjects

*ULTRASONIC imaging, *PHASED array antennas, *TESSELLATIONS (Mathematics), *ELECTRONICS, *POLYGONS

Abstract

Maximizing the power of multielement phased arrays is a critical factor for high-intensity focused ultrasound (HIFU) applications such as histotripsy and transcostal sonications. This can be achieved by a tight packing of the array elements. Good electronic focusing capabilities are also required. Currently used quasi-random arrays with a relatively low filling factor of about 60% have this focusing ability. Here, a novel method of designing random HIFU arrays with the maximum possible filling factor (100% if no gaps between elements needed in practice are introduced) and polygonal elements of equal area and slightly different shapes based on the capacity-constrained tessellation is described. The method is validated by comparing designs of two arrays with the same geometric and physical parameters: an existing 256-element array with a compact 16-spirals layout of circular elements and the proposed array with the maximum possible filling factor. Introduction of a 0.5-mm gap between the elements of the new array resulted in a reduction of its filling factor to 86%, as compared with 61% for the spiral array. It is shown that for the same intensity at the elements, the proposed array provides two times higher total power while maintaining the same electronic focusing capabilities as compared to the spiral one. Furthermore, the surface of the capacity-constrained tessellation array, its boundary, and a central opening can have arbitrary shapes. [ABSTRACT FROM PUBLISHER]

Published

2018

41. Evaluation of Quality of Life Outcomes Following Palliative Treatment of Bone Metastases with Magnetic Resonance-guided High Intensity Focused Ultrasound: An International Multicentre Study.

Author

Harding, D., Giles, S.L., Brown, M.R.D., ter Haar, G.R., van den Bosch, M., Bartels, L.W., Kim, Y.-S., Deppe, M., and deSouza, N.M.

Subjects

*CANCER pain treatment, *BONE metastasis, *CANCER patient psychology, *MAGNETIC resonance imaging, *MEDICAL cooperation, *PALLIATIVE treatment, *QUALITY of life, *QUESTIONNAIRES, *RESEARCH, *ULTRASONIC therapy, *PAIN measurement, *TREATMENT effectiveness, *DESCRIPTIVE statistics, *THERAPEUTICS

Abstract

Aims To determine quality of life (QoL) outcomes after palliation of pain from bone metastases using magnetic resonance-guided high intensity focused ultrasound (MR-guided HIFU), measured using the European Organization for Research and Treatment of Cancer (EORTC) QLQ-C15-PAL and the QLQ-BM22 questionnaires. Materials and methods Twenty patients undergoing MR-guided HIFU in an international multicentre trial self-completed the QLQ-C15-PAL and QLQ-BM22 questionnaires before and on days 7, 14, 30, 60 and 90 post-treatment. Descriptive statistics were used to represent changes in symptom and functional scales over time and to determine their clinical significance. QoL changes were compared in pain responders and non-responders (who were classified according to change in worst pain score and analgesic intake, between baseline and day 30). Results Eighteen patients had analysable QoL data. Clinically significant improvements were seen in the QoL scales of physical functioning, fatigue, appetite loss, nausea and vomiting, constipation and pain in the 53% of patients who were classified as responders at day 30. No significant changes were seen in the 47% of patients who were non-responders at this time point. Conclusion Local treatment of pain from bone metastases with MR-guided HIFU, even in the presence of disseminated malignancy, has a substantial positive effect on physical functioning, and improves other symptomatic QoL measures. This indicated a greater response to treatment over and above pain control alone. MR-guided HIFU is non-invasive and should be considered for patients with localised metastatic bone pain and poor QoL. [ABSTRACT FROM AUTHOR]

Published

2018

42. Treatment of benign thyroid nodules by high intensity focused ultrasound (HIFU) at different acoustic powers: a study on in-silico phantom.

Author

Bini, Fabiano, Trimboli, Pierpaolo, Marinozzi, Franco, and Giovanella, Luca

Abstract

Background: The non-surgical therapies of benign thyroid nodules are gaining momentum due to the possibility to reduce the nodule’s volume and avoid surgery. As the last technique introduced, high intensity focused ultrasound allows the thermal tissue treatment by directing energy inside the targeted nodule with no invasive instruments. In the present study we applied the Food and Drug Administration high intensity focused ultrasound simulator to in-silico phantom to evaluate the effects obtained by different acoustic powers.Methods: The simulated layers were water and thyroid tissue. The source was a spherically curved circular transducer with radius r   = 2.3 cm generating a continuous wave beam at a frequency of 3 MHz. The focal distance was 6.5 cm. The sequence included a pulse (8 s) with acoustic power at different value from 5 to 50 W, and a cooling-off interval (32 s).Results: The use of acoustic power of 5 W allowed to achieve the threshold of temperature for coagulative necrosis (55 °C) at 1 s. The simulation with 50 W showed that temperature was significantly higher (above 300 °C) at 1 s and is maintained at high levels for a long interval.Conclusion: Since 2016, we treated patients according to the present experience, and a significant reduction of nodule’s volume was observed with good patent’s comfort and no complications (unpublished data). Also, no anesthesia was practiced. We feel that the present data could contribute to develop a high intensity focused ultrasound therapy of benign thyroid nodules free from potential complications. [ABSTRACT FROM AUTHOR]

Published

2018

43. Information support on high intensity focused ultrasound and cryotherapy for treating localised prostate cancer.

Author

Abu, Victor

Subjects

PROSTATE tumors treatment, ONCOLOGY nursing, COLD therapy, ENDOSCOPIC surgery, HEALTH, INTERVIEWING, RESEARCH methodology, MEN'S health, STATISTICAL sampling, ULTRASONIC therapy, UROLOGICAL nursing, INFORMATION resources, SOCIAL support, THEMATIC analysis, PATIENT decision making

Abstract

Aim Patients diagnosed with localised prostate cancer have a choice between comparable standard treatments, and developing focal therapy, with high intensity focused ultrasound (HIFU) and cryotherapy. Growing numbers of men are attracted to focal therapy because of its minimal invasive, and lesser side effect, profile. Knowledge about information support for standard treatments is well established, but there is a lack of evidence on focal therapy information support. The aim of this study is to examine the information support received by men who select focal therapy, with HIFU and cryotherapy, for the treatment of localised prostate cancer to identify the sources of information and the factors that influence choice of treatment. Method Convenient sampling was used to recruit eight participants who received treatment with either HIFU or cryotherapy. Data were collected through semi-structured telephone interviews and analysed by thematic approach. Findings There is a lack of information support on focal therapy during clinical consultations with urologists and oncologists. Choice of treatment is influenced by information on minimal-invasive, and lesser side effect, profiles and there is a desire for quality information support at treatment centres to enable informed decision-making. Conclusion It is vital to provide greater public access to quality information and support patients in making an informed choice between standard and developing prostate cancer treatments. Support from urology nurse specialists, and access to reputable websites and other information sources, will contribute to quality information. [ABSTRACT FROM AUTHOR]

Published

2018

44. Synergistic Effects of Nanodrug, Ultrasound Hyperthermia, and Thermal Ablation on Solid Tumors?An Animal Study.

Author

Chiu, Li-Chen, Wu, Sheng-Kai, Lin, Win-Li, and Chen, Gin-Shin

Subjects

*BREAST cancer, *CANCER cells, *CANCER treatment, *TUMOR treatment, *CANCER chemotherapy

Abstract

Objective: Delivery barriers of nanodrug in large tumors due to heterogeneous blood supply, elevated interstitial pressure, and long transport distances can degrade the efficacy of cancer treatment. In this study, we proposed a therapeutic strategy to improve the tumor growth inhibition by injecting pegylated liposomal doxorubicin (PLD), and then applying a short time of ultrasound hyperthermia (HT) on the entire solid tumor, and inflicting ultrasound thermal ablation (Ab) in the low-perfused tumor region. Methods: BALB/c female mice with an average weight of 20 g were adopted and murine breast cancer cells 4T1 were subcutaneously implanted into the flank. A 1.0-MHz planar and a 0.47-MHz focused ultrasound transducers were used, respectively, for the HT and Ab treatment. Results: For a PLD dose of 5 mg/kg, the PLD + HT(42 °C, 10 min) group caused a significant decrease in the tumor size as compared with the control and the PLD group, but there were no significant differences between the PLD + HT group and the PLD + Ab(56 °C, 49 s) + HT group. For a PLD dose of 3 mg/kg, the tumor sizes among the four groups were mutually significant. The level of reduction in tumor was PLD + Ab + HT > PLD + HT > PLD > control. Conclusion: The combination of anticancer nanodrug and ultrasound thermal treatment could remarkably suppress cancer tumor growth with a minimum compromise of side effects. Significance: The strategy of using thermal Ab in locations that are not reached by nanodrug with mild HT shows a promising potential for the entire tumor treatment. [ABSTRACT FROM PUBLISHER]

Published

2017

45. Sonodynamic Therapy Based on Combined Use of Low Dose Administration of Epirubicin-Incorporating Drug Delivery System and Focused Ultrasound.

Author

Maeda, Masanori, Muragaki, Yoshihiro, Okamoto, Jun, Yoshizawa, Shin, Abe, Nobutaka, Nakamoto, Hidekazu, Ishii, Hiroshi, Kawabata, Kenichi, Umemura, Shinichiro, Nishiyama, Nobuhiro, Kataoka, Kazunori, and Iseki, Hiroshi

Subjects

*THERAPEUTICS, *CANCER treatment, *ULTRASONIC imaging, *REACTIVE oxygen species, *ANTHRACYCLINES, *ANIMAL experimentation, *ANTINEOPLASTIC antibiotics, *BIOLOGICAL models, *COMBINED modality therapy, *DRUG delivery systems, *DOSE-effect relationship in pharmacology, *MICE, *ULTRASONIC therapy, *EPIRUBICIN

Abstract

Sonodynamic therapy (SDT) is currently considered as one of the promising minimally invasive treatment options for solid cancers. SDT is based on the combined use of a sonosensitizer drug and high-intensity focused ultrasound (HIFU) to produce cytotoxic reactive oxygen species (ROS) in and around neoplastic cells. Anthracycline drugs, including epirubicin (EPI), have been well known as effective sonosensitizers after interaction with focused ultrasound. Recently a new anticancer drug delivery system (DDS), NC-6300, has been developed that comprises EPI through an acid-labile hydrazone bond. In previous in vivo studies, NC-6300 showed basic drug safety and an excellent concentration property of EPI, and recently has been tested in clinical trials. For realizing minimally invasive cancer treatment, the present study demonstrated the effectiveness and feasibility of DDS-based SDT, which combined a small dose of NC-6300 and low energy of HIFU in mouse models of colon cancer and pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published

2017

46. The efficacy of a new high intensity focused ultrasound therapy for locally advanced pancreatic cancer.

Author

Zhao, Jing, Zhao, Fuguang, Shi, Yulan, Deng, Yongchuan, Hu, Xiaoye, and Shen, Hong

Subjects

*CANCER patients, *PANCREATIC cancer, *PANCREATIC cancer treatment, *PANCREATIC cancer diagnosis, *THERAPEUTIC use of ultrasonic imaging, *KARNOFSKY Performance Status, *HEALTH surveys

Abstract

Purpose: To compare the survival benefit and safety of the low power cumulative and traditional high intensity focused ultrasound (HIFU) for locally advanced pancreatic cancer. Method: We retrospectively analyzed 38 patients with locally advanced, inoperable, stage III pancreatic patients received HIFU treatment between January 2008 and April 2014 in the Department of Surgery, the Second Affiliated Hospital, Zhejiang University, School of Medicine. 11 of them received the low power cumulative HIFU treatment, while other 27 received the traditional HIFU treatment. The HIFU device used was the FEP-BY02 (Yuande Biomedical Engineering Co. Ltd, Beijing, China). Serum biochemistry and adverse events were assessed before and after treatment. All the patients were followed up until death. The survival rate and adverse events of two groups were compared. Results: In 38 patients, the baseline characteristics including gender, age, Karnofsky performance status (KPS) score, tumor location of two groups were generally well balanced ( P > 0.05). The median overall survival (OS) for low power cumulative HIFU group was 10.3 months (95% CI, 6.3-14.3 months), which is significantly longer than traditional HIFU group with 6.0 months (95% CI, 5.2-6.8 months) ( P = 0.018). In low power cumulative HIFU group, the 6-month and 12-month survival rates were higher than traditional group, 100% v.s 44.4%, 11.1% v.s 36.4%, respectively. The adverse events in both groups include abdominal pain, fever, C-reactive protein (CRP) elevated. The incidence was lower in low power cumulative HIFU group, however, without statistical significance. Conclusion: The low power cumulative HIFU treatment showed a statistical significance in survival benefit with better safety profile compared to the traditional HIFU treatment in patients with locally advanced pancreatic cancer. [ABSTRACT FROM AUTHOR]

Published

2017

47. Ablative techniques for the treatment of benign and malignant breast tumours.

Author

Peek, Mirjam C. L. and Douek, Michael

Subjects

*BREAST tumor treatment, *ABLATION techniques, *ULTRASONIC imaging of cancer

Abstract

Minimally invasive techniques like high intensity focused ultrasound, radiofrequency ablation, cryo-ablation, laser ablation and microwave ablation have been used to treat both breast fibroadenomata and breast cancer as an alternative to surgical excision, potentially reducing the complications, improving cosmesis and reducing hospital stay. This review describes the most common minimally invasive techniques available, their history and some of the studies performed with these techniques in both benign and malignant lesions. In addition we described some of the difficulties of using these minimally invasive techniques such as optimization of anaesthesia, imaging and immobilisation in order to increase the complete histopathological ablation rates. [ABSTRACT FROM AUTHOR]

Published

2017

48. High intensity focused ultrasound treatment of adenomyosis: The relationship between the features of magnetic resonance imaging on T2 weighted images and the therapeutic efficacy.

Author

Gong, Chunmei, Setzen, Raymond, Liu, Zhongqiong, Liu, Yunchang, Xie, Bin, Aili, Aixingzi, and Zhang, Lian

Subjects

*ULTRASONIC imaging, *ENDOMETRIOSIS, *MAGNETIC resonance imaging, *DRUG efficacy, *ENERGY consumption, *TREATMENT effectiveness, *RETROSPECTIVE studies, *ABLATION techniques

Abstract

Objectives: To investigate the relationship between the features of magnetic resonance imaging (MRI) on T2 weighted images (T2WI) and the therapeutic efficacy of high intensity focused ultrasound (HIFU) on adenomyosis.Materials and Methods: From January 2011 to November 2015, four hundred and twenty-eight patients with symptomatic adenomyosis were treated with HIFU. Based on the signal intensity and the number of hyperintense foci in the adenomyotic lesions on T2WI, the patients were classified into groups. The day after HIFU ablation patients underwent contrast-enhanced MRI and a comparison was made of non-perfused volume (NPV) ratio, energy efficiency factor (EEF), treatment time, sonication time, and adverse effects.Results: No significant difference in terms of HIFU treatment settings and results was observed between the group of patients with hypointense adenomyotic lesions and the group with isointense adenomyotic lesions (P>0.05). However, the sonication time and EEF were significantly higher in the group with multiple hyperintense foci compared to the group with few hyperintense foci. The NPV ratio achieved in the lesions with multiple hyperintenese foci was significantly lower than that in the lesions with few hyperintense foci (P<0.05). No significant difference was observed in the rate of adverse effects between the two groups.Conclusions: Based on our results, the response of the adenomyotic lesions to HIFU treatment is not related to the signal intensity of adenomyotic lesions on T2WI. However, the number of the high signal intensity foci in the adenomyotic lesions on T2WI can be considered as a predictive factor to help select patients for HIFU treatment. [ABSTRACT FROM AUTHOR]

Published

2017

49. Should Ultrasound-Guided High Frequency Focused Ultrasound Be Considered as an Alternative Non-Surgical Treatment of Uterine Fibroids in Non-Asiatic Countries? An Opinion Paper

Author

Luz Angela Torres-de la Roche, Sarah Rafiq, Rajesh Devassy, Hugo Christian Verhoeven, Sven Becker, and Rudy Leon De Wilde

Subjects

focused ultrasound, Medicine, ultrasound guided intervention procedures, General Medicine, uterine fibroids, uterine-sparing treatment, high intensity focused ultrasound (HIFU)

Abstract

Minimally invasive interventions for myomata treatment have gained acceptance due to the possibility of preserving fertility with reduced trauma induced by laparotomy as way of entrance. There are insufficient data regarding outcomes of high intensity focused ultrasound (HIFU) in non-Asiatic women. Therefore, we revised the available evidence to present an expert opinion that could support physicians, patients and policy-makers for considering this approach in other populations. We revisited systematic reviews, randomized controlled trials and cohort studies from January 2018 to August 2021 using PubMed and Google scholar, regarding short and long term outcomes after ablation with focused ultrasound waves. In total, 33 studies, including 114,810 adult patients showed that outcomes of this approach depend on several parameters directly related with resistance to thermal ablation, especially fibroid size and vascularization. Two studies report satisfactory outcomes in Afro-American women. In accordance to the technique used, fibroid volume reduction showed to be higher in fibroids

Published

2022

50. Acute effects of sono-activated photocatalytic titanium dioxide nanoparticles on oral squamous cell carcinoma.

Author

Moosavi Nejad, S., Takahashi, Hiromasa, Hosseini, Hamid, Watanabe, Akiko, Endo, Hitomi, Narihira, Kyoichi, Kikuta, Toshihiro, and Tachibana, Katsuro

Subjects

*SONOCHEMISTRY, *PHOTOCATALYSIS, *TITANIUM dioxide nanoparticles, *SQUAMOUS cell carcinoma, *ULTRASONIC waves, *CANCER treatment, *CELL survival

Abstract

Sonodynamic therapy (SDT) is a new treatment modality using ultrasound to activate certain chemical sensitizers for cancer therapy. In this study, effects of high intensity focused ultrasound (HIFU) combined with photocatalytic titanium dioxide (TiO 2 ) nanoparticles on human oral squamous cell line HSC-2 were investigated. Viability of HSC-2 cells after 0, 0.1, 1, or 3 s of HIFU irradiation with 20, 32, 55 and 73 W cm −2 intensities in the presence or absence of TiO 2 was measured immediately after the exposures in vitro . Immediate effects of HIFU (3 s, 73 W cm −2 ) combined with TiO 2 on solid tumors were also examined by histological study. Cytotoxic effect of HIFU + TiO 2 in vitro was significantly higher than that of TiO 2 or HIFU alone with the tendency to increase for higher HIFU intensity, duration, and TiO 2 concentration in the suspension. In vivo results showed significant necrosis and tissue damage in HIFU and HIFU + TiO 2 treated samples. However, penetration of TiO 2 nanoparticles into the cell cytoplasm was only observed in HIFU + TiO 2 treated tissues. In this study, our findings provide a rational basis for the development of an effective HIFU based sonodynamic activation method. This approach offers an attractive non-invasive therapy technique for oral cancer in future. [ABSTRACT FROM AUTHOR]

Published

2016