Search

Your search keyword '"Thermal lesion"' showing total 211 results
Start Over Descriptor "Thermal lesion"
211 results on '"Thermal lesion"'

1. Scatterer spacing based on Gabor atoms matched from harmonic ultrasound echoes to improve assessment of microwave‐induced thermal lesions.

Author

Zeng, Xiuhua, Zhang, Yufeng, Li, Zhiyao, Yang, Jian, Gao, Lian, and Zhang, Junhua

Subjects
*RECEIVER operating characteristic curves, *STANDARD deviations, *CRITICAL temperature, *LIVER tumors, *ANALYSIS of variance
Abstract

Background Purpose Methods Results Conclusion Microwave ablation (MWA) is a minimally invasive alternative for the treatment of unresectable liver tumors. To verify the effectiveness and safety of MWA, it is critical to measure the temperature variation and assess the regions of the microwave‐induced thermal lesions.Recent studies have indicated that the locations of optimally matched Gabor atoms (LOMGA) from ultrasound radiofrequency (RF) echo signals allow accurate and stable scatterer spacing estimation. Herein, a harmonic‐based LOMGA method is proposed to estimate the scatterer spacing for improving the assessment of microwave‐induced thermal lesions.The mean scatterer spacing (MSS) is estimated via the LOMGA method incorporating the selection of concise atoms from separated second‐harmonic RF echo signals with the pulse‐inversion algorithm for thermal lesion evaluation. In vitro experiments, 10 fresh porcine liver samples were ablated at different time nodes during the ablation period, and 200 sets of second‐harmonic and fundamental RF echo signals were randomly selected from the regions of interest in the coagulated liver samples for MSS estimation. The means and standard deviations of the MSSs, as well as the linear regression for the mean MSSs, were calculated from fundamental and second‐harmonic signals for comparison and evaluation, the receiver operating characteristic (ROC) curves for the 200 sets of fundamental‐based and harmonic‐based MSS estimates from the 10 liver samples at five pairs of adjacent time nodes were calculated, and one‐way analysis of variance (ANOVA) tests were performed for the five pairs of adjacent time nodes. The fundamental and harmonic‐based p‐values in the ANOVA tests and the areas under the ROC curves (AUCs) were calculated to statistically analyze the differences in the MSSs between adjacent time nodes.The harmonic‐based increments in the intensity variation and coherent components were larger than the fundamental‐based increments with the increasing ablation time. The harmonic‐based MSSs from the 10 liver samples at five pairs of adjacent time nodes were found to be highly statistically significant (p < 0.01). Thus, the harmonic‐based MSSs had greater variations. Compared with the fundamental‐based results, for the five preset ST values, the average increment in the harmonic‐based mean slopes was 69.22% and the average decrement in the mean standard deviations was 11.67% for the linear‐fitting MSS results, and the results were statistically significant (p < 0.05).Harmonic‐based MSSs are more sensitive and robust to variations in coagulated tissues, which is advantageous for the assessment of microwave‐induced thermal lesions. [ABSTRACT FROM AUTHOR]

Published
2024
Full Text
View/download PDF

2. Sobel edge detection for quantifying the effectiveness of focused ultrasound thalamotomy for tremor relief

Author

Aharonson Vered, Postema Michiel, Gebbie Robyn, Van Der Merwe Jesse, and Schlesinger Ilana

Subjects
parkinson’s disease, essential tremor, thermal lesion, unilateral ablation, fus, Medicine
Abstract

Focused ultrasound on the thalamus is employed to relieve tremor in movement disorders. The treatment efficacy is currently assessed by subjective observation of patient tremor during hand movements. The purpose of this study was to create a simple quantitative method to assess tremor based on traditional pen-and-paper spiral drawing that could be employed during treatment and follow-up visits. Image processing was employed to automatically and rapidly clean scanned spiral and line drawings and to isolate the minimal part of the drawing that could provide sufficient data for tremor detection. Sobel edge detection and easily-interpretable statistics of the distribution of edge-angle orientations in the spirals relative to the spiral centres were used as tremor measures. The method was applied to scanned drawings of 122 tremor patients before treatment and in follow-up visits. Discrimination analysis of the tremor measure between drawings in the session before treatment and the follow-up sessions was carried out. The processing yielded correctly cropped and clean spirals. The tremor measure demonstrated consistent tremor reduction in the treated hand drawings in all five follow-up visits during the first year following treatment date in 76 patients from the study cohort. In this study we developed a computational method that rapidly computed tremor severity estimate in an explainable and clinically useful manner from a traditional pen-and-paper spiral drawing. This rapid quantitative and objective tremor assessment can easily be implemented during focused ultrasound treatment and replace the subjective assessment currently employed.

Published
2023
Full Text
View/download PDF

3. Controlled Hyperthermia With High-Intensity Focused Ultrasound and Ultrasound Contrast Agent Microbubbles in Porcine Liver.

Author

Juang, Eric K., De Koninck, Lance H., Vuong, Kaleb S., Gnanaskandan, Aswin, Hsiao, Chao-Tsung, and Averkiou, Michalakis A.

Subjects
*MICROBUBBLE diagnosis, *HIGH-intensity focused ultrasound, *ULTRASOUND contrast media, *MICROBUBBLES, *SOUND pressure, *DIAGNOSTIC ultrasonic imaging, *FEVER
Abstract

The objective of this work was to study microbubble-enhanced temperature elevation with high-intensity focused ultrasound (HIFU) at different acoustic pressures and under image guidance. The microbubbles were administered with either local or vascular injections (that mimic systemic injections) in perfused and non-perfused ex vivo porcine liver under ultrasound image guidance. Porcine liver was insonified for 30 s with a single-element HIFU transducer (0.9 MHz, 0.413 ms, 82% duty cycle, focal pressures of 0.6–3.5 MPa). Contrast microbubbles were injected either locally or through the vasculature. A needle thermocouple at the focus measured temperature elevation. Diagnostic ultrasound (Philips iU22, C5-1 probe) guided placement of the thermocouple and delivery of microbubbles and monitored the procedure in real time. At lower acoustic pressures (0.6 and 1.2 MPa) in non-perfused liver, inertial cavitation of the injected microbubbles led to greater temperatures at the focus compared with HIFU-only treatments. At higher pressures (2.4 and 3.5 MPa) native inertial cavitation in the tissue (without injecting microbubbles) resulted in temperature elevations similar to those after injecting microbubbles. The heated area was larger when using microbubbles at all pressures. In the presence of perfusion, only local injections provided a sufficiently high concentration of microbubbles necessary for significant temperature enhancement. Local injections of microbubbles provide a higher concentration of microbubbles in a smaller area, avoiding acoustic shadowing, and can lead to higher temperature elevation at lower pressures and increase the size of the heated area at all pressures. [ABSTRACT FROM AUTHOR]

Published
2023
Full Text
View/download PDF

4. 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
Full Text
View/download PDF

5. Spatial temperature reconstructions in myocardial tissues undergoing radiofrequency ablations by performing high-resolved temperature measurements.

Author

Zaltieri, Martina, Rossi, Pietro, Bianchi, Stefano, Polselli, Marco, Niscola, Marta, Fanti, Veronica, Massaroni, Carlo, Schena, Emiliano, and Cauti, Filippo Maria

Abstract

Background: Radiofrequency (RF) lesion creation is related to the heat propagation induced by RF application on tissues. Thermocouple embedded in the RF antenna are not able to predict deep tissue temperature at various level.Objectives: This study aims to investigate the influence of power delivered on radiofrequency catheter ablation (RFCA) effects by means of high resolved 2D temperature maps.Methods: Three trials of four ablations (12 applications) were executed on each specimen of healthy excised swine myocardium in different application points at four RF power values (30 W, 40 W, 50 W, and 60 W) for a fixed treatment time. All the data provided by the fiber Bragg gratings (FBGs) were analyzed. Temperature variations (ΔT) in time recorded in the 28 sites of measurements were reported. Also, temperature maps showing the ΔT spatial distribution reached within the tissue at the end of the RFCA were produced and displayed, together with the representation of the lethal isotherm. Moreover, the time of achievement of the lethal isotherm at different tissue depths (from 1 to 8 mm) was evaluated for the four power settings.Results: Temperature trends reported comparable profiles across the different power settings. ΔT values and ΔT rising times showed dependence on the sensors' proximity to the RF energy source and on the set RF power. Temperature maps confirmed that heat propagation occurs preferentially along the width of the tissue than in the depth. Also, for the adjusted treatment time, no power setting guarantees lesions thicker than 6 mm.Conclusions: ΔT maximal values and ΔT rising time strongly depends on the proximity of the tissues to RF energy source, as well as on the RF power setting. A plateau is reached in lesion size, regardless of the power setting. A first correlation between lesion size, power setting, and time to achieve lethal isotherms has been established. [ABSTRACT FROM AUTHOR]

Published
2022
Full Text
View/download PDF

6. Influence of temperature-dependent acoustic and thermal parameters and nonlinear harmonics on the prediction of thermal lesion under HIFU ablation

Author

Hu Dong, Gang Liu, and Xin Tong

Subjects
high intensity focused ultrasound, thermal lesion, bio-heat transfer, harmonic amplitude ratio, Biotechnology, TP248.13-248.65, Mathematics, QA1-939
Abstract

According to the traditional method of high intensity focused ultrasound (HIFU) treatment, the acoustic and thermal characteristic parameters of constant temperature (room temperature or body temperature) are used to predict thermal lesion. Based on the nonlinear spherical beam equation (SBE) and Pennes bio-heat transfer equation, and a new acoustic-thermal coupled model is proposed. The constant and temperature-dependent acoustic and thermal characteristic parameters are used to predict thermal lesion, and the predicted lesion area are compared with each other. Moreover, the relationship between harmonic amplitude ratio (P2/P1) and thermal lesion is studied. Combined with the known experimental data of acoustic and thermal characteristic parameters of biological tissue and data fitting method, the relationship between acoustic and thermal characteristic parameters and temperature is obtained; and the thermal lesion simulation calculation is carried out by using the acoustic and thermal characteristic parameters under constant temperature and temperature- dependent acoustic and thermal characteristic parameters, respectively. The simulation results show that under the same irradiation condition, the thermal lesion predicted by temperature-dependent acoustic and thermal characteristic parameters is larger than that predicted by traditional method, and the thermal lesion increases with the decrease of harmonic amplitude ratio.

Published
2021
Full Text
View/download PDF

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

Author

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

Subjects
ultrasonic tissue-mimicking phantom, high intensity focused ultrasound (HIFU), polyacrylamide polysaccharide hydrogel (PASG), nonionic surfactant, visualization, thermal lesion, Technology, Biology (General), QH301-705.5
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.

Published
2022
Full Text
View/download PDF

9. An Insight to the Role of Thermal Effects on the Onset of Atrioesophageal Fistula: A Computer Model of Open-Irrigated Radiofrequency Ablation.

Author

Avari, Hamed, Berkmortel, Carolyn, and Savory, Eric

Abstract

Purpose: Atrial fibrillation (AF) is the most common heart rhythm disorder in the world. Radiofrequency catheter ablation (RFCA) has become the preferred method of treatment for drug-refractory AF. One of the rare (< 0.2%) but deadly (≈ 80%) complications of RFCA is Atrioesophageal fistula (AEF). Although the exact pathophysiological events in developing AEF are not fully understood, one hypothesis is that the underlying cause may be thermal damage to the mucosa (the esophagus lumen). Method: The present study reports on a computer model of RFCA in the posterior wall of the left atrium (LA) which is in close proximity to the esophagus. A novel systematic approach was taken by considering a range of anatomical variations (obtained from clinical data) to study the spatial and temporal temperature data when RF energy was applied to cause a threshold temperature of 50 °C in the mucosa. The model is also used to investigate the spatial and temporal changes in mucosal temperature that may affect the reliability of the readings from esophageal temperature monitoring devices if they are not positioned accurately. Results: The results suggest evidence of transmural esophageal lesions in all the anatomies except one, if the 50 °C temperature threshold is the only criteria used for identification of thermal damage. However, by taking into consideration the effect of time (temperature-time integral), only some anatomies were identified as being partially damaged. Investigating the temperature and the temperature gradient data during the ablation revealed that the increases in both the temperature and the temperature gradient were time, location and anatomy dependent. This finding may have significance in the design and development of next-generation temperature monitoring devices that will provide a temperature map rather than single point measurements. Conclusion: Studies such as the present work may provide more convenient platforms for investigating the effect of the many factors involved in the RF procedure and how they may link to the development of AEF. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

10. Temperature Dependence of Tissue Thermal Parameters Should Be Considered in the Thermal Lesion Prediction in High-Intensity Focused Ultrasound Surgery.

Author

Guntur, Sitaramanjaneya Reddy and Choi, Min Joo

Subjects
*HIGH-intensity focused ultrasound, *SIMULATION methods & models, *THERMAL diffusivity, *SPECIFIC heat capacity, *SET functions, *TEMPERATURE
Abstract

This study considers the temperature-dependent thermal parameters (specific heat capacity, thermal diffusivity and thermal conductivity) used when predicting the temperature rise of tissue exposed to high-intensity focused ultrasound (HIFU). Numerical analysis was performed using the Khokhlov-Zabolotskaya-Kuznetsov equation coupled with a bioheat transfer function. The thermal parameters were set as the functions of temperature using experimental data. The results revealed that, for liver tissue exposed to HIFU with a focal intensity of 3000 W/cm2 for 10 s, the predicted focal temperature rise was 23% lower and the thermal lesion area 41% smaller than those predicted without considering the temperature dependence. The prediction was validated by experimental observations on thermal lesions visualized in a tissue-mimicking phantom. The present results suggest that temperature-dependent thermal parameters should be considered in the prediction of HIFU-induced temperature rise to avoid lowering ultrasonic output settings for HIFU surgery. The aim of the present study was to investigate how significantly the temperature dependence of the thermal parameters affects the thermal dose imposed on the tissue by a typical clinical HIFU device. A numerical simulation was performed using a thermo-acoustic algorithm coupling the non-linear Khokhlov-Zabolotskaya-Kuznetsov (KZK) equation (Meaney et al. 1998; Filonenko and Khokhlova 2001) and a bio-heat transfer (BHT) equation (Pennes 1948). Thermal parameters of liver tissue were modeled in the present study as functions of temperature and were incorporated into the BHT equation to compensate for the variations in thermal parameters with temperature. Experimental validation was achieved by comparing the predictions with the thermal lesions formed in the tissue-mimicking phantoms. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

11. High‐frequency (20 MHz) high‐intensity focused ultrasound system for dermal intervention: A 12‐week local tolerance study in minipigs.

Author

Soegaard, Susi, Aarup, Vibeke, Serup, Jørgen, Bove, Torsten, Zawada, Tomasz, Jessen, Alexander, and Poli, Mattia

Subjects
*HIGH-intensity focused ultrasound, *TREATMENT effectiveness
Abstract

Background: High‐intensity focused ultrasound (HIFU) operating at 20 MHz is new and applicable to skin. Details of use and instrumentation are not documented. Materials and Methods: A GLP compliant 12‐week study of Göttingen minipigs (n = 3) was undertaken. Effects of HIFU treatment at different focal depths, energy levels and field size (single shot vs 5 × 5 multiple shots) were studied. Clinical scoring and histology of treated sites were made. Results: High‐intensity focused ultrasound showed instant and initial effects with wheal and flare responses followed by delayed inflammatory reactions associated with outer skin necrosis, depending on energy dose. HIFU treatment was tunable in the range 0.3‐1.5 J, ablative at higher energy level. Transducers with deeper focal points gave more profound effects, while epidermal effects were comparable. Multiple doses of 5 × 5 shots produced stronger reactions than single dose indicating that nearby applied shots were synergistic. Recovery from single doses was faster than in multidose areas. Clinical scarring at the end point was not seen despite occasional fibrous change of dermis. Findings illustrated intended therapeutic use; no special safety issues of concern were raised. Conclusion: The new 20 MHz HIFU was reproducible, tunable and produced targeted effects in the outer skin, for example instant wheal and flare followed by inflammation and possibly necrosis depending on energy setting. Reactions recovered during the study with only minor findings at study end. No special safety concerns were raised. The method can be controlled and modulated, and it is ready for clinical testing of dermatological disease indications including conditions presently treated with lasers. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

12. Role of deep brain stimulation therapy in the magnetic resonance-guided high-frequency focused ultrasound era: current situation and future prospects.

Author

Fernandez-Garcia, C., Alonso-Frech, F., Monje, M.H.G., and Matias-Guiu, J.

Abstract

Introduction: Deep brain stimulation (DBS) is a well-established treatment of movement disorders; but recently there has been an increasing trend toward the ablative procedure magnetic resonance-guided focused ultrasound (MRgFU). DBS is an efficient neuromodulatory technique but associated with surgical complications. MRIgFUS is an incision-free method that allows thermal lesioning, with fewer surgical complications but irreversible effects. Areas covered: We look at current and prospective aspects of both techniques. In DBS, appropriate patient selection, improvement in surgical expertise, target accuracy (preoperative and intraoperative imaging), neurophysiological recordings, and novel segmented leads need to be considered. However, increased number of older patients with higher comorbidities and risk of DBS complications (mainly intracranial hemorrhage, but also infections, hardware complications) make them not eligible for surgery. With MRgFUS, hemorrhage risks are virtually nonexistent, infection or hardware malfunction are eliminated, while irreversible side effects can appear. Expert commentary: Comparison of the efficacy and risks associated with these techniques, in combination with a growing aged population in developed countries with higher comorbidities and a preference for less invasive treatments, necessitates a review of the indications for movement disorders and the most appropriate treatment modalities. [ABSTRACT FROM AUTHOR]

Published
2020
Full Text
View/download PDF

15. Influence of High-Intensity Focused Ultrasound (HIFU) Ablation on Arteries: Ex Vivo Studies

Author

Yufeng Zhou and Wei Chun Daniel Lim

Subjects
high-intensity focused ultrasound (HIFU), thermal lesion, mechanical effect, cavitation, Mechanical engineering and machinery, TJ1-1570
Abstract

High-intensity focused ultrasound (HIFU) has been used to ablate solid tumors and cancers. Because of the hypervascular structure of the tumor and circulating blood inside it, the interaction between the HIFU burst and vessel is a critical issue in the clinical environment. Influences on lesion production and the potential of vessel rupture were investigated in this study for the efficiency and safety of clinical ablation. An extracted porcine artery was embedded in a transparent polyacrylamide gel phantom, with bovine serum albumin (BSA) as an indicator of the thermal lesion, and degassed water was driven through the artery sample. The HIFU focus was aligned to the anterior wall, middle of the artery, and posterior wall. After HIFU ablation, the produced lesion was photographically recorded, and then its size was quantified and compared with that in the gel phantom without artery. In addition, the bubble dynamics (i.e., generation, expansion, motion, and shrinkage of bubbles and their interaction with the artery) were captured using high-speed imaging. It was found that the presence of the artery resulted in a decrease in lesion size in both the axial and lateral directions. The characteristics of the lesion are dependent on the focus alignment. Acoustic and hydrodynamic cavitation play important roles in lesion production and interaction with the artery. Both thermal and mechanical effects were found on the surface of the artery wall after HIFU ablation. However, no vessel rupture was found in this ex vivo study.

Published
2021
Full Text
View/download PDF

16. Microwave ablation for the treatment of arterial epistaxis: "how I do it".

Author

Lou, Zheng‐Cai, Dong, Yihan, and Lou, Zi‐Han

Subjects
*NOSEBLEED, *THERAPEUTICS, *MICROWAVES, *OPERATING rooms, *NOSE, *ABLATION techniques, *SURGICAL complications
Abstract

Background: Arterial epistaxis is commonly seen in the rhinology clinic and can have a significant impact on quality of life. Previous studies have explored various therapies to address epistaxis. Methods: Patients were treated in the outpatient clinic or operating room by microwave ablation (MWA) with a 2450‐MHz cooled‐shaft antenna to treat an epistaxis bleeding point. Results: Of the 481 patients with arterial epistaxis, bleeding was controlled within 1 to 2 minutes and only 2 patients with recurrent bleeding required re‐ablation. The shape of the thermal lesion was elliptical and it was approximately 2 mm in length, 1 mm in width, and 0.5 to 1 mm in penetration depth. Of the 481 patients, 167 (34.7%) complained of minor nasal pain on the same day of ablation. No patients complained of nasal pain or obstruction during the follow‐up period. In addition, 139 (28.9%) patients showed a minor increase in rhinorrhea during the first postoperative week. Of the 481 patients, 469 (97.5%) were followed‐up at 6 months with no severe MWA‐related complications, such as septal perforation, synechiae formation, or orbit and brain complications. Conclusion: MWA is a technically feasible alternative method for patients with arterial epistaxis. [ABSTRACT FROM AUTHOR]

Published
2019
Full Text
View/download PDF

17. Estimating dynamic changes of tissue attenuation coefficient during high-intensity focused ultrasound treatment

Author

Siavash Rahimian and Jahan Tavakkoli

Subjects
medicine.medical_specialty, medicine.medical_treatment, Thermal lesion, 01 natural sciences, 030218 nuclear medicine & medical imaging, 03 medical and health sciences, 0302 clinical medicine, Contrast-to-speckle ratio, Treatment monitoring, Region of interest, 0103 physical sciences, medicine, Radiology, Nuclear Medicine and imaging, 010301 acoustics, Tissue attenuation coefficients, business.industry, Research, Ultrasound, HIFU, Tissue attenuation, High-intensity focused ultrasound, Intensity (physics), Hifu treatment, Attenuation coefficient, Thermal damage, Radiology, business, Biomedical engineering
Abstract

Background This study investigated the dynamic changes of tissue attenuation coefficients before, during, and after high-intensity focused ultrasound (HIFU) treatment at different total acoustic powers (TAP) in ex vivo porcine muscle tissue. It further assessed the reliability of employing changes in tissue attenuation coefficient parameters as potential indicators of tissue thermal damage. Methods Two-dimensional pulse-echo radio frequency (RF) data were acquired before, during, and after HIFU exposure to estimate changes in least squares attenuation coefficient slope (Δβ) and attenuation coefficient intercept (Δα0). Using the acquired RF data, Δβ and Δα0 images, along with conventional B-mode ultrasound images, were constructed. The dynamic changes of Δβ and Δα0, averaged in the region of interest, were correlated with B-mode images obtained during the HIFU treatment process. Results At a HIFU exposure duration of 40 s and various HIFU intensities (737–1,068 W/cm2), Δβ and Δα0 increased rapidly to values in the ranges 1.5–2.5 dB/(MHz.cm) and 4–5 dB/cm, respectively. This rapid increase was accompanied with the appearance of bubble clouds in the B-mode images. Bubble activities appeared as strong hyperechoic regions in the B-mode images and caused fluctuations in the estimated Δβ and Δα0 values. After the treatment, Δβ and Δα0 values gradually decreased, accompanied by fade-out of hyperechoic spots in the B-mode images. At 10 min after the treatment, they reached values in ranges 0.75–1 dB/(MHz.cm) and 1–1.5 dB/cm, respectively, and remained stable within those ranges. At a long HIFU exposure duration of around 10 min and low HIFU intensity (117 W/cm2), Δβ and Δα0 gradually increased to values of 2.2 dB/(MHz.cm) and 2.2 dB/cm, respectively. This increase was not accompanied with the appearance of bubble clouds in the B-mode images. After HIFU treatment, Δβ and Δα0 gradually decreased to values of 1.8 dB/(MHz.cm) and 1.5 dB/cm, respectively, and remained stable at those values. Conclusions Δβ and Δα0 estimations were both potentially reliable indicators of tissue thermal damage. In addition, Δβ and Δα0 images both had significantly higher contrast-to-speckle ratios compared to the conventional B-mode images and outperformed the B-mode images in detecting HIFU thermal lesions at all investigated TAPs and exposure durations.

Published
2022

19. Low-level Laser Therapy of Superficial Thermal Facial Lesions in Children.

Author

Fette, Andreas M.

Subjects
LASER surgery, WOUND healing, DIODES, PATIENTS, MEDICAL technology, THERAPEUTICS, INDUSTRIAL lasers, MEDICAL care, CHILDREN'S injuries
Abstract

To improve wound healing, low-level laser therapy (LLLT) is used increasingly in clinical routine. We treated 6 children, ages 1 to 7, with superficial thermal injuries (scalding) of the face immediately upon admission and daily thereafter with a Ga:As-diode laser. All patients showed rapid healing with excellent cosmetic results. [ABSTRACT FROM AUTHOR]

Published
2003

20. Ablation Monitoring with Elastography: 2D In-vivo and 3D Ex-vivo Studies

Author

Rivaz, Hassan, Fleming, Ioana, Assumpcao, Lia, Fichtinger, Gabor, Hamper, Ulrike, Choti, Michael, Hager, Gregory, Boctor, Emad, Hutchison, David, Series editor, Kanade, Takeo, Series editor, Kittler, Josef, Series editor, Kleinberg, Jon M., Series editor, Mattern, Friedemann, Series editor, Mitchell, John C., Series editor, Naor, Moni, Series editor, Nierstrasz, Oscar, Series editor, Pandu Rangan, C., Series editor, Steffen, Bernhard, Series editor, Sudan, Madhu, Series editor, Terzopoulos, Demetri, Series editor, Tygar, Doug, Series editor, Vardi, Moshe Y., Series editor, Weikum, Gerhard, Series editor, Metaxas, Dimitris, editor, Axel, Leon, editor, Fichtinger, Gabor, editor, and Székely, Gábor, editor

Published
2008
Full Text
View/download PDF

21. MODELLING OF TEMPERATURE FIELD DISTRIBUTION IN BIOLOGICAL TISSUE THERMAL LESION

Author

Kostiantyn Shevchenko, Oleksii Statsenko, Oleh Kozyr, and Julia Shtefura

Subjects
Materials science, Field (physics), Distribution (number theory), Quantitative Biology::Tissues and Organs, Physics::Medical Physics, Mechanics, Biological tissue, Thermal lesion
Abstract

Early determination of the thermal lesion degree in case of scald accelerates the treatment process and increases its effectiveness. The thermal lesion degree can be evaluated by determining the temperature difference between healthy and injured areas of biological tissue. For this purpose, a model of biological tissue in the form of a multilayer structure can be used. Heat exchange processes in such a structure are described by a generalized thermal model. Such structure contains conditionally flat heat sources located in each layer, which have the form of a developed network of blood vessels. The considered model of biological tissue quite accurately describes the heat exchange processes in body tissues. The article considers heat exchange processes that take place in biological tissue and a number of assumptions that should be used to mathematically describe these processes were identified. During the analysis of heat transfer process, the equations of temperature distribution in the tissue layers and the boundary conditions that describe the thermal interaction of the model with the environment are determined. As a result, the model of the stationary thermal regime of a biological tissue fragment in the form of a generalized thermal model and a mathematical model of the temperature field distribution in this fragment is obtained. This model is determined by many parameters, which are divided into 3 groups: thermophysical parameters; structural and topological parameters; parameters of the blood vascular system. Models of the particular fragment thermal regime are unequivocally determined by a combination of these parameters. For the analysis of temperature in any point of biological tissue modelled part mathematical model of temperature field distribution in stationary mode was developed. This model allows reasonable approach to the thermal lesion degree evaluation on the basis of the surface temperature difference between healthy and injured areas of tissue.

Published
2021

23. Monitoring Microwave Ablation Using Ultrasound Echo Decorrelation Imaging: An ex vivo Study

Author

Zhuhuang Zhou, Yue Wang, Shuang Song, Weiwei Wu, Shuicai Wu, and Po-Hsiang Tsui

Subjects
microwave ablation, ablation zone, instantaneous echo decorrelation imaging, cumulative echo decorrelation imaging, thermal lesion, ultrasound radiofrequency signal, monitoring, Chemical technology, TP1-1185
Abstract

In this study, a microwave-induced ablation zone (thermal lesion) monitoring method based on ultrasound echo decorrelation imaging was proposed. A total of 15 cases of ex vivo porcine liver microwave ablation (MWA) experiments were carried out. Ultrasound radiofrequency (RF) signals at different times during MWA were acquired using a commercial clinical ultrasound scanner with a 7.5-MHz linear-array transducer. Instantaneous and cumulative echo decorrelation images of two adjacent frames of RF data were calculated. Polynomial approximation images were obtained on the basis of the thresholded cumulative echo decorrelation images. Experimental results showed that the instantaneous echo decorrelation images outperformed conventional B-mode images in monitoring microwave-induced thermal lesions. Using gross pathology measurements as the reference standard, the estimation of thermal lesions using the polynomial approximation images yielded an average accuracy of 88.60%. We concluded that instantaneous ultrasound echo decorrelation imaging is capable of monitoring the change of thermal lesions during MWA, and cumulative ultrasound echo decorrelation imaging and polynomial approximation imaging are feasible for quantitatively depicting thermal lesions.

Published
2019
Full Text
View/download PDF

27. Tuning the Pennes Perfusion Rate to Model Large Vessel Cooling Effects in Hepatic Radiofrequency Ablation

Author

Marco Baragona, Valentina Lavezzo, Ralph Maessen, Nikhil Vaidya, and Karen Veroy

Subjects
Exact model, Radiofrequency Ablation, business.industry, Radiofrequency ablation, medicine.medical_treatment, Liver Neoplasms, Biomedical Engineering, Large vessel, Models, Theoretical, Ablation, law.invention, Perfusion, medicine.anatomical_structure, Perfusion rate, Liver, law, Physiology (medical), medicine, Catheter Ablation, Humans, business, Thermal lesion, Biomedical engineering, Blood vessel
Abstract

Radio frequency ablation (RFA) has become a popular method for the minimally invasive treatment of liver cancer. However, the success rate of these treatments depends heavily on the amount of experience the clinician possesses. Mathematical modeling can help mitigate this problem by providing an indication of the treatment outcome. Thermal lesions in RFA are affected by the cooling effect of both fine-scale and large-scale blood vessels. The exact model for large-scale blood vessels is advection-diffusion, i.e., a model capable of producing directional effects, which are known to occur in certain cases. In previous research, in situations where directional effects do not occur, the advection term in the blood vessel model has been typically replaced with the Pennes perfusion term, albeit with a higher-than-usual perfusion rate. Whether these values of the perfusion rate appearing in literature are optimal for the particular vessel radii in question, has not been investigated so far. This work aims to address this issue. An attempt has been made to determine, for values of vessel radius between 0.55 mm and 5 mm, best estimates for the perfusion rate which minimize the error in thermal lesion volumes between the perfusion-based model and the advection-based model. The results for the best estimate of the perfusion rate presented may be used in existing methods for fast estimation of RFA outcomes. Furthermore, the possible improvements to the presented methodology have been highlighted.

Published
2022

28. INFLUENCE OF THERMAL-ELECTRICAL PARAMETER COMBINATIONS ON THERMAL LESIONS OF RADIOFREQUENCY TUMOR ABLATION.

Author

PINHEIRO, CLEBER DA SILVA

Subjects
*LIVER cancer, *ABLATION techniques, *THERMOTHERAPY, *ELECTRIC conductivity, *NAVIER-Stokes equations
Abstract

Several studies have been conducted on the applicability of hyperthermia radiofrequency in the treatment of liver tumors. Many theoretical studies have reported the relevance of various physical parameters in terms of their efficacy in combating tumors and have analyzed the impact of these physical parameters on the temperature profile in the diseased tissue. Parameters such as thermal and electrical conductivities have been investigated during simulations of thermal ablation. Such parameters play an important role in the process of heat transfer in tissues. The purpose of this study is to predict the lesion volume, considering the inclusion of temperature dependence of thermal-electrical properties. This paper introduces a three-dimensional computational model that includes different comparative combinations of tissue thermal-electrical parameters as a mapping of temperature (such as thermal and electrical conductivities and specific heat). The finite-element method is employed for simulating hepatic radiofrequency ablation through the numerical solutions of the bioheat, Laplace, and Navier-Stokes equations. The results suggest that different combinations of tissue temperature-dependent parameters can significantly affect the computed lesion volume and that the temperature dependence of electrical conductivity has a major impact on the computed lesion volume and temperature distribution. [ABSTRACT FROM AUTHOR]

Published
2017
Full Text
View/download PDF

30. High-Intensity Focused Ultrasound: Heating and Destruction of Biological Tissue

Author

N. Y. Bykov, A. Ya. Lukin, T. A. Andreeva, A. E. Berkovich, and S. V. Kozyrev

Subjects
010302 applied physics, Materials science, Physics and Astronomy (miscellaneous), Series (mathematics), Pulse (signal processing), medicine.medical_treatment, Biological tissue, Radiation, 01 natural sciences, High-intensity focused ultrasound, 010305 fluids & plasmas, Cardinal point, 0103 physical sciences, medicine, Irradiation, Thermal lesion, Biomedical engineering
Abstract

The results of a numerical study of heating and destruction of a biological tissue under the action of a series of focused ultrasound pulses generated by a multielement array (tumor treatment programs) are presented. Irradiation programs are considered that differ in the locations of focal points within a tissue (the Archimedean and “square” spirals), the number of pulses in the series, and the time delay between pulses. A significant influence of the parameters of the pulse series and perfusion process on the size of the thermal lesion area in a tissue was established in a considered range of moderate intensities of radiation. It was shown that the heat propagation process in the tissue turns with time to a quasi-spherical pattern and is weakly dependent on the irradiation program type. This characteristic of the process is discussed in terms of its possible use to optimize protocols of medical procedures utilizing focused ultrasound.

Published
2020

33. Recurrent acute thermal lesion induces esophageal hyperproliferative premalignant lesions in mice esophagus.

Author

Rapozo, D.C.M., Blanco, T.C.M., Reis, B.B., Gonzaga, I.M., Valverde, P., Canetti, C., Barja-Fidalgo, C., Simao, T.A., Albano, R.M., Kruel, C.D.P., and Ribeiro Pinto, L.F.

Subjects
*PRECANCEROUS conditions, *ALIMENTARY canal, *TISSUE wounds, *NECROSIS, ESOPHAGEAL atresia
Abstract

Hot beverage consumption is a risk factor for esophageal squamous cell carcinoma, but the underlying mechanisms are still unknown. We developed an experimental mouse model to understand the mechanism of thermal lesion to esophageal carcinogenesis. Female BALB/c mice were treated by gavage with water at different temperatures three times a week and nitrosamines in the drinking water. Water at 70 °C, but not at lower temperatures, initially induced an esophageal necrosis that healed and became resistant to necrosis after further administrations. However, when 70 °C water was associated with N-nitrosodiethylamine at doses above 1 ppm, there was interference in epithelial regeneration, allowing recurrent thermal injury and inflammation. Recurrent thermal injury resulted in hyper proliferative premalignant lesions being induced earlier (at 4 weeks) and at a higher frequency (4-fold increase at 16 weeks) when compared to mice treated with NDEA only. Ki-67 immunostaining revealed that recurrent thermal injury induced basal cell proliferation resulting in the expansion of epithelial basal cells, confirmed by the increase in cytokeratin 14 positive cells with concomitant reduction of differentiated cytokeratin 5 positive cells. We conclude that recurrent thermal lesion may act as a tumor promoter though a strong proliferation stimulus of esophageal epithelial basal cells. [ABSTRACT FROM AUTHOR]

Published
2016
Full Text
View/download PDF

36. Microwave ablation for the treatment of arterial epistaxis: 'how I do it'

Author

Yihan Dong, Zi-Han Lou, and Zheng-Cai Lou

Subjects
Ablation Techniques, Adult, Male, Rhinology, medicine.medical_specialty, medicine.medical_treatment, Nasal Surgical Procedures, Perforation (oil well), Young Adult, 03 medical and health sciences, 0302 clinical medicine, medicine, Humans, Immunology and Allergy, Outpatient clinic, Microwaves, 030223 otorhinolaryngology, Thermal lesion, Aged, Aged, 80 and over, Alternative methods, rhinorrhea, business.industry, Microwave ablation, Middle Aged, Ablation, Surgery, Epistaxis, Treatment Outcome, 030228 respiratory system, Otorhinolaryngology, Female, medicine.symptom, business
Abstract

Background Arterial epistaxis is commonly seen in the rhinology clinic and can have a significant impact on quality of life. Previous studies have explored various therapies to address epistaxis. Methods Patients were treated in the outpatient clinic or operating room by microwave ablation (MWA) with a 2450-MHz cooled-shaft antenna to treat an epistaxis bleeding point. Results Of the 481 patients with arterial epistaxis, bleeding was controlled within 1 to 2 minutes and only 2 patients with recurrent bleeding required re-ablation. The shape of the thermal lesion was elliptical and it was approximately 2 mm in length, 1 mm in width, and 0.5 to 1 mm in penetration depth. Of the 481 patients, 167 (34.7%) complained of minor nasal pain on the same day of ablation. No patients complained of nasal pain or obstruction during the follow-up period. In addition, 139 (28.9%) patients showed a minor increase in rhinorrhea during the first postoperative week. Of the 481 patients, 469 (97.5%) were followed-up at 6 months with no severe MWA-related complications, such as septal perforation, synechiae formation, or orbit and brain complications. Conclusion MWA is a technically feasible alternative method for patients with arterial epistaxis.

Published
2019

37. Reusable tissue-mimicking hydrogel phantoms for focused ultrasound ablation.

Author

Sun, Ming-Kuan, Shieh, Jay, Lo, Chia-Wen, Chen, Chuin-Shan, Chen, Ben-Ting, Huang, Chang-Wei, and Chen, Wen-Shiang

Subjects
*HYDROGELS, *IMAGING phantoms, *ULTRASONIC imaging, *DENATURATION of proteins, *CATHETER ablation, *ACRYLIC acid
Abstract

The ability of N-isopropylacrylamide (NIPAM)-based hydrogel phantoms to mimic tissues with different acoustic and thermal properties under high-intensity focused ultrasound (HIFU) ablation was investigated. These phantoms were designed to model the formation of thermal lesions in tissues above the threshold temperature of protein denaturation. By adjusting the concentration of acrylic acid (AAc) in the NIPAM-based hydrogel phantoms, the cloud point (i.e., lower critical solution temperature) of the phantoms could be tailored to produce HIFU thermal lesions similar to those formed in different swine tissues in terms of size and shape. Additionally, energy thresholds for inducing transient or permanent bubbles in the phantoms during HIFU ablation were also identified to shed light on the onset of cavitation or material damage. The NIPAM-based hydrogel phantoms developed in this study possess major advantages such as transparent, reusable and tailorable properties, and are practical tools for characterizing an ablative device (or treatment) to determine its efficacy and safety. [ABSTRACT FROM AUTHOR]

Published
2015
Full Text
View/download PDF

38. An Improved Tissue-Mimicking Polyacrylamide Hydrogel Phantom for Visualizing Thermal Lesions with High-Intensity Focused Ultrasound.

Author

Guntur, Sitaramanjaneya Reddy and Choi, Min Joo

Subjects
*POLYACRYLAMIDE, *COLLOIDS in medicine, *CORN syrup, *ULTRASONIC imaging, *POLYSACCHARIDES, *POLYMERIZATION
Abstract

A recipe was created to improve the tissue-mimicking (TM) bovine serum albumin (BSA) polyacrylamide hydrogel (PAG) reported in our previous study (Choi MJ, Guntur SR, Lee KI, Paeng DG, Coleman AJ. Ultrasound Med Biol 2013; 29:439–448). In that work, the concentration of acrylamide in TM BSA PAG was increased to make its attenuation coefficient the same as that of a tissue. However, this increase made the PAG stiffer and less homogeneous. In addition, the increase in acrylamide caused a significant increase in temperature over the denaturation threshold of BSA during polymerization, which required forced cooling so that the PAG did not become opaque at room temperature after polymerization. To eliminate those shortcomings, we substituted the increased acrylamide with a viscous polysaccharide liquid (corn syrup). The concentration of corn syrup was optimized to 20% (w/v, tested in the volume of 50 mL), so that the acoustic properties of the PAG would be close to those of human liver. The improved TM (iTM) BSA PAG constructed in this study had a speed of sound of 1588 ± 9 m/s, an attenuation coefficient of 0.51 ± 0.06 dB cm −1 at 1 MHz and a backscattering coefficient of 0.22 ± 0.09 × 10 −3 sr −1 cm −1 MHz −1 . The density and acoustic impedance were 1057 kg/m 3 and 1.68 MRayl, respectively, and the non-linear parameter ( B / A ) was 5.9 ± 0.3. The thermal, optical and mechanical properties were almost the same as those of the BSA PAG ( Lafon et al.2005 ). Experimental verification indicated that the thermal lesions visualized in the proposed iTM BSA PAG by high-intensity focused ultrasound were highly reproducible. In conclusion, iTM BSA PAG was proven to eliminate TM BSA PAG shortcomings effectively and is expected to be a promising test phantom for clinical high-intensity focused ultrasound device. [ABSTRACT FROM AUTHOR]

Published
2014
Full Text
View/download PDF

39. Modeling Analysis of Thermal Lesion Characteristics of Unipolar/Bipolar Ablation Using Circumferential Multipolar Catheter

Author

Kaihao Gu, Shengjie Yan, Yiheng Wang, and Xiaomei Wu

Subjects
Materials science, medicine.medical_treatment, finite element method, Lesion volume, Catheter ablation, radiofrequency catheter ablation, 030204 cardiovascular system & hematology, lcsh:Technology, 030218 nuclear medicine & medical imaging, Pulmonary vein, Lesion, lcsh:Chemistry, 03 medical and health sciences, 0302 clinical medicine, medicine, General Materials Science, Instrumentation, lcsh:QH301-705.5, Thermal lesion, pulmonary vein isolation, Fluid Flow and Transfer Processes, circumferential multipolar catheter, lcsh:T, Process Chemistry and Technology, General Engineering, Bipolar ablation, Ablation, unipolar ablation, lcsh:QC1-999, Computer Science Applications, bipolar ablation, Catheter, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, medicine.symptom, lcsh:Engineering (General). Civil engineering (General), lcsh:Physics, Biomedical engineering
Abstract

The circumferential multipolar catheter (CMC) facilitates pulmonary vein isolation (PVI) for the treatment of atrial fibrillation by catheter ablation. However, the ablation characteristics of CMC are not well understood. This study uses the finite element method to conduct a comprehensive analysis of the ablation characteristics of multielectrode unipolar/bipolar (MEU/MEB) modes of the CMC. A three-dimensional computational model of the CMC, including blood, myocardium, connective tissue, lung, and muscle, was constructed. The method was validated by comparing the results of an in vitro experiment with the simulation. Both ablation modes could create contiguous effective lesions, but the MEU mode created a deeper and broader lesion volume than the MEB mode. The MEB mode had an overall higher average temperature field and allowed faster formation of the effective contiguous lesion. The lesion shape tended to be symmetric and spread downward and superficially in the MEU mode and MEB mode, respectively. Results from the simulation for validation agreed with the in vitro experiment. Different ablation trends of the MEU and MEB modes provide different solutions for specific ablation requirements in clinical applications. The MEU mode suits transmural lesion in thick tissue around pulmonary veins (PVs). The MEB mode profits fast and durable creation of circumferential PVI. This study provides a detailed performance analysis of CMC, thereby contributing to the theoretical knowledge base of application of PVI with this emerging technology.

Published
2020
Full Text
View/download PDF

40. Evaluation of the thermal lesion in microwave ablation procedures.

Author

Cavagnaro, M., Lopresto, V., and Pinto, R.

Abstract

In this paper, the numerical and experimental evaluation of the dimension of the tissue's ablated area in microwave ablation procedures is discussed. The dependence of the temperature on time, both during and after the end of the ablation procedure, is studied both experimentally and numerically. Results show that the thermal lesion continues to grow after the end of the ablation procedure. [ABSTRACT FROM PUBLISHER]

Published
2012
Full Text
View/download PDF

41. Optoacoustic Monitoring of HIFU Therapy: Feasibility Study.

Author

Khokhlova, T. D., Pelivanov, I. M., Sapozhnikov, O. A., Solomatin, V. S., and Karabutov, A. A.

Subjects
*ACOUSTOOPTICAL devices, *PIEZOELECTRICITY, *LASER beams, *PRECANCEROUS conditions, *TISSUES, *NEUTRAL density filters
Abstract

The main objective of this study was to evaluate the feasibility of the optoacoustic (OA) technique for the monitoring of HIFU therapy. Optoacoustic phenomenon is the generation of wideband ultrasonic transients through absorption of laser radiation and subsequent expansion of the heated volume. The excited OA transient can be detected by a wideband piezo-electric transducer and contains information on the distribution of optical properties (absorption and scattering) within the medium. If thermal lesions have different optical properties than the untreated tissue, the lesions will be detectable on the OA waveform. We used boiled and raw porcine liver as phantoms mimicking treated and untreated tissue correspondingly. Optical attenuation, absorption and scattering coefficients of raw and boiled porcine liver were measured by the optoacoustic technique, previously developed by our group [4]. Measured optical absorption in raw liver was at least two times lower than in boiled liver at the laser wavelength of 1064 nm. Then OA technique was employed to detect a lesion produced by a 1.1 MHz focused ultrasound in a liver sample. The lesion was about 2 mm thick located about 1 cm below tissue surface. The feasibility and high promise of the OA approach to lesion detection was demonstrated. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

42. Thermal Lesion Development in Bubble-Mediated HIFU: Modeling.

Author

Tianming Wu, Roy, Ronald A., and Holt, R. Glynn

Subjects
*THERMAL analysis, *CAVITATION noise, *TEMPERATURE measurements, *THERMODYNAMICS of bubbles, *MEDICAL imaging systems, *SOUND pressure
Abstract

Fast heat deposition during high-intensity focused ultrasound (HIFU) therapy is often accompanied by acoustic cavitation. In vivo and in vitro experiments have shown that with cavitation the heating rate is greatly enhanced and HIFU efficacy can be favorably improved. However uncontrolled cavitation usually results in irregular lesions and other undesirable effects. This work studies the interaction between the ultrasound pressure, cavitation and temperature field in a medium containing cavitation bubbles, with size distribution estimated by stability criteria and number density estimated from empirical observations. Treating the bubbly mixture as an effective medium with effective sound speed and attenuation coefficient determined from bubble dynamics, iterative computations on acoustic propagation and subsequent cavitation and thermal effects can be performed. The thermal lesion development is then simulated in a tissue-like medium exposed to 1-MHz HIFU in CW with MPa pressure amplitudes, and compared with experiment. © 2006 American Institute of Physics [ABSTRACT FROM AUTHOR]

Published
2006
Full Text
View/download PDF

43. Ventilación mecánica no invasiva en la atención masiva a pacientes con lesiones térmicas.

Author

Franco Mora, María del Carmen, Rodríguez Sánchez, Olga, Olivares Louhau, Ela Maritza, Pichín Quesada, Alexis, and Banegas, Juan Enrique

Abstract

A descriptive and cross sectional study of 32 patients (mostly male young people), assisted in the Provincial Caumatology Service of "Dr. Juan Bruno Zayas Alfonso" Teaching General Hospital in Santiago de Cuba was carried out from August to September, 2012, as a consequence of a huge fire taking place in a servicenter from this city, with the aim of characterizing them from the clinical, epidemiological and therapeutic points of view. Injuries due to inhalation in people with more than 20% of burned body surface to whom non invasive mechanical ventilation was applied since the first 72 hours with a positive response, prevailed in the case material. The 6 affected patients who presented more than 90% of burned body surface and one of those who presented 60-79% died. It was demonstrated that with the use of this technique in the first 72 hours in the largely burned patients, with severe injuries due to inhalation it is possible to decrease mortality significantly. [ABSTRACT FROM AUTHOR]

Published
2014

44. Computational Modeling of Myocardial Thermal lesion Induced by Multi-source Frequency Control RF ablation Method

Author

Kaihao Gu, Weiqi Wang, Shengjie Yan, and Xiaomei Wu

Subjects
Materials science, medicine.medical_treatment, Automatic frequency control, Phase angle, 030204 cardiovascular system & hematology, Ablation, 030218 nuclear medicine & medical imaging, Lesion, 03 medical and health sciences, 0302 clinical medicine, Amplitude, medicine, Boundary value problem, medicine.symptom, Thermal lesion, Biomedical engineering, Voltage
Abstract

In minimally invasive surgery for atrial fibrillation, radiofrequency (RF) voltage is usually used to ablate cardiac tissue. In this study, a computational modeling of multi-source frequency control RF ablation mode (FcM) was constructed to analyze the characteristics of thermal field and electric field in myocardium. To highlight the relationship between frequency difference and lesion size of ablation, the amplitude and phase angle of voltage in the simulation were fixed at 20 V peak and 0 degree, respectively. Furthermore, the thermal lesion depth, width and continuity produced by FcM and multi-source bipolar ablation mode(BiM) were also compared in this paper. At the electrical boundary condition for creating continuous lesion, the transmural and continuous lesion (long or short) was generated by FcM, whereas BiM did not create transmural lesion. At the electrical boundary condition for creating discrete lesion, FcM was able to create two or one transmural discrete lesion, whereas BiM did not create transmural lesion. Simulation results show that a kind of transmural, continuous, symmetrical lesion shape was generated in atrial tissue using multi-source frequency control RF ablation and the lesion size was larger than BiM at identical ablation condition.

Published
2020

45. Comparative Morphological Effects of Cold-Blade, Electrosurgical, and Plasma Scalpels on Dog Skin

Author

Antonio Crovace, Leonardo Resta, Salvatore Desantis, Roberta Rossi, Giovanni Izzo, Luca Lacitignola, and Francesco Staffieri

Subjects
medicine.medical_specialty, Electrosurgery, thermal damage, plasma scalpel, electrosurgery, scanning electron microscopy, Scalpel blade, medicine.medical_treatment, Article, Electrocoagulation, 03 medical and health sciences, 0302 clinical medicine, Skin tissue, medicine, Thermal lesion, lcsh:Veterinary medicine, 030219 obstetrics & reproductive medicine, General Veterinary, business.industry, Surgery, surgical procedures, operative, 030220 oncology & carcinogenesis, lcsh:SF600-1100, Thermal damage, business
Abstract

The aim of the present study was to evaluate the histological results of the Onemytis® plasma surgery device with Airplasma® technology. We compared the efficacy and the effect on tissues of the new plasma electrocoagulation system with electrosurgery and a scalpel blade. Samples of healthy skin tissue from four dogs that underwent mastectomy were evaluated. Three different incision modes were used, i.e., a cold blade, electrosurgery, and the Onemytis® plasma scalpel were evaluated histologically to assess invasiveness and tissue injuries at different distances from the cutting surface. The histological examinations showed moderate necrosis caused by Onemytis®, compared to the use of the more invasive electrosurgery, which induces thermal damage that extends beyond 1000 µm. Our study shows that the use of the plasma scalpel reduces the extension of the thermal lesion on the skin compared to an electrosurgical scalpel.

Published
2020
Full Text
View/download PDF

46. Liver-directed therapies for liver metastases from neuroendocrine neoplasms: Can laser ablation play any role?

Author

Sergio Sartori, Francesca Di Vece, Lara Bianchi, and Paola Tombesi

Subjects
Opinion Review, medicine.medical_specialty, Ablation Techniques, Radiofrequency ablation, Ablation techniques, law.invention, Liver metastases, law, Ablative case, Medicine, Humans, In patient, Liver-directed therapies, Thermal lesion, Retrospective Studies, Laser ablation, business.industry, Liver Neoplasms, Gastroenterology, Liver failure, General Medicine, Catheter, Treatment Outcome, Neuroendocrine neoplasms, Catheter Ablation, Radiology, Laser Therapy, business
Abstract

Aggressive cytoreduction can prolong survival in patients with unresectable liver metastases (LM) from neuroendocrine neoplasms (NEN), and minimally invasive, liver-directed therapies are gaining increasing interest. Catheter-based treatments are used in disseminated disease, whereas ablation techniques are usually indicated when the number of LM is limited. Although radiofrequency ablation (RFA) is by far the most used ablative technique, the goal of this opinion review is to explore the potential role of laser ablation (LA) in the treatment of LM from NEN. LA uses thinner needles than RFA, and this is an advantage when the tumors are in at-risk locations. Moreover, the multi-fiber technique enables the use of one to four laser fibers at once, and each fiber provides an almost spherical thermal lesion of 12-15 mm in diameter. Such a characteristic enables to tailor the size of each thermal lesion to the size of each tumor, sparing the liver parenchyma more than any other liver-directed therapy, and allowing for repeated treatments with low risk of liver failure. A recent retrospective study reporting the largest series of LM treated with LA documents both safety and effectiveness of LA, that can play a useful role in the multimodality approach to LM from NEN.

Published
2020

47. The effects on thermal lesion shape and size from bubble clouds produced by acoustic droplet vaporization

Author

Lisa X. Xu, Ying Xin, J. Brian Fowlkes, and Aili Zhang

Subjects
Hot Temperature, Bubble cloud, medicine.medical_treatment, 01 natural sciences, 030218 nuclear medicine & medical imaging, 0302 clinical medicine, HIFU ablation, 010301 acoustics, Thermal lesion, Ultrasonography, Fluorocarbons, Acoustic droplet vaporization, Microbubbles, Radiological and Ultrasound Technology, Phantoms, Imaging, Ultrasound, Signal Processing, Computer-Assisted, Equipment Design, General Medicine, Lipids, lcsh:R855-855.5, Continuous wave, Gases, Thermal lesions, endocrine system, Materials science, lcsh:Medical technology, Bubble, Transducers, Biomedical Engineering, complex mixtures, Biomaterials, 03 medical and health sciences, 0103 physical sciences, Thermal, Pressure, medicine, Pulse wave, Computer Simulation, Radiology, Nuclear Medicine and imaging, business.industry, Research, technology, industry, and agriculture, Acoustics, High-intensity focused ultrasound, Acoustic droplet vaporization (ADV), High-Intensity Focused Ultrasound Ablation, Volatilization, business, Biomedical engineering
Abstract

Background Bubbles formed by acoustic droplet vaporization (ADV) have proven to be an effective method for significant enlargement of the thermal lesions produced by high intensity focused ultrasound (HIFU). We investigated the influences of bubble cloud shape and droplet concentration on HIFU thermal lesions, as these relate to the ADV technique. Methods Unlike previous studies where the droplets were simultaneously vaporized with the HIFU exposure for thermal lesion formation, droplets were vaporized by pulse wave (PW) ultrasound prior to continuous wave (CW) ultrasound heating in this experimental study. Under different experimental conditions, we recorded and quantified by the image processing methods the morphology and size of the bubble clouds created and the corresponding thermal lesions formed. Results The results demonstrated that different ADV droplet concentrations produced a variety of thermal lesion shapes and sizes. The lesion volume could be increased using PW ultrasound followed by CW exposure, especially for higher droplet concentrations, e.g. 3.41 × 106/mL yielded a tenfold increase over that seen using CW alone. Conclusion These findings could lead to optimization of HIFU therapy by selecting a bubble forming strategy and droplet concentrations, especially using lower ultrasound powers which is desirable in clinical applications. Electronic supplementary material The online version of this article (10.1186/s12938-018-0596-z) contains supplementary material, which is available to authorized users.

Published
2018

48. Thermal Lesion of Renal Tumour as a Function of Catheter Material Property

Author

Olumide A. Towoju and Moses Omolayo Petinrin

Subjects
Materials science, Multiphysics, Microwave ablation, technology, industry, and agriculture, Relative permittivity, macromolecular substances, respiratory system, equipment and supplies, Renal tumour, Intensity (physics), Catheter, chemistry.chemical_compound, ETFE, chemistry, Thermal lesion, Biomedical engineering
Abstract

The extent of lesion achieved during microwave ablation is dependent on some factors which include the time period of application, its intensity, antenna geometry, and relative permittivity of the tissue. Several studies have been conducted on microwave ablation for the treatment of tumours and have focused on different antenna geometries, its intensity, and time of application. This work seeks to find a correlation between the relative permittivity of the catheter and the temperature distribution which determines necrosis of the tissue by using Tefzel ETFE, Teflon FEP, PFA Teflon type A, PFA Teflon type B, Teflon AF, and PTFE Teflon type B while modelling using COMSOL Multiphysics. The extent of the thermal lesion was observed to be dependent on the relative permittivity of the catheter material, with Tefzel ETFE giving the best performance and Teflon AF providing the least.

Published
2018

49. Ultrasonic evaluation of microwave-induced thermal lesions based on wavelet analysis of mean scatterer spacing.

Author

Zhou, Zhuhuang, Sheng, Lei, Wu, Shuicai, Yang, Chunlan, and Zeng, Yi

Subjects
*ULTRASONICS, *MICROWAVES, *THERMAL analysis, *WAVELETS (Mathematics), *COAGULATION, *TISSUE engineering, *RADIO frequency
Abstract

Highlights: [•] Ultrasound RF data of normal and coagulated porcine liver tissues is collected. [•] Wavelet analysis is used to compute the mean scatterer spacing (MSS) of normal and coagulated tissues. [•] Microwave-induced thermal lesions are detected by MSS differences between normal tissues and thermal lesions. [•] We propose a new method for evaluation of microwave-induced thermal lesions. [Copyright &y& Elsevier]

Published
2013
Full Text
View/download PDF

50. A Tissue Mimicking Polyacrylamide Hydrogel Phantom for Visualizing Thermal Lesions Generated by High Intensity Focused Ultrasound

Author

Choi, Min Joo, Guntur, Sitaramanjaneya Reddy, Lee, Kang IL, Paeng, Dong Guk, and Coleman, Andrew

Subjects
*POLYACRYLAMIDE, *HYDROGELS, *IMAGING phantoms, *HIGH-intensity focused ultrasound, *PHYSIOLOGICAL effects of temperature, *BURNS & scalds, *TISSUES, *SERUM albumin, *DISEASES
Abstract

Abstract: An optically transparent tissue-mimicking (TM) phantom whose acoustic properties are close to those of tissue was constructed for visualizing therapeutic effects by high intensity focused ultrasound (HIFU). The TM phantom was designed to improve a widely used standard bovine serum albumin (BSA) polyacrylamide hydrogel (PAG), which attenuated ultrasound far less than tissue and, unlike tissue, did not scatter ultrasound. A modified recipe has been proposed in the study by adding scattering glass beads with diameters of 40–80 μm (0.002% w/v) and by raising the concentration of acrylamide (30% v/v). The TM BSA-PAG constructed has an acoustic impedance of 1.67 MRayls, a speed of sound of 1576 m/s, an attenuation coefficient of 0.52 dB/cm at 1 MHz, a backscattering coefficient of 0.242 × 10−3 1/sr/cm at 1 MHz and a nonlinear parameter (B/A) of 5.7. These parameters are close to those of liver. The thermal and optical properties are almost the same as the standard BSA-PAG. The characteristic features of the thermal lesions by HIFU were observed to be more accurately visualized in the TM BSA-PAG than in the standard BSA-PAG. In conclusion, the proposed TM BSA-PAG acoustically mimics tissue better than the standard BSA-PAG and is expected to be preferentially used for assuring if a clinical HIFU device produces the thermal lesion as planned. [Copyright &y& Elsevier]

Published
2013
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results