A polyacrylamide gel phantom for radiofrequency ablation

Zhang, Bulin; Hu, Bing; Kuang, Sheng‐Li; Huang, Ying; Wu, Rong; Li, Jia

doi:10.1080/02656730802104732

Cited by 62 publications

(44 citation statements)

References 29 publications

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“…For these reasons, polyacrylamide gel (PAG) is adopted, which has been used for radio frequency ablation research. According to [31], PAG can resist temperatures up to 100 °C and is optically transparent or translucent even with additional proteins for visualizing the heated area. Davidson and Sherar [29] measured the thermal properties of PAG, compared with human liver tissue properties [30], summarized in Table III.…”

Section: Design Of Active Needlementioning

confidence: 99%

Design of an Optically Controlled MR-Compatible Active Needle

et al. 2015

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An active needle is proposed for the development of magnetic resonance imaging (MRI)-guided percutaneous procedures. The needle uses a low-transition-temperature shape memory alloy (LT SMA) wire actuator to produce bending in the distal section of the needle. Actuation is achieved with internal optical heating using laser light transported via optical fibers and side coupled to the LT SMA. A prototype, with a size equivalent to a standard 16-gauge biopsy needle, exhibits significant bending, with a tip deflection of more than 14° in air and 5° in hard tissue. A single-ended optical sensor with a gold-coated tip is developed to measure the curvature independently of temperature. The experimental results in tissue phantoms show that human tissue causes fast heat dissipation from the wire actuator; however, the active needle can compensate for typical targeting errors during prostate biopsy.

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Section: Design Of Active Needlementioning

confidence: 99%

Design of an Optically Controlled MR-Compatible Active Needle

et al. 2015

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“…Table 1 shows the recipe for 1 L of phantom gel with a citrate buffer at a concentration of 0.2 M and pH of 4.3. The gel properties at this pH are reported to mimic human soft-tissue properties with a coagulation temperature of 50 • C (gel turns opaque), although the coagulation temperature of the gel can be adjusted in the range 50-60 • C by changing its pH with the addition of the citrate buffer [13]. A plastic breast mold of 400 mL was used to cast the gel breast phantom, and a small irregular-shaped portion of fresh baby potato (maximal dimension of 25 mm) was embedded inside the phantom to simulate cancerous tissue.…”

Section: Tissue-mimicking Gel Breast Phantommentioning

confidence: 99%

“…The mixture was subsequently polymerized using a reaction initiator-activator pair [13]. Table 1 shows the recipe for 1 L of phantom gel with a citrate buffer at a concentration of 0.2 M and pH of 4.3.…”

Section: Tissue-mimicking Gel Breast Phantommentioning

confidence: 99%

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Image-based 3D modeling and validation of radiofrequency interstitial tumor ablation using a tissue-mimicking breast phantom

et al. 2012

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Purpose Minimally invasive treatment of solid cancers, especially in the breast and liver, remains clinically challenging, despite a variety of treatment modalities, including radiofrequency ablation (RFA), microwave ablation or highintensity focused ultrasound. Each treatment modality has advantages and disadvantages, but all are limited by placement of a probe or US beam in the target tissue for tumor ablation and monitoring. The placement is difficult when the tumor is surrounded by large blood vessels or organs. Patientspecific image-based 3D modeling for thermal ablation simulation was developed to optimize treatment protocols that improve treatment efficacy. Methods A tissue-mimicking breast gel phantom was used to develop an image-based 3D computer-aided design (CAD) model for the evaluation of a planned RF ablation. First, the tissue-mimicking gel was cast in a breast mold to create a 3D breast phantom, which contained a simulated solid tumor. Second, the phantom was imaged in a medical MRI scanner using a standard breast imaging MR sequence. Third, the MR images were converted into a 3D CAD model using commercial software (ScanIP, Simpleware), which was input into another commercial package (COMSOL Multiphysics) for RFA simulation and treatment planning using a finite element method (FEM). For validation of the model, the breast phantom was experimentally ablated using a commercial (RITA) RFA electrode and a bipolar needle with an electrosurgi- Results A 3D CAD model, created from MR images of the complex breast phantom, was successfully integrated with an RFA electrode to perform FEM ablation simulation. The ablation volumes achieved both in the FEM simulation and the experimental test were equivalent, indicating that patientspecific models can be implemented for pre-treatment planning of solid tumor ablation. Conclusion A tissue-mimicking breast gel phantom and its MR images were used to perform FEM 3D modeling and validation by experimental thermal ablation of the tumor. Similar patient-specific models can be created from preoperative images and used to perform finite element analysis to plan radiofrequency ablation. Clinically, the method can be implemented for pre-treatment planning to predict the effect of an individual's tissue environment on the ablation process, and this may improve the therapeutic efficacy.

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“…The phantom has several merits such as stability in high temperatures (50-100°C), solid form to avoid convection heat transfer during thermal treatments, high transparency in room temperature, chemically and physically long time stability, three-dimensional visualization of heating area due to BSA coagulation, easy preparation, and similar thermal and electrical properties as human tissues (Mcdonal et al, 2004;Bu-Lin et al, 2008). BSA (1.5% w/v) (Sigma-Aldrich) was dissolved in 0.02 M citrate buffer consisting of citric acid monohydrous (0.154% w/v) and citrate tribasic dehydrate (0.373% w/v).…”

Section: Tissue Mimicking Phantom Preparationmentioning

confidence: 99%