Ex vivo quantification of the cooling effect of liver vessels on radiofrequency ablation volume

Radiofrequency ablation (RFA) is a treatment for liver tumors with advantages over the traditional treatment of surgical resection. This procedure has the shortest recovery time in early stage tumors. The objective of this study is to parameterize the impedance curve of the RFA procedure in an ex vivo model by defining seven parameters (t1/2, tminimum, tend, Zinitial, Z1/2, Zminimum and Zend). Based on these parameters, three performance indices are defined: one to identify the magnitude of impedance curve asymmetry (δ), one Drop ratio (DR) describing the percentage of impedance decrease until the minimum impedance point is reached, and Ascent Ratio (AR) describing the magnitude of increase in impedance from the minimum impedance point to its maximum point. Fifty ablations were performed in a bovine ex vivo model to measure and evaluate the proposed parameters and performance index. The results show that the groups had an average δ of 29.02%, DR of 22.41%, and AR of 545.33% for RFA without the use of saline or deionized solutions. The saline solution and deionized water-cooled groups indicated the correlation of performance indices δ, DR, and AR with the obtained final ablation volume. Therefore, by controlling these parameters and indices, lower recurrence is achieved.

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An initial ex vivo evaluation of temperature profile and thermal injury formation on the epiesophageal surface during radiofrequency ablation

Journal of Cardiovascular Electrophysiology ◽

10.1111/jce.14911 ◽

2021 ◽

Author(s):

Ronit Kar ◽

Allison Post ◽

Mathews John ◽

Ashley Rook ◽

Mehdi Razavi

Keyword(s):

Radiofrequency Ablation ◽

Temperature Profile ◽

Thermal Injury ◽

Ex Vivo

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Optical signatures of radiofrequency ablation in biological tissues

Scientific Reports ◽

10.1038/s41598-021-85653-0 ◽

2021 ◽

Vol 11 (1) ◽

Author(s):

Pranav Lanka ◽

Kalloor Joseph Francis ◽

Hindrik Kruit ◽

Andrea Farina ◽

Rinaldo Cubeddu ◽

...

Keyword(s):

Radiofrequency Ablation ◽

Treatment Time ◽

Ex Vivo ◽

Biological Tissues ◽

Tissue Response ◽

Optical Monitoring ◽

Diffuse Optical Spectroscopy ◽

Spectral Changes ◽

Scattering Spectra ◽

Optical Behavior

AbstractAccurate monitoring of treatment is crucial in minimally-invasive radiofrequency ablation in oncology and cardiovascular disease. We investigated alterations in optical properties of ex-vivo bovine tissues of the liver, heart, muscle, and brain, undergoing the treatment. Time-domain diffuse optical spectroscopy was used, which enabled us to disentangle and quantify absorption and reduced scattering spectra. In addition to the well-known global (1) decrease in absorption, and (2) increase in reduced scattering, we uncovered new features based on sensitive detection of spectral changes. These absorption spectrum features are: (3) emergence of a peak around 840 nm, (4) redshift of the 760 nm deoxyhemoglobin peak, and (5) blueshift of the 970 nm water peak. Treatment temperatures above 100 °C led to (6) increased absorption at shorter wavelengths, and (7) further decrease in reduced scattering. This optical behavior provides new insights into tissue response to thermal treatment and sets the stage for optical monitoring of radiofrequency ablation.

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