Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study

Nguoy L. Mak; Ean H. Ooi; N. Pamidi; Ee V. Lau; Ji J. Foo

doi:10.1007/978-981-97-1920-4_15

Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study

Nguoy L. Mak, Ean H. Ooi, N. Pamidi, Ee V. Lau, Ji J. Foo

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

Abstract

Thermochemical ablation (TCA) is a minimally invasive technique for treating cancer by applying localized heat generated from chemical reactions to eradicate cancerous tissue. One preferred exothermic reaction involves the neutralization between hydrochloric acid (HCl) and sodium hydroxide (NaOH), resulting in safe by-products like water and sodium chloride (NaCl). The administration of acid and base can occur in a sequential or simultaneous manner. In the sequential approach, either the acid or the base is introduced into the tissue first while the simultaneous approach involves combining both acid and base in the distal tip of a dual-lumen needle, resulting in a heated salt solution that is injected into the tissue. However, the progress of TCA has been limited to preclinical stages due to a lack of comprehension regarding how the reagents flow within the tissue. An inherent risk of TCA is the unpredictable reagent flow within the tissue, which poses a potential threat to patients. Current experimental methods do not provide visualization of the flow, neutralization, heat release, tissue temperature rise, and thermal damage. A mathematical and computational framework for TCA has been recently developed and applied to simulate TCA using both delivery methods. Through numerical predictions, the study revealed the thermochemical processes occurring within the tissue during TCA. The sequential injection approach failed to sustain high tissue temperatures and caused minimal damage, whereas the simultaneous injection approach effectively maintained elevated tissue temperatures, leading to significant thermal damage. These numerical predictions demonstrated reasonable agreement with experimental results reported in the relevant literature.

Original language	English
Title of host publication	Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs
Subtitle of host publication	APSAO: Making Breakthrough via Multidisciplinary Approach
Editors	Mohd Jamil Mohamed Mokhtarudin, Azam Ahmad Bakir, Andrew Stephens, Nadiah Sulaiman
Place of Publication	Singapore Singapore
Publisher	Springer
Pages	151-160
Number of pages	10
ISBN (Electronic)	9789819719204
ISBN (Print)	9789819721108
DOIs	https://doi.org/10.1007/978-981-97-1920-4_15
Publication status	Published - 2024
Event	Annual Congress of the Asia-Pacific Society for Artificial Organs 2023 - University of Malaya. PAUM Clubhouse, Kuala Lumpur, Malaysia Duration: 25 Sept 2023 → 26 Sept 2023 Conference number: 7th https://link.springer.com/book/10.1007/978-981-97-1920-4 (Published Proceedings) https://asiancardiac.com/ap23a.html (Website)

Publication series

Name	Lecture Notes in Bioengineering
Publisher	Springer
Volume	1
ISSN (Print)	2195-271X
ISSN (Electronic)	2195-2728

Conference

Conference	Annual Congress of the Asia-Pacific Society for Artificial Organs 2023
Abbreviated title	APSAO 2023
Country/Territory	Malaysia
City	Kuala Lumpur
Period	25/09/23 → 26/09/23
Internet address	https://link.springer.com/book/10.1007/978-981-97-1920-4 (Published Proceedings) https://asiancardiac.com/ap23a.html (Website)

Keywords

Cancer treatment
Neutralization reaction
Thermal ablation

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

Access to Document

10.1007/978-981-97-1920-4_15

Cite this

Mak, N. L., Ooi, E. H., Pamidi, N., Lau, E. V., & Foo, J. J. (2024). Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study. In M. J. Mohamed Mokhtarudin, A. Ahmad Bakir, A. Stephens, & N. Sulaiman (Eds.), Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs: APSAO: Making Breakthrough via Multidisciplinary Approach (pp. 151-160). (Lecture Notes in Bioengineering; Vol. 1). Springer. https://doi.org/10.1007/978-981-97-1920-4_15

Mak, Nguoy L. ; Ooi, Ean H. ; Pamidi, N. et al. / Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation : A Computational Study. Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs: APSAO: Making Breakthrough via Multidisciplinary Approach. editor / Mohd Jamil Mohamed Mokhtarudin ; Azam Ahmad Bakir ; Andrew Stephens ; Nadiah Sulaiman. Singapore Singapore : Springer, 2024. pp. 151-160 (Lecture Notes in Bioengineering).

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title = "Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study",

abstract = "Thermochemical ablation (TCA) is a minimally invasive technique for treating cancer by applying localized heat generated from chemical reactions to eradicate cancerous tissue. One preferred exothermic reaction involves the neutralization between hydrochloric acid (HCl) and sodium hydroxide (NaOH), resulting in safe by-products like water and sodium chloride (NaCl). The administration of acid and base can occur in a sequential or simultaneous manner. In the sequential approach, either the acid or the base is introduced into the tissue first while the simultaneous approach involves combining both acid and base in the distal tip of a dual-lumen needle, resulting in a heated salt solution that is injected into the tissue. However, the progress of TCA has been limited to preclinical stages due to a lack of comprehension regarding how the reagents flow within the tissue. An inherent risk of TCA is the unpredictable reagent flow within the tissue, which poses a potential threat to patients. Current experimental methods do not provide visualization of the flow, neutralization, heat release, tissue temperature rise, and thermal damage. A mathematical and computational framework for TCA has been recently developed and applied to simulate TCA using both delivery methods. Through numerical predictions, the study revealed the thermochemical processes occurring within the tissue during TCA. The sequential injection approach failed to sustain high tissue temperatures and caused minimal damage, whereas the simultaneous injection approach effectively maintained elevated tissue temperatures, leading to significant thermal damage. These numerical predictions demonstrated reasonable agreement with experimental results reported in the relevant literature.",

keywords = "Cancer treatment, Neutralization reaction, Thermal ablation",

author = "Mak, {Nguoy L.} and Ooi, {Ean H.} and N. Pamidi and Lau, {Ee V.} and Foo, {Ji J.}",

note = "Publisher Copyright: {\textcopyright} The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2024.; Annual Congress of the Asia-Pacific Society for Artificial Organs 2023, APSAO 2023 ; Conference date: 25-09-2023 Through 26-09-2023",

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language = "English",

isbn = "9789819721108",

series = "Lecture Notes in Bioengineering",

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booktitle = "Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs",

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Mak, NL, Ooi, EH , Pamidi, N , Lau, EV & Foo, JJ 2024, Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study. in MJ Mohamed Mokhtarudin, A Ahmad Bakir, A Stephens & N Sulaiman (eds), Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs: APSAO: Making Breakthrough via Multidisciplinary Approach. Lecture Notes in Bioengineering, vol. 1, Springer, Singapore Singapore, pp. 151-160, Annual Congress of the Asia-Pacific Society for Artificial Organs 2023, Kuala Lumpur, Malaysia, 25/09/23. https://doi.org/10.1007/978-981-97-1920-4_15

Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study. / Mak, Nguoy L.; Ooi, Ean H.; Pamidi, N. et al.
Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs: APSAO: Making Breakthrough via Multidisciplinary Approach. ed. / Mohd Jamil Mohamed Mokhtarudin; Azam Ahmad Bakir; Andrew Stephens; Nadiah Sulaiman. Singapore Singapore: Springer, 2024. p. 151-160 (Lecture Notes in Bioengineering; Vol. 1).

Research output: Chapter in Book/Report/Conference proceeding › Conference Paper › Research › peer-review

TY - GEN

T1 - Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation

T2 - Annual Congress of the Asia-Pacific Society for Artificial Organs 2023

AU - Mak, Nguoy L.

AU - Ooi, Ean H.

AU - Pamidi, N.

AU - Lau, Ee V.

AU - Foo, Ji J.

N1 - Conference code: 7th

PY - 2024

Y1 - 2024

N2 - Thermochemical ablation (TCA) is a minimally invasive technique for treating cancer by applying localized heat generated from chemical reactions to eradicate cancerous tissue. One preferred exothermic reaction involves the neutralization between hydrochloric acid (HCl) and sodium hydroxide (NaOH), resulting in safe by-products like water and sodium chloride (NaCl). The administration of acid and base can occur in a sequential or simultaneous manner. In the sequential approach, either the acid or the base is introduced into the tissue first while the simultaneous approach involves combining both acid and base in the distal tip of a dual-lumen needle, resulting in a heated salt solution that is injected into the tissue. However, the progress of TCA has been limited to preclinical stages due to a lack of comprehension regarding how the reagents flow within the tissue. An inherent risk of TCA is the unpredictable reagent flow within the tissue, which poses a potential threat to patients. Current experimental methods do not provide visualization of the flow, neutralization, heat release, tissue temperature rise, and thermal damage. A mathematical and computational framework for TCA has been recently developed and applied to simulate TCA using both delivery methods. Through numerical predictions, the study revealed the thermochemical processes occurring within the tissue during TCA. The sequential injection approach failed to sustain high tissue temperatures and caused minimal damage, whereas the simultaneous injection approach effectively maintained elevated tissue temperatures, leading to significant thermal damage. These numerical predictions demonstrated reasonable agreement with experimental results reported in the relevant literature.

AB - Thermochemical ablation (TCA) is a minimally invasive technique for treating cancer by applying localized heat generated from chemical reactions to eradicate cancerous tissue. One preferred exothermic reaction involves the neutralization between hydrochloric acid (HCl) and sodium hydroxide (NaOH), resulting in safe by-products like water and sodium chloride (NaCl). The administration of acid and base can occur in a sequential or simultaneous manner. In the sequential approach, either the acid or the base is introduced into the tissue first while the simultaneous approach involves combining both acid and base in the distal tip of a dual-lumen needle, resulting in a heated salt solution that is injected into the tissue. However, the progress of TCA has been limited to preclinical stages due to a lack of comprehension regarding how the reagents flow within the tissue. An inherent risk of TCA is the unpredictable reagent flow within the tissue, which poses a potential threat to patients. Current experimental methods do not provide visualization of the flow, neutralization, heat release, tissue temperature rise, and thermal damage. A mathematical and computational framework for TCA has been recently developed and applied to simulate TCA using both delivery methods. Through numerical predictions, the study revealed the thermochemical processes occurring within the tissue during TCA. The sequential injection approach failed to sustain high tissue temperatures and caused minimal damage, whereas the simultaneous injection approach effectively maintained elevated tissue temperatures, leading to significant thermal damage. These numerical predictions demonstrated reasonable agreement with experimental results reported in the relevant literature.

KW - Cancer treatment

KW - Neutralization reaction

KW - Thermal ablation

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PB - Springer

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ER -

Mak NL, Ooi EH , Pamidi N , Lau EV , Foo JJ. Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study. In Mohamed Mokhtarudin MJ, Ahmad Bakir A, Stephens A, Sulaiman N, editors, Proceedings of the Annual Congress of the Asia-Pacific Society for Artificial Organs: APSAO: Making Breakthrough via Multidisciplinary Approach. Singapore Singapore: Springer. 2024. p. 151-160. (Lecture Notes in Bioengineering). doi: 10.1007/978-981-97-1920-4_15

Comparisons of Sequential and Simultaneous Acid–Base Injections During Thermochemical Ablation: A Computational Study

Abstract

Publication series

Conference

Keywords

UN SDGs

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