Enhancement of skin tumor laser hyperthermia with Ytterbium nanoparticles: numerical simulation

Laser hyperthermia therapy (HT) has emerged as a well-established method for treating cancer, yet it poses unique challenges in comprehending heat transfer dynamics within both healthy and cancerous tissues due to their intricate nature. This study investigates laser HT therapy as a promising avenue...

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Published in:	Biomedical materials (Bristol) Vol. 19; no. 3
Main Authors:	Othman, Zamrood A, Hassan, Yousif M, Karim, Abdulkarim Y
Format:	Journal Article
Language:	English
Published:	England 01-05-2024
Subjects:	Computer Simulation Hot Temperature Humans Hyperthermia, Induced - methods Lasers Models, Biological Nanoparticles Skin Neoplasms - therapy Ytterbium cylindrical bioheat equation laser hyperthermia YbNPs beam shapes of laser finite difference method
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Abstract	Laser hyperthermia therapy (HT) has emerged as a well-established method for treating cancer, yet it poses unique challenges in comprehending heat transfer dynamics within both healthy and cancerous tissues due to their intricate nature. This study investigates laser HT therapy as a promising avenue for addressing skin cancer. Employing two distinct near-infrared (NIR) laser beams at 980 nm, we analyze temperature variations within tumors, employing Pennes' bioheat transfer equation as our fundamental investigative framework. Furthermore, our study delves into the influence of Ytterbium nanoparticles (YbNPs) on predicting temperature distributions in healthy and cancerous skin tissues. Our findings reveal that the application of YbNPs using a Gaussian beam shape results in a notable maximum temperature increase of 5 °C within the tumor compared to nanoparticle-free heating. Similarly, utilizing a flat top beam alongside YbNPs induces a temperature rise of 3 °C. While this research provides valuable insights into utilizing YbNPs with a Gaussian laser beam configuration for skin cancer treatment, a more thorough understanding could be attained through additional details on experimental parameters such as setup, exposure duration, and specific implications for skin cancer therapy.
AbstractList	Laser hyperthermia therapy (HT) has emerged as a well-established method for treating cancer, yet it poses unique challenges in comprehending heat transfer dynamics within both healthy and cancerous tissues due to their intricate nature. This study investigates laser HT therapy as a promising avenue for addressing skin cancer. Employing two distinct near-infrared (NIR) laser beams at 980 nm, we analyze temperature variations within tumors, employing Pennes' bioheat transfer equation as our fundamental investigative framework. Furthermore, our study delves into the influence of Ytterbium nanoparticles (YbNPs) on predicting temperature distributions in healthy and cancerous skin tissues. Our findings reveal that the application of YbNPs using a Gaussian beam shape results in a notable maximum temperature increase of 5 °C within the tumor compared to nanoparticle-free heating. Similarly, utilizing a flat top beam alongside YbNPs induces a temperature rise of 3 °C. While this research provides valuable insights into utilizing YbNPs with a Gaussian laser beam configuration for skin cancer treatment, a more thorough understanding could be attained through additional details on experimental parameters such as setup, exposure duration, and specific implications for skin cancer therapy.
Author	Othman, Zamrood A Karim, Abdulkarim Y Hassan, Yousif M
Author_xml	– sequence: 1 givenname: Zamrood A orcidid: 0000-0003-3284-290X surname: Othman fullname: Othman, Zamrood A organization: Department of Physics, College of Science, Salahaddin University -Erbil, Kurdistan Region, Iraq – sequence: 2 givenname: Yousif M surname: Hassan fullname: Hassan, Yousif M organization: Department of Physics, College of Science, Salahaddin University -Erbil, Kurdistan Region, Iraq – sequence: 3 givenname: Abdulkarim Y surname: Karim fullname: Karim, Abdulkarim Y organization: Department of Biology, College of Science, Salahaddin University -Erbil, Kurdistan Region, Iraq
BackLink	https://www.ncbi.nlm.nih.gov/pubmed/38545719$$D View this record in MEDLINE/PubMed
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Snippet	Laser hyperthermia therapy (HT) has emerged as a well-established method for treating cancer, yet it poses unique challenges in comprehending heat transfer...
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SubjectTerms	Computer Simulation Hot Temperature Humans Hyperthermia, Induced - methods Lasers Models, Biological Nanoparticles Skin Neoplasms - therapy Ytterbium
Title	Enhancement of skin tumor laser hyperthermia with Ytterbium nanoparticles: numerical simulation
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