Thermal Modeling and Thermal Effects in Biological Systems for Tissue Engineering and Regenerative Medicine
Topics include but are not limited to the following:
Evolving non‐invasive thermal modeling and analysis methods for tissue engineering and regenerative therapy
Trends in real-time thermal imaging for monitoring tissue temperature distribution and efficacy of regenerative therapies
Computational thermal modeling and simulation techniques in hyperthermia and regenerative medicine for treating cancer
Finite element analysis (FEA), computational fluid dynamics (CFD), and bioheat transfer models for simulating thermal behavior in biological tissues
Precise temperature control techniques and analysis in tissue culture for optimal cellular viability and tissue development
Challenges in managing thermal effects on cell behavior and their implications for tissue regeneration
Thermal modeling in optimizing cryopreservation protocols for preserving tissues and organs for transplantation
Research on thermal properties of biomaterials and its impact on suitability for tissue engineering applications and regenerative medicine
Multiscale thermal modeling techniques and systems for adaptive tissue regeneration and development
Novel technological breakthroughs in predicting the thermal effects on cellular behavior and tissue growth
Thermal modeling platform for investigating new regenerative therapies with thermal energy to target diseased tissues
Novel safety measures and control in thermal-based therapies and devices for tissue engineering and regenerative medicine
Non-invasive thermal imaging of sweat glands and diagnosing thermoregulatory disorders for tissue health
Challenges in advancing cutting-edge eccrine sweat gland bioengineering and assessing functionality for therapeutic applications
Multiscale modeling approaches and scaffold design for sweat gland regeneration and treating hyperhidrosis/hypohidrosis
Guest editors:
Sistla Durga Srinivasa Murthy
Department of Biochemistry, Sri Venkateswara University, Tirupati, India
Marco Tatullo
Department of Translational Biomedicine and Neuroscience, University of Bari, Bari, Italy
Ziyad. S Haidar
Faculty of Dentistry, University of the Andes, Las Condes, Chile
Manuscript submission information:
Manuscript submission deadline: 20 March 2025
You are invited to submit your manuscript at any time before the submission deadline. For any inquiries about the appropriateness of contribution topics, please contact Dr. Sistla Durga Srinivasa Murthy via sdsmurthy@rediffmail.com.
Please refer to the https://www.sciencedirect.com/journal/thermal-science-and-engineering-progress/publish/guide-for-authors to prepare your manuscript, and select the article type of “VSI: Thermal Effects in Biological Systems” when submitting your manuscript online at the journal’s submission platform https://www.editorialmanager.com/tsep/default.aspx. Both the Guide for Authors and the submission portal could also be found on the https://www.sciencedirect.com/journal/thermal-science-and-engineering-progress.
Keywords:
Thermal Effects; Biological Systems; Tissue Engineering; Regenerative Medicine; Heat Transfer
Thermal Science and Engineering Progress的CAR指数
2023年3月份科睿唯安官方一次性踢除35本SCI期刊,多数涉及学术诚信问题,让我们意识到学术期刊的“被踢”指数,也很重要。目前,对于期刊的“被踢”指数,这里介绍一下:CAR指数(关于CAR的详细介绍,请关注:www.jcarindex.com),这是一种评价期刊学术诚信风险的指数,指数越高代表可能的风险越大。从数据看,Thermal Science and Engineering Progress不管是2022年度,还是2023年度的CAR指数,都是比较低的。当然,CAR指数仅供参考,期刊风险情况,需以科睿唯安或中科院预警等官方为准!
让推送更美好~
