Welcome to the Golan Lab website
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We are an interdisciplinary group pursuing mechanobiology, bioenergetics and biotechnology related research.
We combine our strong engineering and medical/biological backgrounds to study fields such as biological fluid mechanics, blood vessel pathologies, cancer, embryonic development, thermoregulation and medical implants.
News:​
Oct. 2020 - Congratulations idan Casif for graduating your Masters
Oct. 2020 - Our paper "Efficient PMV computation for public environments with transient populations" was just accepted for publication in Energy & Buildings.
Naji Sirhan & SaarGolan, https://doi.org/10.1016/j.enbuild.2020.110523
Free link up to 24.12.2020:
https://authors.elsevier.com/a/1c0d91M7zH28EM
Abstract
Thermal Comfort (TC) is an important environmental parameter strongly affecting human well-being. Nevertheless, it is not being routinely monitored in public environments (e.g., hospitals and shopping malls) characterized by high occupancy and transient populations. Furthermore, the unique computational demands of TC models for such environments are less studied. We establish large datasets representing such settings and corresponding Predicted Mean Vote (PMV) values as calculated by ISO7730 (Fanger’s model). We then demonstrate that PMV values can be reasonably estimated using linear regressions if the full PMV range is piecewise segmented. Support Vector Machine (SVM) regression provides certain accuracy improvement over linear that becomes marginal for sufficiently small segments. However, while SVM computation becomes orders of magnitude slower than ISO7730 algorithm for large datasets, linear computation becomes exponentially faster. Furthermore, the latter does not require unique expertise in mathematics/TC and constitutes an excellent first-step checkpoint to more accurate algorithms adapting the environment to transient populations. Spatial/temporal flexible segment resolution adds compliance with dynamic demands. To conclude, PMV piecewise linear regression can greatly expedite implementing TC and thus conserving energy in public environments, particularly those exposed to extreme climates. To this end, future TC models must consider computation efficiency besides accuracy.
Aug. 2020 - Our chapter "Advocating Intraluminal Radiation Therapy in Cerebral Arteriovenous Malformation Treatment" was listed as one of the most downloaded chapters in 2020:
May 2020 - Saar receives a thank you note from the prestigious Israel Science Foundation (ISF) for his reviewing contribution.
Oct. 2019 - Our chapter "Advocating Intraluminal Radiation Therapy in Cerebral Arteriovenous Malformation Treatment" was just accepted for publication
Nitzan Hirsh, Amir Arthur and Saar Golan (October 17th 2019). IntechOpen, DOI: 10.5772/intechopen.89662.
Sep. 2019 - Congratulations Nitzan and Amir for receiving recongnition and seed investment for your new start-up.
Sep. 2019 - Congratulations Dimitri Khalilov, Guy Lerner, Michael Mistezki, Oren Maya, and Naji Sirhan for graduating your Masters
May 2019 - Our manuscript "A novel Ischemia Reperfusion Injury hereditary tissue model for pressure ulcers progression", was just accepted for publication in "Biomechanics and Modeling in Mechanobiology"
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ABSTRACT: Ischemia Reperfusion Injury (IRI) involvement in Pressure Ulcers (PU) progression via a surge of oxidative stress and inflammatory responses is well-documented. IRI strongly depends on the mechanical loading history. We present a generalized IRI model considering external loading, dynamic tissue healing capacity, accumulating mechanical and reperfusion mediated damages and competing repair processes of saturating nature. Reperfusion depends on strain and strain rate to enhance loading history sensitivity. Tissue-specific ulceration susceptibility is assumed dependent on variable accumulated damage. We study damage evolution under cyclic loading having several strain expulsion profiles and demonstrate load relief history has critical impact on PU progression. Abrupt load removal generally follows existing models representing extreme repair/damage. We show (first time in-silico) that under certain conditions (previously experimentally identified) IRI becomes repairing rather than damaging. In particular, we recapitulate the preconditioning and postconditioning IRI hallmarks. Finally, it is customary among physicians and nurses to promptly alleviate mechanical load applied to patients lying in bed for extended periods and in risk of developing PUs. We demonstrate this practice can be harmful. If load removal is performed early while reperfusion is still beneficial then this conduct is suitable. However, if a critical tissue damage has been crossed then abrupt expulsion can constitute the worst-case scenario for patient outcome. If no preliminary patient documentation is available, we recommend gradual load removal since risks of accelerated damage eventually leading to ulceration supersede the improved repair potential benefit.
May. 2019 - Congratulations Yahav for winning the Ariel hackathon and receiving a 10000 NIS prize!
May 2019 - Congratulations Elad for graduating your Masters summa cum laude
Feb. 2018 - Congratulations Tanya for graduating your Masters summa cum laude
Jan. 2019 - Congratulations Chen for graduating your Masters summa cum laude
Dec. 2018 - Congratulations Ronen for graduating with honors
Dec. 2018 - Congratulations Ronen for the new family addition
March 2018 - Congratulations Elad for graduating with honors
March. 2018 - Congratulations Rotem on your wedding day
Feb. 2018 - Applaud Elad for a very well given Master defense talk at the Technion. You made us all very proud.
Jan. 2018 - Congratulations Yael for the new family addition
Nov. 2017 - Congratulations and welcome aboard to our new research assistant Hen Bilinski
Nov. 2017 - Congratulations and welcome aboard to our new lab members -
Ruvik Knoll, Roy Barak, Yona Winboim, Matan Manor, Aizik Iv, Aviad Hasnis, Rotem Cohen, Yael Berberian, Einat Shaked, Nitzan Hirsh, Amir Arthur
Sep. 2017 - Congratulations to all our graduates -
Effy Aviv, Miri Kaftor, Mark Raik, Nati Michaeli, Tomer Leitner, Sagas Ali, Shani David and Sivan Salomons
April 2017 - Our work "The Humboldt Penguin (Spheniscus humboldti) Rete Tibiotarsale – a supreme biological heat exchanger" was just accepted for publication in the Journal of Thermal Biology
Download available here (until July 10th):
2016 - Congratulations and welcome aboard to our new lab members -
Effy Aviv, Miri Kaftor, Mark Raik, Nati Michaeli, Tomer Leitner, Sagas Ali, Shani David and Sivan Salomons
2016 - Our work on aortic aneurysms repair using the chimney technique was just accepted for publication
2016 - Congratulations and welcome aboard to our new lab members -
Tanya Krovizki and Chen Mor Yosef
2016 - We published a novel study on blood flow in the abdominal aorta following the chimney endovascular aneurysm repair:
Hila Ben Gur, Moshe Brand, Gabor Kosa, Saar Golan, Blood Flow in the Abdominal Aorta Post 'Chimney' Endovascular Aneurysm Repair - A Computational Fluid Dynamics Study, EUROSIM 2016, Oulu, Finland, paper #1570284985
2015 - We published a pioneering study on the enhanced stresses experienced by vessels undergoing ovelapping implant stenting:
E. Leybovitch, S. Golan, M. Brand, 2015, Mechanical Interaction between Overlapping Stents and Peripheral Arteries - Numerical Model, The 2015 IEEE European Modelling Symposium (EMS 2015), Madrid, Spain, Paper No. 1570217062