Summary
Overview
Work History
Education
Skills
Research Interests
Peer Reviewed Publications
Conference Proceedings
Personal Information
Timeline
Generic

Hossein Bahreinizad

Research Assitant
Lubbock,TX

Summary

Motivated student currently working towards degree in Biomechanics. Adept at prepping resources, equipment, and materials for research. Extensive background in investigating Head-neck Biomechanics research.

Overview

2
2
years of professional experience
7
7
years of post-secondary education
3
3
Languages

Work History

Research Assistant

Texas Tech University
01.2022 - Current
  • Contributed to peer-reviewed journal publications, demonstrating expertise across diverse topics.
  • Participated in the development of Mission Adaptive, Modular Law Enforcement Helmet Design, funded by the Department of Homeland Security.
  • Contributed to the development of NextGen firefighting helmet design, integrating thermal and ballistic protection, funded by the Department of Homeland Security.
  • Collaborated with multidisciplinary teams to devise innovative research methodologies and strategies.
  • Prepared comprehensive progress reports, ensuring stakeholders remained informed and engaged.
  • Enhanced experimental procedures through systematic testing and troubleshooting, minimizing errors in data interpretation.
  • Employed statistical software for precise data analysis, yielding insights from complex datasets.
  • Presented research findings at conferences, contributing to the field's advancement.
  • Conducted thorough literature reviews to underpin hypothesis formulation and identify knowledge gaps.

Education

M.Sc. - Biomedical Engineering-Biomechanics

University of Isfahan
01.2013 - 05.2015

B.Sc. - Biomedical Engineering-Biomechanics

University of Isfahan
01.2009 - 05.2013

Ph.D. - Biomechanics

Texas Tech University
Lubbock, TX
05.2001 -

Skills

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Research Interests

  • Computational Biomechanics
  • Traumatic Brain Injury
  • Analysis of Human Gait
  • Bio fluid-Mechanics
  • Simulation and Modeling in Biological System
  • Numerical simulation of Biological Fluid and Tissue Interaction (Fluid-Structure Interaction, FSI)
  • Hyperthermia with Magnetic Nanopartciles

Peer Reviewed Publications

  • Bahreinizad, H., & Chowdhury, S. K. (2023). Investigating the Role of Neck Muscle Activation and Neck Damping Characteristics in Brain Injury Mechanism. Under Review.
  • Bahreinizad, H., Chowdhury, S. K., Paulon, G., Wei, L., & Santos, F. Z. (2023). Development and Validation of an MRI-Derived Head-Neck Finite Element Model. Under Review.
  • Eivazzadeh-Keihan, R., Asgharnasl, S., Aliabadi, H. A. M., Tahmasebi, B., Radinekiyan, F., Maleki, A., Bahreinizad, H., Mahdavi, M., Alavijeh, M. S., & Saber, R. (2022). Magnetic graphene oxide–lignin nanobiocomposite: A novel, eco-friendly and stable nanostructure suitable for hyperthermia in cancer therapy. RSC advances, 12(6), 3593-3601.
  • Eivazzadeh-Keihan, R., Khalili, F., Radinekiyan, F., Maleki, A., Mahdavi, M., Bani, M. S., Bahreinizad, H., & Babaniamansour, P. (2022). Cross-linked lignin/agarose hydrogels coated with iron oxide magnetic nanoparticles for in vitro hyperthermia cancer therapy. Journal of Materials Research, 37(23), 4392-4402.
  • Eivazzadeh-Keihan, R., Asgharnasl, S., Bani, M. S., Radinekiyan, F., Maleki, A., Mahdavi, M., Babaniamansour, P., Bahreinizad, H., Shalan, A. E., & Lanceros-Méndez, S. (2021). Magnetic copper ferrite nanoparticles functionalized by aromatic polyamide chains for hyperthermia applications. Langmuir, 37(29), 8847-8854.
  • Eivazzadeh-Keihan, R., Bahreinizad, H., Amiri, Z., Aliabadi, H. A. M., Salimi-Bani, M., Nakisa, A., Davoodi, F., Tahmasebi, B., Ahmadpour, F., & Radinekiyan, F. (2021). Functionalized magnetic nanoparticles for the separation and purification of proteins and peptides. TrAC Trends in Analytical Chemistry, 141, 116291.
  • Dahaghin, A., Emadiyanrazavi, S., Salimibani, M., Bahreinizad, H., Haghpanahi, M., Eivazzadeh-Keihan, R., & Maleki, A. (2021). A numerical investigation into the magnetic nanoparticles hyperthermia cancer treatment injection strategies. Biocybernetics and Biomedical Engineering, 41(2), 516-526.
  • Dahaghin, A., Emadiyanrazavi, S., Haghpanahi, M., Salimibani, M., Bahreinizad, H., Eivazzadeh-Keihan, R., & Maleki, A. (2021). A comparative study on the effects of increase in injection sites on the magnetic nanoparticles hyperthermia. Journal of Drug Delivery Science and Technology, 63, 102542.
  • Eivazzadeh-Keihan, R., Radinekiyan, F., Asgharnasl, S., Maleki, A., & Bahreinizad, H.(2020). A natural and eco-friendly magnetic nanobiocomposite based on activated chitosan for heavy metals adsorption and the in-vitro hyperthermia of cancer therapy. Journal of Materials Research and Technology, 9(6), 12244-12259.
  • Bani, M. S., Hatamie, S., Haghpanahi, M., Bahreinizad, H., Alavijeh, M. H. S., Eivazzadeh-Keihan, R., & Wei, Z. H. (2019). Casein-coated iron oxide nanoparticles for in vitro hyperthermia for cancer therapy. Spin,
  • Yazdani, F., Razeghi, M., Karimi, M. T., Bani, M. S., & Bahreinizad, H. (2019). Foot hyperpronation alters lumbopelvic muscle function during the stance phase of gait. Gait & Posture, 74, 102-107.
  • Bahreinizad, H., Bani, M. S., Khosravi, A., & Karimi, A. (2018). A numerical study on the application of the functionally graded bioabsorbable materials in the stent design. Artery Research, 24, 1-8.
  • Khosravi, A., Akbari, A., Bahreinizad, H., Salimi Bani, M., & Karimi, A. (2017). Optimizing through computational modeling to reduce dogboning of functionally graded coronary stent material. Journal of Materials Science: Materials in Medicine, 28, 1-7.
  • Bahreinizad, H., Salimi Bani, M., Hasani, M., Karimi, M. T., Sharifmoradi, K., & Karimi, A. (2017). A comparative study on the mechanical energy of the normal, ACL, osteoarthritis, and Parkinson subjects. Technology and Health Care, 25(4), 771-780.
  • Khosravi, A., Bahreinizad, H., Bani, M. S., & Karimi, A. (2017). A numerical study on the application of the functionally graded materials in the stent design. Materials Science and Engineering: C, 73, 182-188.
  • Khosravi, A., Bani, M. S., Bahreinizad, H., & Karimi, A. (2017). Viscoelastic properties of the autologous bypass grafts: A comparative study among the small saphenous vein and internal thoracic artery. Artery Research, 19, 65-71.
  • Khosravi, A., Bani, M. S., Bahreinizad, H., & Karimi, A. (2016). A computational fluid–structure interaction model to predict the biomechanical properties of the artificial functionally graded aorta. Bioscience Reports, 36(6), e00431.
  • Taghi Karimi, M., Jamshidi, N., Bahreinizad, H., Bani, M. S., & Omar, A. H. H. (2014). A new approach to measure stability during quiet standing. Work, 49(4), 663-668.

Conference Proceedings

  • Bahreinizad, H. and Oscuii, H.N., Numerical investigation of role of synovial fluid in a poroelastic model of natural human knee joint during walking, 22nd Iranian Conference of Biomedical Engineering (ICBME), 2015
  • Bani, M. S., Ayatollahi, M. R., Asnafi, A., Shirazi, H A., and Bahreinizad, H., Fluid Structure Interaction Simulation of Aorta Graft Made of PTFE and Dacron, 22nd Iranian Conference of Biomedical Engineering (ICBME), 2015
  • Bahreinizad, H., Bani, M. S., Taghi Karimi, M., Prediction of Mechanical Energy Expenditure of Gait in Normal and Parkinson Groups Using Dimensional Analysis, 22nd Iranian Conference of Biomedical Engineering (ICBME), 2015
  • Bahreinizad, H., Bani, M. S., Hasani, M., Ziaee, E., and Shirazi, H A., Fluid structure interaction simulation of aorta graft made of PTFE and Dacron, 2st Cardiovascular disease conference, Iran, 2016
  • Soltani, N., Ziaee, E., Khoramishad, H., Bani, M. S., Bahreinizad, H., and Karimi, A., The study of the changing in the Knee artificial Cartilage mechanical properties effects on the Miniscus and the adjacent tissues by using Sticky Area Model, 4st Biennial International Congress of ISKAST, Iran, 2016

Personal Information

  • Date of Birth: 05/02/91
  • Gender: Male
  • Nationality: Iranian
  • Marital Status: Single

Timeline

Research Assistant

Texas Tech University
01.2022 - Current

M.Sc. - Biomedical Engineering-Biomechanics

University of Isfahan
01.2013 - 05.2015

B.Sc. - Biomedical Engineering-Biomechanics

University of Isfahan
01.2009 - 05.2013

Ph.D. - Biomechanics

Texas Tech University
05.2001 -

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Hossein BahreinizadResearch Assitant