Work with thought leaders and academic experts in biomedical engineering
Companies can benefit from working with someone whose expertise is in the field of Biomedical Engineering in several ways. These experts can provide innovative solutions to complex problems, conduct research and development for new medical devices, improve existing products, offer technical consulting services, and contribute to regulatory compliance. Additionally, they can bring a fresh perspective to the company's projects, enhance the company's reputation in the healthcare industry, and foster collaborations with academic institutions and research organizations.
Researchers on NotedSource with backgrounds in biomedical engineering include John Ormerod, Dr. Sakshi Kabra Malpani, Daniel Milej, Ph.D., John M Baust, Ph.D, and IQRAM HUSSAIN, Ph.D..
John Ormerod
Magnetics Expert - Principal at JOC LLC - Consultant to the Global Magnetics, Rare Earths and Metals Industries
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Other Research Interests (1)
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Most Relevant Publications (1+)
4 total publications
Fabrication of highly dense isotropic Nd-Fe-B nylon bonded magnets via extrusion-based additive manufacturing
Additive Manufacturing / May 01, 2018
Li, L., Jones, K., Sales, B., Pries, J. L., Nlebedim, I. C., Jin, K., Bei, H., Post, B. K., Kesler, M. S., Rios, O., Kunc, V., Fredette, R., Ormerod, J., Williams, A., Lograsso, T. A., & Paranthaman, M. P. (2018). Fabrication of highly dense isotropic Nd-Fe-B nylon bonded magnets via extrusion-based additive manufacturing. Additive Manufacturing, 21, 495–500. https://doi.org/10.1016/j.addma.2018.04.001
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Daniel Milej, Ph.D.
Ph.D. in biomedical engineering
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Other Research Interests (31)
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Most Relevant Publications (8+)
91 total publications
Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol
Journal of Biomedical Optics / Aug 14, 2014
Wabnitz, H., Taubert, D. R., Mazurenka, M., Steinkellner, O., Jelzow, A., Macdonald, R., Milej, D., Sawosz, P., Kacprzak, M., Liebert, A., Cooper, R., Hebden, J., Pifferi, A., Farina, A., Bargigia, I., Contini, D., Caffini, M., Zucchelli, L., Spinelli, L., … Torricelli, A. (2014). Performance assessment of time-domain optical brain imagers, part 1: basic instrumental performance protocol. Journal of Biomedical Optics, 19(8), 086010. https://doi.org/10.1117/1.jbo.19.8.086010
Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol
Journal of Biomedical Optics / Aug 14, 2014
Wabnitz, H., Jelzow, A., Mazurenka, M., Steinkellner, O., Macdonald, R., Milej, D., Zolek, N., Kacprzak, M., Sawosz, P., Maniewski, R., Liebert, A., Magazov, S., Hebden, J., Martelli, F., Di Ninni, P., Zaccanti, G., Torricelli, A., Contini, D., Re, R., … Pifferi, A. (2014). Performance assessment of time-domain optical brain imagers, part 2: nEUROPt protocol. Journal of Biomedical Optics, 19(8), 086012. https://doi.org/10.1117/1.jbo.19.8.086012
Wavelength-resolved measurements of fluorescence lifetime of indocyanine green
Journal of Biomedical Optics / Jan 01, 2011
Gerega, A., Zolek, N., Soltysinski, T., Milej, D., Sawosz, P., Toczylowska, B., & Liebert, A. (2011). Wavelength-resolved measurements of fluorescence lifetime of indocyanine green. Journal of Biomedical Optics, 16(6), 067010. https://doi.org/10.1117/1.3593386
Assessment of inflow and washout of indocyanine green in the adult human brain by monitoring of diffuse reflectance at large source-detector separation
Journal of Biomedical Optics / Jan 01, 2011
Liebert, A., Sawosz, P., Milej, D., Kacprzak, M., Weigl, W., Botwicz, M., Mączewska, J., Fronczewska, K., Mayzner-Zawadzka, E., Królicki, L., & Maniewski, R. (2011). Assessment of inflow and washout of indocyanine green in the adult human brain by monitoring of diffuse reflectance at large source-detector separation. Journal of Biomedical Optics, 16(4), 046011. https://doi.org/10.1117/1.3574018
Optimization of the method for assessment of brain perfusion in humans using contrast-enhanced reflectometry: multidistance time-resolved measurements
Journal of Biomedical Optics / Oct 28, 2015
Milej, D., Janusek, D., Gerega, A., Wojtkiewicz, S., Sawosz, P., Treszczanowicz, J., Weigl, W., & Liebert, A. (2015). Optimization of the method for assessment of brain perfusion in humans using contrast-enhanced reflectometry: multidistance time-resolved measurements. Journal of Biomedical Optics, 20(10), 106013. https://doi.org/10.1117/1.jbo.20.10.106013
Multiwavelength time-resolved detection of fluorescence during the inflow of indocyanine green into the adult’s brain
Journal of Biomedical Optics / Aug 02, 2012
Gerega, A. (2012). Multiwavelength time-resolved detection of fluorescence during the inflow of indocyanine green into the adult’s brain. Journal of Biomedical Optics, 17(8), 087001. https://doi.org/10.1117/1.jbo.17.8.087001
Incorporating early and late-arriving photons to improve the reconstruction of cerebral hemodynamic responses acquired by time-resolved near-infrared spectroscopy
Journal of Biomedical Optics / May 17, 2021
Milej, D., Abdalmalak, A., Rajaram, A., Jhajj, A., Owen, A. M., & St. Lawrence, K. (2021). Incorporating early and late-arriving photons to improve the reconstruction of cerebral hemodynamic responses acquired by time-resolved near-infrared spectroscopy. Journal of Biomedical Optics, 26(05). https://doi.org/10.1117/1.jbo.26.5.056003
Estimation of light detection efficiency for different light guides used in time-resolved near-infrared spectroscopy
Biocybernetics and Biomedical Engineering / Jan 01, 2015
Milej, D., Kruczkowski, M., Kacprzak, M., Sawosz, P., Maniewski, R., & Liebert, A. (2015). Estimation of light detection efficiency for different light guides used in time-resolved near-infrared spectroscopy. Biocybernetics and Biomedical Engineering, 35(4), 227–231. https://doi.org/10.1016/j.bbe.2015.05.003
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John M Baust, Ph.D
Proven success in delivering best-in-class services across scientific, commercial and education environments.
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Other Research Interests (16)
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Most Relevant Publications (14+)
68 total publications
Molecular Mechanisms of Cellular Demise Associated with Cryopreservation Failure
Cell Preservation Technology / May 01, 2002
Baust, J. M. (2002). Molecular Mechanisms of Cellular Demise Associated with Cryopreservation Failure. Cell Preservation Technology, 1(1), 17–31. https://doi.org/10.1089/15383440260073266
Gene Activation of the Apoptotic Caspase Cascade Following Cryogenic Storage
Cell Preservation Technology / May 01, 2002
Baust, J. M., Van Buskirk, R., & Baust, J. G. (2002). Gene Activation of the Apoptotic Caspase Cascade Following Cryogenic Storage. Cell Preservation Technology, 1(1), 63–80. https://doi.org/10.1089/15383440260073301
Transplantation Diagnostics: A Preliminary Analysis Using Protein Microarray to Determine Kidney Status Prior To and Following Implantation
Cell Preservation Technology / Jun 01, 2004
Baust, J. M., Mathew, A. J., Snyder, K. K., Liu, E. H., van Buskirk, R. G., Hardy, M. A., & Baust, J. G. (2004). Transplantation Diagnostics: A Preliminary Analysis Using Protein Microarray to Determine Kidney Status Prior To and Following Implantation. Cell Preservation Technology, 2(2), 81–90. https://doi.org/10.1089/153834404774101936
Long-Term Function of Cryopreserved Rat Hepatocytes in a Coculture System
Cell Transplantation / Mar 01, 2004
Sugimachi, K., Sosef, M. N., Baust, J. M., Fowler, A., Tompkins, R. G., & Toner, M. (2004). Long-Term Function of Cryopreserved Rat Hepatocytes in a Coculture System. Cell Transplantation, 13(2), 187–195. https://doi.org/10.3727/000000004773301799
Cellular Components of the Coronary Vasculature Exhibit Differential Sensitivity to Low Temperature Insult
Cell Preservation Technology / Dec 01, 2002
Hollister, W. R., Baust, J. M., Van Buskirk, R. G., & Baust, J. G. (2002). Cellular Components of the Coronary Vasculature Exhibit Differential Sensitivity to Low Temperature Insult. Cell Preservation Technology, 1(4), 269–280. https://doi.org/10.1089/15383440260682099
Effect of Cell Substrate Interactions on the Desiccation Behavior of Human Fibroblasts
Cell Preservation Technology / Sep 01, 2004
Baust, J. M., Fowler, A., & Toner, M. (2004). Effect of Cell Substrate Interactions on the Desiccation Behavior of Human Fibroblasts. Cell Preservation Technology, 2(3), 188–197. https://doi.org/10.1089/cpt.2004.2.188
Enhanced Hypothermic Storage of Neonatal Cardiomyocytes
Cell Preservation Technology / Mar 01, 2005
Snyder, K. K., Baust, J. M., Van Buskirk, R. G., & Baust, J. G. (2005). Enhanced Hypothermic Storage of Neonatal Cardiomyocytes. Cell Preservation Technology, 3(1), 61–74. https://doi.org/10.1089/cpt.2005.3.61
Involvement of the Cysteine Protease Calpain Family in Cell Death After Cryopreservation
Cell Preservation Technology / Mar 01, 2006
Robilotto, A. T., Baust, J. M., Buskirk, R. V., & Baust, J. G. (2006). Involvement of the Cysteine Protease Calpain Family in Cell Death After Cryopreservation. Cell Preservation Technology, 4(1), 17–30. https://doi.org/10.1089/cpt.2006.4.17
Bioprocessing
Genetic Engineering & Biotechnology News / Feb 01, 2013
Bioprocessing. (2013). Genetic Engineering & Biotechnology News, 33(3), 28–28. https://doi.org/10.1089/gen.33.3.16
Cardiomyocyte Responses to Thermal Excursions: Implications for Electrophysiological Cardiac Mapping
Cell Preservation Technology / Jun 01, 2007
Snyder, K. K., Baust, J. M., Van Buskirk, R. G., & Baust, J. G. (2007). Cardiomyocyte Responses to Thermal Excursions: Implications for Electrophysiological Cardiac Mapping. Cell Preservation Technology, 5(2), 116–128. https://doi.org/10.1089/cpt.2007.9995
Activation of Mitochondrial-Associated Apoptosis Contributes to Cryopreservation Failure
Cell Preservation Technology / Sep 01, 2007
Baust, J. M., Vogel, M. J., Snyder, K. K., Van Buskirk, R. G., & Baust, J. G. (2007). Activation of Mitochondrial-Associated Apoptosis Contributes to Cryopreservation Failure. Cell Preservation Technology, 5(3), 155–164. https://doi.org/10.1089/cpt.2007.9990
Preliminary Report: Evaluation of Storage Conditions and Cryococktails during Peripheral Blood Mononuclear Cell Cryopreservation
Cell Preservation Technology / Dec 01, 2007
Cosentino, L. M., Corwin, W., Baust, J. M., Diaz-Mayoral, N., Cooley, H., Shao, W., van Buskirk, R., & Baust, J. G. (2007). Preliminary Report: Evaluation of Storage Conditions and Cryococktails during Peripheral Blood Mononuclear Cell Cryopreservation. Cell Preservation Technology, 5(4), 189–204. https://doi.org/10.1089/cpt.2007.9987
Cryopreservation
Organogenesis / Jul 01, 2009
Baust, J. G., Gao, D., & Baust, J. M. (2009). Cryopreservation: An emerging paradigm change. Organogenesis, 5(3), 90–96. https://doi.org/10.4161/org.5.3.10021
Biobanking Expands into Research Services
Genetic Engineering & Biotechnology News / May 01, 2018
Raper, V. (2018). Biobanking Expands into Research Services. Genetic Engineering & Biotechnology News, 38(9), 1, 22–24. https://doi.org/10.1089/gen.38.09.01
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IQRAM HUSSAIN, Ph.D.
Weill Cornell Medicine, Cornell University, NY, USA
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Other Research Interests (32)
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Most Relevant Publications (1+)
44 total publications
Intelligent in-car health monitoring system for elderly drivers
Gerontechnology / Apr 24, 2018
Park, S. J., Hong, S., Kim, D., Seo, Y., & Hussain, I. (2018). Intelligent in-car health monitoring system for elderly drivers. Gerontechnology, 17(s), 186–186. https://doi.org/10.4017/gt.2018.17.s.181.00
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Example biomedical engineering projects
How can companies collaborate more effectively with researchers, experts, and thought leaders to make progress on biomedical engineering?
Development of a Novel Medical Device
A Biomedical Engineering expert can collaborate with a company to develop a novel medical device that addresses an unmet need in the market. They can contribute their knowledge in areas such as biomaterials, biomechanics, and medical imaging to design and prototype the device, conduct testing and validation, and ensure regulatory compliance.
Improvement of an Existing Medical Device
By collaborating with a Biomedical Engineering researcher, a company can enhance the performance and functionality of an existing medical device. The researcher can analyze the device's design, identify areas for improvement, and propose innovative solutions. They can also conduct usability studies and gather feedback from healthcare professionals to optimize the device's user experience.
Biomechanical Analysis of Sports Equipment
Companies in the sports industry can benefit from collaborating with a Biomedical Engineering expert to perform biomechanical analysis of sports equipment. The researcher can evaluate the performance, safety, and ergonomics of equipment such as helmets, protective gear, and footwear. This collaboration can lead to the development of safer and more efficient sports equipment.
Design of Rehabilitation Technologies
A Biomedical Engineering researcher can collaborate with a company to design and develop rehabilitation technologies. They can apply their expertise in areas such as robotics, prosthetics, and assistive devices to create innovative solutions that improve the quality of life for individuals with disabilities. This collaboration can result in the development of advanced rehabilitation technologies that enhance patient outcomes.
Biomedical Imaging and Analysis
Companies in the healthcare and pharmaceutical industries can collaborate with Biomedical Engineering experts to leverage their knowledge in biomedical imaging and analysis. These experts can assist in the development of imaging techniques, image processing algorithms, and data analysis methods. This collaboration can lead to improved diagnostic accuracy, drug discovery, and personalized medicine.