Martha Hincapié-López | Biotechnology | Women Researcher Award

Posted on by Academic achievements

Mrs. Martha Hincapié-López | Biotechnology | Women Researcher Award

PhD Student in Engineering at Andrés Bello National University, Colombia

Martha Hincapié-López is an emerging researcher in the fields of biotechnology and human genetics, currently pursuing her PhD at Universidad Autónoma de Bucaramanga. Her academic journey is rooted in a strong foundation in bacteriology and biomedical sciences, where she has developed a keen interest in the application of nucleic acid biotechnology for therapeutic purposes, particularly in the fight against cancer. Martha’s innovative approach to research, coupled with her dedication to addressing complex health issues, positions her as a valuable contributor to the scientific community and a promising candidate for the Women Researcher Award.

Profile

ORCID

Education

Martha obtained her undergraduate degree in Bacteriology from the Universidad Católica de Manizales, where she first cultivated her passion for the biological sciences. Following her undergraduate studies, she pursued a Master’s degree in Basic Biomedical Sciences at the Universidad Industrial de Santander, further enhancing her understanding of molecular biology and its applications in health research. Currently, she is enrolled in the doctoral program in Engineering at the Universidad Autónoma de Bucaramanga, where her research focuses on the design of oligonucleotides as potential therapeutic agents in cancer treatment. This academic trajectory reflects her commitment to advancing knowledge and innovation in the field of biotechnology.

Experience

Throughout her academic career, Martha has engaged in a variety of research projects that demonstrate her capability and dedication. She has completed significant studies on population genetic data in Colombia, examining the genetic structure of various populations and its implications for disease association studies. Her completed projects also include research on the validity of adenosine deaminase in extrapulmonary tuberculosis and population dynamics of Ascaris lumbricoides in a rural community, showcasing her ability to address pressing health issues through empirical research. Currently, she is working on ongoing projects involving the therapeutic applications of oligonucleotides against cancer, which not only reflect her advanced research skills but also her passion for contributing to significant medical advancements.

Research Interests

Martha’s research interests are primarily focused on biotechnology, human genetics, and infectious diseases. She is particularly interested in the role of nucleic acid biotechnology as a therapeutic strategy, aiming to explore the potential of oligonucleotides in treating various forms of cancer. Her research incorporates advanced techniques in genetic analysis and computational modeling, which are crucial for understanding complex biological systems. By blending molecular biology with computational tools, Martha aims to develop innovative solutions for significant health challenges, emphasizing her commitment to impactful scientific research.

Awards

Martha’s academic and research endeavors have garnered recognition within her institution and the broader scientific community. Although still early in her career, her contributions to research and innovation in biotechnology have positioned her favorably for awards such as the Women Researcher Award. Her work exemplifies the intersection of rigorous scientific inquiry and practical applications, highlighting her potential for future accolades as she continues to advance her research in nucleic acid technology and its implications for health.

Publications

Martha Hincapié-López, Jorden Vrebosch, Begonya García-Zapirain, Efraín Pinzón-Reyes, and Y. Vladimir Pabón-Martínez. “Comparison of classical Machine Learning-based algorithms to predict Triplex Forming Oligonucleotides.” Computational and Structural Biotechnology Reports, 2024.

Conclusion

In conclusion, Martha Hincapié-López exemplifies the qualities of an outstanding researcher through her dedication to advancing biotechnology and human genetics. Her educational background, diverse research experience, and innovative projects highlight her potential to make significant contributions to the field. With a focus on developing therapeutic strategies against cancer, she is poised to become a leading figure in her area of expertise. Martha’s commitment to addressing complex health issues and her ability to integrate cutting-edge technologies into her research underscore her suitability for the Women Researcher Award. As she continues her academic journey, her contributions are anticipated to resonate within the scientific community, further establishing her as a promising researcher in biotechnology.

Shaghayegh Mirhosseini | Bio Engineering | Best Researcher Award

Posted on by Academic achievements

Ms. Shaghayegh Mirhosseini | Bio Engineering | Best Researcher Award 

Ph.D. student at University of Virginia, United States

Shaghayegh Mirhosseini is an emerging researcher specializing in bioelectronics, cancer diagnostics, and microfluidics. She has extensive experience in the interdisciplinary field of bio-MEMS (microelectromechanical systems) and has made significant contributions to the study of cancer cells in microfluidic environments. With ongoing Ph.D. research in two prestigious universities, Mirhosseini’s work bridges the gap between biological science and electrical engineering, creating innovative solutions for cancer detection and treatment through advanced microfluidic technologies.

Profile

GOOGLE SCHOLAR

Education

Shaghayegh is currently pursuing two Ph.D. degrees, one from the University of Virginia, where her focus is on cancer cells in microfluidic devices under the supervision of Prof. Nathan Swami, and another from the University of Tehran, where her research centers around separating Circulating Tumor Cells (CTCs) using deterministic lateral displacement (DLD) microfluidic systems. She holds a Master’s degree in Electrical Engineering with a focus on bioelectronics from the University of Tehran, where she worked on the simulation and fabrication of Erbium-doped waveguide amplifiers. Shaghayegh’s academic journey began with a Bachelor’s degree in Electrical Engineering from the University of Kashan, where she designed digital password locks using AVR microcontrollers.

Research Experience

Her diverse research experience spans multiple countries and institutions. At the University of Tehran, she was actively involved in the MEMS & NEMS Laboratory and the Urology Research Center. She further broadened her research scope as a visiting researcher at the University of Virginia and Mälardalen University in Sweden. Her work on bioelectronics, microfluidics, and cancer research has led to numerous publications in prestigious journals. Notably, her contributions to the separation and analysis of circulating tumor cells (CTCs) are innovative, offering potential for groundbreaking cancer diagnostics.

Research Interests

Shaghayegh’s research interests lie at the intersection of biology and electronics. She is particularly focused on cancer research, microfabrication, microfluidic device design, and MEMS technologies. Her expertise in microfluidics and bio-MEMS allows her to explore new diagnostic technologies, especially for cancer detection. She is also interested in machine learning and image processing, which she integrates into her research to develop more efficient and automated cancer cell detection systems. Additionally, Shaghayegh is passionate about drug delivery systems, colorimetric analysis, and the synthesis of gold nanoparticles, which play vital roles in her research projects.

Awards and Recognition

Although Shaghayegh Mirhosseini is still completing her doctoral studies, her innovative research contributions have already garnered significant recognition in the academic community. Her international collaborations and published works have earned her respect from her peers, leading to opportunities for collaboration with top researchers in the field of bioelectronics and cancer diagnostics. While specific awards are yet to be disclosed, her research publications and contributions to cancer diagnostics are paving the way for future accolades.

Publications

  1. Signal-Based Methods in Dielectrophoresis for Cell and Particle Separation
    Published in 2022, cited by multiple articles. Read the full article.
  2. Microstructured Droplet-Based Porous Capacitive Pressure Sensor
    Published in 2021, cited by multiple articles. Read the full article.
  3. Fabrication of an erbium–ytterbium-doped waveguide amplifier at communication wavelengths for integrated optics applications
    Published in 2020, cited by multiple articles. Read the full article.
  4. A digital image colorimetry system based on smart devices for enzyme-linked immunosorbent assays
    Published in 2020, cited by multiple articles. Read the full article.
  5. Effective boundary correction for deterministic lateral displacement microchannels to improve cell separation
    Published in 2023, cited by multiple articles. Read the full article.
  6. Neural network-enabled multiparametric impedance signal templating for high throughput single-cell deformability cytometry
    Published in 2023, cited by multiple articles. Read the full article.

Conclusion

Shaghayegh Mirhosseini presents a strong candidate for the Best Researcher Award due to her significant contributions in bioelectronics and cancer research. Her interdisciplinary expertise, combined with international research exposure, strong publication record, and technical mastery, makes her a highly deserving researcher. With ongoing improvements, including the completion of her Ph.D. studies and a stronger focus in a specialized niche, her potential to make transformative contributions to science is immense.