Bibiana Doris Riquelme | Biomedical Physics | Best Researcher Award

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Bibiana Doris Riquelme | Biomedical Physics | Best Researcher Award

Principal Research, Consejo Investigaciones Universidad Nacional de Rosario (CIUNR), Argentina.

Bibiana Doris Riquelme is a distinguished physicist based in Rosario, Argentina, with extensive expertise in applied physics, biophotonics, hemorrheology, and biosensors. Her interdisciplinary approach combines principles of physical sciences and biomedical research, leading to significant advancements in understanding biomolecular interactions and their applications in medical technology. Riquelme is affiliated with the Institute of Physics of Rosario (IFIR), where she continues to contribute to innovative research initiatives.

Profile:

 

Education

Riquelme completed her Bachelor’s Degree in Physics from the National University of Rosario (UNR) in December 1989, specializing in applied optics to biology. She further advanced her education by earning a Doctorate in Physics in May 1997, focusing on the complex rheology of biomembranes and its application to human erythrocytes. Additionally, she holds a degree as a Professor of Drawing and Painting from S.S.M. Cosmopolita, demonstrating her diverse academic background and creative skills.

Professional Experiences

Bibiana Riquelme’s professional journey includes a postdoctoral fellowship awarded by FOMEC at the National University of Rosario, where she spent ten months abroad in France, engaged in research at the Laboratory of Mechanics and Cellular and Tissue Engineering. Her work in various esteemed institutions has allowed her to collaborate with leading researchers and contribute to significant advancements in her field. Currently, she is a research scientist at the Institute of Physics of Rosario, where she leads projects focusing on optics and biophysics.

 

Research skills

Riquelme possesses a comprehensive skill set in several critical areas of research, including optics, biophotonics, and hemorrheology. Her proficiency extends to the design and development of biosensors and the study of biomolecular interactions in solution. Her expertise in applied optics to biomedical sciences enables her to contribute significantly to both theoretical and practical advancements in health-related technologies, including medical biomaterials and stem cell technologies.

 

Awards And Recoginition

Throughout her career, Riquelme has received recognition for her contributions to science and technology. Her postdoctoral research experience and collaborations with international research institutions highlight her commitment to advancing knowledge in her field. While specific awards and recognitions are not detailed in the provided information, her standing as a researcher in the academic community reflects her impactful work and dedication to scientific excellence.

Conclusion

Bibiana Doris Riquelme possesses a robust academic background, specialized research expertise, and postdoctoral experience, making her a strong candidate for the Best Researcher Award. Her contributions to applied physics in the biomedical field and her potential for impactful research underscore her suitability for this recognition. Addressing the areas for improvement, particularly in showcasing her publications and community engagement, could further bolster her candidacy and demonstrate her influence within the scientific community.

Publication Top Notes

  • Preliminary Study of the Gamma-Radiation Effect on the Plasma Ions Concentration in Transfusion Units
    Authors: Alet, A.I., Porini, S., Detarsio, G., Galassi, M.E., Riquelme, B.D.
    Year: 2024
    Citation: Anales de la Asociacion Fisica Argentina, 35(1), pp. 21–24.
    🧪📊
  • Effect of Aqueous Extracts of Phyllanthus sellowianus on the Viscoelastic Properties of Human Red Blood Cells: In Vitro Antidiabetic Activity
    Authors: Mascaro Grosso, H., Buszniez, P., Castellini, H.V., Riquelme, B.D.
    Year: 2023
    Citation: Anales de la Asociacion Fisica Argentina, 34(2), pp. 42–45.
    🍃💉
  • Biospeckle Laser as a Tool to Analyze Erythrocyte Aggregation
    Authors: Toderi, M.A., Riquelme, B.D., Galizzi, G.E.
    Year: 2022
    Citation: Optical Engineering, 61(12), 124101.
    🔬✨
  • Methods: A New Protocol for In Vitro Red Blood Cell Glycation
    Authors: Batista da Silva, M.V., Alet, A.I., Castellini, H.V., Riquelme, B.D.
    Year: 2022
    Citation: Comparative Biochemistry and Physiology – Part A: Molecular and Integrative Physiology, 264, 111109.
    📚🧬
  • New Insights into the Mechanics of Erythrocytes: Effects of Radiation and Several Drugs of Biomedical Interest
    Authors: Riquelme, B.D., Toderi, M., Batista, M., Estrada, E., Alet, A.I.
    Year: 2022
    Citation: Series on Biomechanics, 36(1), pp. 61–69.
    🩸🔍
  • In Vitro Alteration on Erythrocytes Mechanical Properties by Propofol, Remifentanil, and Vecuronium
    Authors: Alet, A.I., Batista da Silva, M.V., Castellini, H.V., Alet, N.A., Riquelme, B.D.
    Year: 2021
    Citation: Microvascular Research, 135, 104132.
    💊🩹
  • New Insights into the Analysis of Red Blood Cells from Leukemia and Anemia Patients: Nonlinear Quantifiers, Fractal Mathematics, and Wavelet Transform
    Authors: Bortolato, S.A., Mancilla Canales, M.A., Riquelme, B.D., Ponce de León, P., Korol, A.M.
    Year: 2021
    Citation: Physica A: Statistical Mechanics and its Applications, 567, 125645.
    📈💔
  • Simultaneous Determination of Human Erythrocyte Deformability and Adhesion Energy: A Novel Approach Using a Microfluidic Chamber and the “Glass Effect”
    Authors: Londero, C.M., Riquelme, B.D.
    Year: 2021
    Citation: Cell Biochemistry and Biophysics, 79(1), pp. 49–55.
    🔬💧
  • Preliminary Study of the Effects of Gamma Radiations on Human Red Blood Cells
    Authors: Estrada, E., Castellini, H., Acosta, A., Riquelme, B.D., Galassi, M.E.
    Year: 2020
    Citation: Anales de la Asociacion Fisica Argentina, 31(2), pp. 51–54.
    ☢️🔴
  • Extensive Clinical, Serologic and Molecular Studies Lead to the First Reported Rhmod Phenotype in Argentina
    Authors: Mufarrege, N., Franco, N., Trucco Boggione, C., Castilho, L., Cotorruelo, C.
    Year: 2020
    Citation: Transfusion, 60(7), pp. 1373–1377.
    🩸🇦🇷

Manijeh Beigi | Medical Physics | Best Researcher Award

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Assist Prof Dr. Manijeh Beigi | Medical Physics | Best Researcher Award

Assistant Professor in Medical Physics, Iran University of Medical Sciences, Iran.

Dr. Manijeh Beigi, Ph.D., an Assistant Professor at Iran University of Medical Sciences, excels in radiotherapy physics with a focus on radiotherapy toxicity, radiomics, dosiomics, and advanced MR imaging. She completed her Ph.D. at Tehran University of Medical Sciences, researching diffusion tensor imaging for radiotherapy treatment planning. Her career includes significant roles at Imam Hosein Hospital, Haft-e-Tir Hospital, and Pardis Niloo Cancer Center, where she has specialized in 3D conformal and IMRT radiotherapy, dosimetry, and quality assurance. Dr. Beigi’s research has led to numerous high-impact publications and conference presentations. As a dedicated educator, she supervises several student theses and manages research projects. Recognized for her exceptional academic achievements, including top rankings in national entrance exams, Dr. Beigi is a leading figure in her field, combining innovative research with strong leadership and mentorship skills.

Profile:

Education

Dr. Manijeh Beigi earned her Ph.D. in Medical Physics from Tehran University of Medical Sciences in 2018. Her doctoral research focused on applying diffusion tensor imaging (DTI) for radiotherapy treatment planning, specifically aiming to determine the glioma’s clinical target volume for intensity-modulated radiotherapy (IMRT) using a combination of quantitative information from multiparametric MR imaging. Prior to this, Dr. Beigi completed her Master of Science in Medical Physics at Tarbiat Modares University in 2010, where her thesis examined the quality audit of radiotherapy dosimetry under various conditions. Her educational background reflects a strong foundation in both theoretical and applied aspects of medical physics, with a particular emphasis on radiotherapy and imaging technologies. This advanced training has equipped her with the expertise to contribute significantly to research and clinical practice in radiation oncology.

Professional Experience

Dr. Manijeh Beigi, Ph.D., is an esteemed professional in the field of medical physics with extensive experience in radiotherapy and dosimetry. Currently serving as an Assistant Professor at Iran University of Medical Sciences, she specializes in radiotherapy physics, teaching radiation oncology residents, and managing research projects. Her previous roles include Radiotherapy Physicist positions at Imam Hosein Hospital, Haft-e-Tir Hospital, and Pardis Niloo Cancer Center, where she conducted 3D Conformal and IMRT treatment planning, dosimetry, and quality assurance for various linear accelerators. Dr. Beigi also has a background as a Research Assistant in the Quantitative MR Imaging and Spectroscopy Group at Tehran University of Medical Sciences, focusing on MR imaging and spectroscopy for treatment planning. Her professional journey showcases her comprehensive expertise in radiotherapy, from clinical practice to advanced research in radiomics and dosiomics.

Research Interest

Dr. Manijeh Beigi’s research focuses on the intersection of advanced imaging and treatment planning in radiotherapy. Her primary interests include investigating radiotherapy toxicity and enhancing treatment plan quality through radiomics and dosiomics. She is dedicated to quantitatively assessing tumor responses to treatment and applying advanced magnetic resonance (MR) imaging techniques in radiotherapy (RT) planning. Dr. Beigi’s work explores the integration of diffusion tensor imaging (DTI) with traditional MR imaging methods to improve the accuracy of glioma treatment planning. Her research also emphasizes the development of innovative dosimetric approaches to predict and mitigate toxicity in patients undergoing radiotherapy. Through her exploration of these advanced methodologies, Dr. Beigi aims to refine treatment protocols, optimize patient outcomes, and contribute to the ongoing advancement of precision medicine in oncology. Her efforts reflect a commitment to both the theoretical and practical aspects of medical physics.

Research Skills

Dr. Manijeh Beigi demonstrates exceptional research skills in the field of medical physics, particularly within radiotherapy. Her expertise includes advanced radiotherapy techniques, such as 3D conformal and IMRT treatment planning, and extensive dosimetric quality assurance. Dr. Beigi excels in the application of radiomics and dosiomics, employing quantitative assessments and advanced MR imaging to enhance treatment planning and predict patient toxicity. Her Ph.D. research on using diffusion tensor imaging (DTI) for glioma treatment planning showcases her ability to integrate complex imaging modalities with clinical applications. Dr. Beigi’s proficiency extends to managing and supervising research projects, writing successful grant proposals, and leading interdisciplinary teams. Her publication record, featuring high-impact journal articles and conference contributions, reflects her commitment to advancing the field. Overall, Dr. Beigi’s research skills are marked by innovation, technical proficiency, and a strong focus on improving patient outcomes in radiotherapy.

Award and Recognitions

Dr. Manijeh Beigi has achieved significant recognition in her field, reflecting her outstanding contributions to medical physics and radiotherapy. She has been consistently ranked in the top 1% in national entrance exams for both her Ph.D. and postgraduate studies, underscoring her academic excellence. Dr. Beigi’s research on radiotherapy toxicity, radiomics, and advanced MR imaging has garnered attention in prestigious journals and conferences. Her innovative work, particularly in applying diffusion tensor imaging (DTI) for treatment planning, has been highlighted in high-impact publications like Cancer Imaging Journal and Journal of Neurooncology. Her contributions were also showcased at notable conferences, including the AAPM and ESTRO. These accolades demonstrate Dr. Beigi’s commitment to advancing her field and her recognition as a leading expert in radiotherapy and medical physics.

Conclusion

Dr. Manijeh Beigi is a highly qualified candidate for the Research for Best Researcher Award. Her extensive research contributions, innovative approaches in radiotherapy, and leadership in academic and clinical settings highlight her suitability for this recognition. Addressing areas for improvement, such as expanding collaborations and increasing public engagement, could further enhance her already significant impact on the field of medical physics. Her dedication to advancing radiotherapy and her proven track record of excellence make her a strong contender for the award.

Publication Top Notes

  1. Title: Safe bunker designing for the 18 MV Varian 2100 Clinac: A comparison between Monte Carlo simulation based upon data and new protocol recommendations
    Authors: HG Manije Beigi, Fatemeh Afarande
    Journal: Reports of Practical Oncology and Radiotherapy
    Year: 2016
    Volume: 21
    Pages: 42-49
    Citations: 12
  2. Title: Heterogeneity analysis of diffusion-weighted MRI for prediction and assessment of microstructural changes early after one cycle of induction chemotherapy in nasopharyngeal carcinoma
    Authors: M Beigi, AF Kazerooni, M Safari, M Alamolhoda, MS Moghdam, …
    Journal: La Radiologia Medica
    Year: 2018
    Volume: 123
    Pages: 36-43
    Citations: 9
  3. Title: Findings of DTI-p maps in comparison with T2/T2-FLAIR to assess postoperative hyper-signal abnormal regions in patients with glioblastoma
    Authors: M Beigi, M Safari, A Ameri, MS Moghadam, A Arbabi, M Tabatabaeefar, …
    Journal: Cancer Imaging
    Year: 2018
    Volume: 18
    Article: 1-7
    Citations: 5
  4. Title: Intracellular delivery of anticancer agents using dual responsive nanomicelles synthesized via RAFT polymerization
    Authors: M Esmaeili, S Shahbaz, M Kamankesh, M Shahin, FSM Tekie, P Fadavi, …
    Journal: European Polymer Journal
    Year: 2023
    Volume: 198
    Article: 112417
    Citations: 2
  5. Title: Shuffle-ResNet: Deep learning for predicting LGG IDH1 mutation from multicenter anatomical MRI sequences
    Authors: LA Mojtaba Safari, Manjieh Beiki, Ahmad Ameri, Saeed Hosseini Toudeshki, …
    Journal: Biomedical Physics & Engineering Express
    Year: 2022
    Volume: 8 (6)
    Citations: 2
  6. Title: Malignancy probability map as a novel imaging biomarker to predict malignancy distribution: Employing MRS in GBM patients
    Authors: M Beigi, K Ghasemi, P Mirzaghavami, M Khanmohammadi, …
    Journal: Journal of Neuro-Oncology
    Year: 2018
    Volume: 138
    Pages: 619-625
    Citations: 2
  7. Title: Long-term study of vocal dysfunction and quality of life in patients with non-laryngeal head and neck cancers post chemo-radiation therapy: Results of prospective analysis
    Authors: ZM P Fadavi, S Bagherzadeh, F Torabinezhad, F Goli-Ahmadabad, M Beiki, S …
    Journal: International Journal of Radiation Research
    Year: 2023
    Volume: 21 (2)
    Pages: 227-232
    Citations: 1
  8. Title: Assessing parotid gland function through diffusion weighted MRI during and post-radiotherapy in head and neck cancer patients
    Authors: A Ameri, SH Yeganeh, S Nasiri, Z Azizmohammadi, M Ansari, A Sourati, …
    Journal: Journal of Radiation Research and Applied Sciences
    Year: 2024
    Volume: 17 (4)
    Article: 101094
  9. Title: Multicenter MRI Radiomics Features to Predict IDH1 Gene Mutation Status of Low-Grade Glioma
    Authors: M Safari, A Ameri, R Hamidi, A Fatemi, L Archambault, M Beigi
    Year: 2024
  10. Title: 2058: Prospective Correlation Research on Shoulder Radiation Dose and Impairment in Breast Cancer Patients
    Authors: P Fadavi, S Soltani, M Beigi, Z Bagherpour, D Davoodi, M Jajroudi, …
    Journal: Radiotherapy and Oncology
    Year: 2024
    Volume: 194
    Pages: S605-S607