Ahmet Murat Şenışık | Medical Physics | Best Researcher Award

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Dr. Ahmet Murat Şenışık | Medical Physics | Best Researcher Award

Altınbaş University from Turkey

Dr. Ahmet Murat Şenışık is a seasoned medical physicist with deep expertise in nuclear physics, radiotherapy, and advanced imaging techniques. With a career spanning over two decades, he has demonstrated a strong commitment to both academic excellence and clinical innovation. His multidisciplinary background—rooted in nuclear sciences, medical physics, and physics education—has positioned him at the intersection of research, teaching, and clinical practice. Currently serving as a faculty member at Altınbaş University’s Radiotherapy Program, Dr. Şenışık plays a vital role in training the next generation of radiotherapy professionals while contributing significantly to scientific research. His research interests are wide-ranging, including radiation dosimetry, nuclear medicine, theranostics, and the application of nanotechnology in oncology. He has participated in numerous national and international congresses and has co-authored more than 15 peer-reviewed publications. Additionally, Dr. Şenışık has shown strong leadership through administrative roles and educational committees, reflecting his holistic approach to academic and institutional development. His collaborative projects with international researchers further emphasize his global research footprint. As a recipient of several academic honors and an active contributor to ongoing scientific discourse, Dr. Şenışık stands out as a highly suitable candidate for the Best Researcher Award in recognition of his contributions to the advancement of radiological sciences.

Professional Profile

Education

Dr. Ahmet Murat Şenışık’s educational journey reflects a robust foundation in physics and a dedicated progression into nuclear and medical physics. He completed his undergraduate studies at Ege University, earning a Bachelor’s degree in Physics in 2000, followed by a Teaching Formation Certificate from the Faculty of Literature at the same university. He later pursued a Master’s degree in Physics at Dokuz Eylül University (2000–2003), where he delved into advanced physical concepts, including superconductivity and acoustic waves. His academic passion culminated in a PhD in Nuclear Applications from the Institute of Nuclear Sciences at Ege University in 2014. His doctoral work integrated nuclear medicine with radiopharmaceutical development, showcasing his ability to bridge theoretical knowledge with clinical applications. Continuing his specialization, Dr. Şenışık obtained a second Master’s degree in Medical Physics from Istanbul University’s Institute of Health Sciences in 2020, reflecting his commitment to staying at the forefront of clinical radiology and radiation safety. This combination of physics, nuclear sciences, and medical applications has equipped him with the comprehensive expertise required for innovative research and effective teaching in radiotherapy. His strong academic background underpins his contributions to medical physics and positions him as a leader in both clinical and academic settings.

Professional Experience

Dr. Ahmet Murat Şenışık has accumulated a diverse and dynamic portfolio of professional experiences in academic and clinical settings. He began his career as a physics teacher in 2002 before transitioning to a radiotherapy physicist role at Şifa Hospital, where he served for over a decade (2003–2015). During this period, he played a critical role in clinical treatment planning, radiation safety, and quality assurance in radiotherapy. His expertise later transitioned into academia, where he began teaching radiotherapy at Şifa University’s Health Services Vocational School. In 2016, he joined Altınbaş University’s Health Services Vocational School, initially as an instructor and later advancing to a faculty member in 2020. In this role, he is actively engaged in curriculum development, lecturing, supervising students, and conducting interdisciplinary research. Dr. Şenışık also contributes to institutional operations through various administrative responsibilities, including membership on the Examination Audit Committee, Adaptation Commission, and Pearson Accreditation body. His hands-on experience in radiotherapy clinics, combined with academic leadership, allows him to bring practical insights into the classroom. His blend of clinical, teaching, and administrative roles over the past two decades underscores his multifaceted contributions to the field of medical physics and exemplifies the qualities of a dedicated academic professional.

Research Interests

Dr. Ahmet Murat Şenışık’s research interests lie at the convergence of nuclear physics, radiopharmacy, and medical imaging, reflecting his interdisciplinary academic foundation and clinical experience. He has a strong interest in radiation dosimetry, particularly in the optimization of radiotherapy treatment plans and comparative analyses of different radiotherapy systems such as CyberKnife and Varian TrueBeam STX. His work often explores cutting-edge technologies in radiotherapy, including stereotactic body radiotherapy (SBRT), image-guided radiation therapy (IGRT), and advanced treatment planning systems like RaySearch. Dr. Şenışık is also deeply involved in the development and evaluation of radiopharmaceuticals and radiolabeled compounds for both diagnostic and therapeutic applications. His research extends into nanotechnology, with a focus on multifunctional nano-platforms for drug delivery and radiosensitization. He collaborates on interdisciplinary studies that integrate materials science, biochemistry, and oncology. Recent research also includes public health-oriented studies, such as radiation awareness surveys and the evaluation of safety protocols during the COVID-19 pandemic. Through his expansive research agenda, Dr. Şenışık aims to enhance the safety, efficacy, and personalization of cancer treatment. His curiosity and dedication to exploring the frontiers of medical physics underscore his stature as a leading researcher in radiological sciences and cancer therapy.

Research Skills

Dr. Ahmet Murat Şenışık possesses an exceptional repertoire of research skills that span theoretical modeling, laboratory experimentation, and clinical data analysis. He is highly proficient in radiation dosimetry techniques and treatment planning system evaluation, including Monte Carlo simulations—a crucial skill for accurate dose calculation and optimization in radiotherapy. His expertise extends to radiopharmaceutical synthesis and in-vivo imaging, demonstrated in his research on [18F]FDG and 99mTc(CO)3+ compounds. His skill in PET/CT dose reevaluation and organ dose calculations using MIRD formalism signifies a precise approach to nuclear medicine protocols. Dr. Şenışık is adept in designing multidisciplinary studies, working with nanocarriers like niosomes and metal-organic frameworks (MOFs) to enhance cancer therapy. His familiarity with advanced technologies such as RaySearch TPS and IGRT quality control reflects a strong command of both hardware and software in modern radiation oncology. Additionally, he demonstrates competence in statistical analysis, scientific writing, and interdisciplinary collaboration—skills evident from his co-authored publications and multinational research endeavors. His ability to translate complex scientific concepts into practical clinical applications makes him a valuable contributor to the fields of medical physics, radiology, and oncology. These competencies underline his eligibility for top-tier academic and research recognitions, including the Best Researcher Award.

Awards and Honors

Dr. Ahmet Murat Şenışık has earned significant recognition through his prolific research contributions and academic engagements. While specific awards are not explicitly listed, his academic and professional accolades can be inferred through his high-profile collaborations, participation in prestigious international congresses, and publication record in reputable journals such as Macromolecular Bioscience, Colloids and Surfaces B: Biointerfaces, and Applied Radiation and Isotopes. His role in European and multinational projects highlights the esteem in which his expertise is held by global researchers. Dr. Şenışık’s long-standing involvement in national medical physics congresses, as both a participant and presenter, underscores his recognition in Turkey’s scientific community. Moreover, his invitations to contribute to workshops organized by the International Atomic Energy Agency (IAEA) and other global bodies reflect his standing as a trusted academic voice in radiation safety and clinical physics. His administrative appointments at Altınbaş University, including commission memberships for accreditation and academic audits, further demonstrate institutional trust in his leadership. Collectively, these honors and roles mark him as a distinguished figure in his field. His broad recognition, coupled with consistent scholarly output and collaborative spirit, affirms his suitability for prestigious distinctions like the Best Researcher Award.

Conclusion

In conclusion, Dr. Ahmet Murat Şenışık exemplifies the ideal candidate for the Best Researcher Award. His career is marked by a unique blend of scientific inquiry, clinical expertise, and educational commitment. His multidisciplinary training in physics, nuclear sciences, and medical physics allows him to operate at the intersection of technology and patient care—pushing the boundaries of radiotherapy and nuclear medicine. His extensive publication record, conference participation, and involvement in innovative treatment technologies underscore his status as a forward-thinking researcher. Beyond his academic pursuits, Dr. Şenışık is a committed educator and administrator who actively shapes the next generation of healthcare professionals while contributing to institutional growth. His collaborative mindset and involvement in global research initiatives demonstrate not only his scientific capability but also his leadership in fostering international partnerships. Although continuous professional development remains an area to expand—especially in acquiring formal recognitions or fellowships from international bodies—his current achievements strongly position him as a leader in medical physics. With his dedication, multidisciplinary skills, and ongoing contributions to science and education, Dr. Şenışık stands out as a deserving recipient of the Best Researcher Award and a model academic in the evolving landscape of medical science

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