GITHA SINGH | Pharmaceutical Science | Best Researcher Award

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Ms. GITHA SINGH | Pharmaceutical Science | Best Researcher Award

Regulatory Affairs Director at University of Pretoria, South Africa

Githa Singh is a distinguished pharmaceutical professional with over 24 years of expertise in regulatory affairs, quality management, and compliance. She has played a key role in medicine registration across South Africa and Africa, ensuring compliance with health authority guidelines and business regulations. Currently serving as a Regulatory Affairs Director, Githa has been instrumental in shaping pharmaceutical regulations, driving industry collaborations, and implementing strategic regulatory frameworks. She has led mergers and acquisitions, digital process transformation, business continuity planning, and crisis management while ensuring regulatory alignment across global markets. Her leadership extends to advisory roles within industry associations, where she contributes to regulatory policy development and strategic business growth. Githa’s expertise in regulatory submissions, compliance, and governance has made her a sought-after professional in the pharmaceutical sector. Her strong leadership, stakeholder engagement, and ability to streamline regulatory processes have significantly impacted the industry. She is also recognized for her ability to drive change, implement innovative regulatory solutions, and mentor professionals in the field. With an extensive background in strategic leadership and regulatory sciences, Githa continues to be a driving force in pharmaceutical compliance and regulatory policy development.

Professional Profile

Education

Githa Singh has built a strong academic foundation in pharmaceutical sciences, business administration, and pharmacology. She earned her Bachelor of Pharmacy (B.Pharm) from Rhodes University (1994-1997), equipping her with the essential knowledge of drug development, pharmaceutical formulation, and regulatory sciences. To expand her expertise globally, she completed the Foreign Pharmacists Graduate Exam (FPGEE) in 2002, administered by the National Association of Boards of Pharmacy (USA), ensuring her qualifications met international regulatory standards. Understanding the critical role of business leadership in pharmaceuticals, Githa pursued a Master of Business Administration (MBA) at the University of KwaZulu-Natal (2003-2006). This enabled her to develop skills in strategic management, operations, and pharmaceutical business development. Furthering her expertise in biostatistics and pharmacology, she completed specialized studies at the University of Pretoria in 2021. Currently, she is pursuing a Master of Science (MSc) in Pharmacology (2024) at the same institution, focusing on the scientific and regulatory aspects of drug development. Additionally, she holds industry-specific certifications, including Internationally Recognized Certified Auditor (IRCA) certification and Responsible Pharmacist accreditation. Her interdisciplinary education in pharmacy, business, and biostatistics has made her a well-rounded expert in regulatory affairs and pharmaceutical sciences.

Professional Experience

With an extensive career spanning over 24 years, Githa Singh has held key leadership roles in regulatory affairs, quality management, and compliance across multinational pharmaceutical companies. She currently serves as the Regulatory Affairs Director at AbbVie (Pty) Ltd (2012-Present), overseeing regulatory strategy and compliance across South Africa, Africa, the Middle East, and Russia. She has successfully led regulatory submissions, policy development, and digital transformation initiatives, ensuring alignment with global standards. Her role also involves business continuity planning, crisis management, and regulatory advocacy within industry associations. Previously, Githa was the Quality and Regulatory Affairs Manager at Johnson & Johnson (2011-2012), where she established Quality Management Systems, upgraded regulatory dossiers, and obtained ISO13485 certification. At Afrox (Linde Gas) (2008-2011), she managed medical device regulatory affairs and product validation processes. She also worked as a Responsible Pharmacist at Bayer Consumer Care (2003-2008), leading regulatory compliance and quality assurance initiatives. With her deep industry knowledge, she has successfully navigated complex regulatory landscapes, implemented strategic business solutions, and fostered regulatory innovation.

Research Interest

Githa Singh’s research interests lie at the intersection of regulatory sciences, pharmaceutical policy development, and innovative drug compliance strategies. She is particularly focused on streamlining regulatory approval processes, optimizing digital regulatory frameworks, and improving compliance standards in global pharmaceutical markets. Her work emphasizes regulatory harmonization across African and international markets, exploring how regulatory agencies can align policies to enhance medicine accessibility, affordability, and patient safety. She is also passionate about the role of artificial intelligence and data analytics in regulatory decision-making, advocating for evidence-based regulatory reforms. In addition, Githa’s research delves into pharmacovigilance and post-market surveillance, ensuring that pharmaceutical products maintain their safety and efficacy throughout their lifecycle. She is committed to enhancing regulatory frameworks for biologics, biosimilars, and medical devices, contributing to their efficient approval and commercialization. Her ongoing MSc research at the University of Pretoria explores advanced pharmacological principles and their regulatory implications, further solidifying her expertise in the scientific and compliance aspects of drug development. Through her research, she aims to bridge gaps between policy, innovation, and regulatory science, ensuring a progressive, efficient, and globally harmonized regulatory landscape.

Research Skills

Githa Singh possesses a diverse range of research skills that enhance her expertise in regulatory affairs, pharmaceutical sciences, and policy development. She has strong analytical and critical thinking abilities, allowing her to assess regulatory frameworks, compliance policies, and pharmacovigilance data. Her expertise in biostatistics and data interpretation enables her to apply evidence-based decision-making in regulatory submissions and quality assurance. Her skills include regulatory strategy development, where she designs optimized regulatory pathways for pharmaceutical approvals across different markets. She is proficient in pharmaceutical quality assurance and compliance auditing, ensuring adherence to ISO, WHO, and ICH guidelines. Githa is also experienced in scientific writing and regulatory documentation, including dossier preparation, clinical trial applications, and policy proposals. She has a deep understanding of risk assessment and pharmacovigilance methodologies, which she applies to monitor drug safety and post-market surveillance. Additionally, her skills extend to stakeholder engagement and negotiation, working with regulatory agencies, industry associations, and global pharmaceutical companies to shape progressive regulatory policies. Her ability to integrate business strategy with scientific research makes her a valuable leader in pharmaceutical regulatory affairs.

Awards and Honors

Githa Singh has been recognized for her exceptional contributions to regulatory affairs and pharmaceutical compliance through various awards and honors. She has been honored with the Regulatory Excellence Award for her outstanding leadership in pharmaceutical policy development and regulatory innovation. Her contributions to medicine registration and compliance strategies have earned her industry recognition from leading regulatory bodies. As a key member of industry associations, she has received accolades for her advocacy in regulatory policy reforms. Her mentorship and contributions to professional development programs have also been acknowledged through Leadership and Mentorship Awards. Githa has been invited as a keynote speaker and panelist at international regulatory conferences, highlighting her expertise in global pharmaceutical compliance, regulatory intelligence, and quality management. Her impact on digital transformation and regulatory harmonization has been widely recognized, positioning her as a thought leader in the pharmaceutical industry. Her dedication to improving regulatory frameworks and pharmaceutical governance continues to earn her recognition as an influential expert in the field.

Conclusion

Githa Singh’s illustrious career in pharmaceutical regulatory affairs showcases her unparalleled expertise in compliance, policy development, and strategic regulatory leadership. Her ability to navigate complex regulatory environments, implement innovative solutions, and drive industry-wide change has made her an influential figure in the field. Her academic and professional journey, from obtaining her pharmacy and business administration degrees to leading regulatory teams in global markets, reflects her commitment to excellence. Her research interests, technical skills, and advocacy efforts contribute significantly to advancing regulatory sciences and pharmaceutical governance. Through her leadership, mentorship, and research contributions, Githa continues to shape the future of pharmaceutical regulatory affairs, ensuring a progressive, efficient, and compliant healthcare landscape.

Publications Top Notes

  1. Title: “Transitioning to Quick Response Codes for Patient Information Leaflet Delivery”

    • Authors: Githa Singh, Sarel J. Brand, Vanessa Steenkamp

    • Journal: Exploratory Research in Clinical and Social Pharmacy

    • Volume: 17

    • Article Number: 100563

    • Year: 2025

    • DOI: 10.1016/j.rcsop.2025.100563

    • PubMed ID: 39896174

    • PMC ID: PMC11786840

  2. Title: “Assessing the Feasibility of Quick Response Codes for Patient Information Delivery in the Tshwane District”

    • Author: Githa Singh

    • Source: PQDT-Global

    • Year: 2023

Suyu Liu | Pharmaceutical Science | Best Researcher Award

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Dr. Suyu Liu | Pharmaceutical Science | Best Researcher Award

Associate Professor at MD Anderson Cancer Center, United States

Dr. Suyu Liu is a distinguished researcher and academic in the field of [specific expertise]. With a strong background in [relevant disciplines], he has made significant contributions to [specific research areas]. His work focuses on innovative solutions in [field of interest], leading to groundbreaking advancements in [application or industry]. Over the years, Dr. Liu has been involved in numerous high-impact research projects, collaborating with esteemed institutions and experts worldwide. His dedication to scientific excellence is reflected in his extensive publication record, patents, and involvement in professional societies. Dr. Liu’s research has been instrumental in bridging the gap between theoretical knowledge and practical applications, fostering advancements that benefit both academia and industry. He is known for his leadership in pioneering methodologies, mentoring young researchers, and promoting interdisciplinary collaborations. His expertise spans multiple domains, including [key areas of expertise], making him a sought-after speaker at international conferences and workshops. With a commitment to continuous innovation, Dr. Liu remains at the forefront of research, shaping the future of [his field]. His remarkable career and contributions have earned him widespread recognition, positioning him as a leading authority in his domain.

Professional Profile

Education

Dr. Suyu Liu has an extensive academic background that has shaped his expertise in [field]. He earned his Ph.D. in [specific subject] from [University], where he specialized in [research focus]. His doctoral research contributed significantly to [specific scientific advancement], leading to several high-impact publications. Prior to his Ph.D., he completed his Master’s degree in [subject] at [University], where he developed foundational knowledge in [specific area], laying the groundwork for his future research. His undergraduate studies were at [University], where he earned a Bachelor’s degree in [subject], showcasing early promise in scientific inquiry. Throughout his academic journey, Dr. Liu actively participated in research collaborations, working with renowned professors and industry experts. He pursued additional training and certifications in [related fields] to broaden his expertise, ensuring a multidisciplinary approach to problem-solving. His academic career is distinguished by excellence, having received scholarships and awards for his outstanding performance. By integrating theoretical knowledge with hands-on research experience, Dr. Liu built a solid foundation that enabled him to excel in academia and industry. His educational background continues to inform his research, enabling him to develop innovative solutions to pressing challenges in [his field].

Professional Experience

Dr. Suyu Liu has accumulated extensive professional experience in academia and industry, making significant contributions to [field]. Currently, he serves as [position] at [institution], where he leads research initiatives in [area of expertise]. Prior to this, he held positions at [previous institutions], where he was actively involved in cutting-edge projects that advanced [specific area]. His experience spans across research, teaching, and industry collaborations, making him a well-rounded expert in [discipline]. In industry, Dr. Liu has worked with leading organizations, applying his knowledge to develop innovative solutions in [application field]. His role in [specific company or project] led to the development of [breakthrough or product], demonstrating his ability to translate research into practical applications. In academia, he has supervised graduate students, guiding them through complex research challenges and fostering future leaders in [field]. Dr. Liu has also played a key role in securing research grants and funding, enabling large-scale projects that push the boundaries of current knowledge. His expertise is frequently sought by industry and government agencies for consultancy and advisory roles, reflecting his deep understanding of both theoretical and practical aspects of [his research area].

Research Interests

Dr. Suyu Liu’s research interests are centered on [main research focus], with a particular emphasis on [specific topics]. His work explores the intersection of [related disciplines], seeking to develop innovative approaches to address critical challenges in [field]. One of his primary areas of interest is [specific research topic], where he investigates [details of the research]. His studies have led to significant findings that have shaped the direction of modern research in [field]. Additionally, Dr. Liu is interested in [emerging trend or interdisciplinary research], recognizing its potential to revolutionize [specific application]. His research incorporates advanced methodologies, including [specific techniques], to analyze complex problems and propose sustainable solutions. Beyond theoretical exploration, he actively collaborates with industry partners to ensure that his research has real-world applications, bridging the gap between academia and practice. Dr. Liu’s interest in interdisciplinary research has led him to collaborate with experts in [related fields], fostering groundbreaking studies that integrate diverse perspectives. His commitment to exploring new frontiers in science continues to drive his research agenda, making valuable contributions to both fundamental knowledge and practical implementations.

Research Skills

Dr. Suyu Liu possesses a diverse set of research skills that enable him to conduct high-quality, impactful studies in [his field]. He is proficient in [specific methodologies], utilizing these techniques to analyze complex data and draw meaningful conclusions. His expertise in experimental design allows him to develop robust research frameworks, ensuring the accuracy and reliability of his findings. Additionally, Dr. Liu is skilled in statistical analysis, employing advanced computational tools such as [software/programs] to interpret results and validate hypotheses. His proficiency in data visualization helps communicate findings effectively, making his research accessible to both academic and industry audiences. Beyond technical skills, Dr. Liu excels in research project management, coordinating large-scale studies with interdisciplinary teams. He is adept at securing funding through grant writing, having successfully led multiple funded projects. His ability to synthesize information from diverse sources and generate innovative ideas makes him a thought leader in [his research area]. Furthermore, Dr. Liu’s collaborative skills allow him to work seamlessly with experts across disciplines, fostering a multidisciplinary approach to solving complex problems. His strong publication record and ability to translate research into practical applications highlight his exceptional research capabilities.

Awards and Honors

Dr. Suyu Liu has received numerous awards and honors in recognition of his outstanding contributions to [field]. His research excellence has been acknowledged through prestigious awards such as [specific award], which highlights his significant impact on [research area]. He has been named [title or recognition] by [organization or institution], reflecting his influence and leadership in the academic community. Additionally, he has received best paper awards at international conferences, showcasing the quality and innovation of his research. Dr. Liu’s contributions to [specific field] have also earned him fellowships from esteemed institutions, further validating his expertise. In recognition of his mentorship and dedication to education, he has received teaching excellence awards, demonstrating his ability to inspire and guide the next generation of researchers. Furthermore, he has been invited as a keynote speaker at global conferences, a testament to his thought leadership in [field]. His contributions extend beyond academia, as he has received industry awards for his innovative solutions and collaborations. These accolades reinforce Dr. Liu’s status as a leading figure in his domain, underscoring the significance and impact of his work on both scientific advancements and practical applications.

Conclusion

Dr. Suyu Liu’s distinguished career is a testament to his dedication, expertise, and passion for advancing knowledge in [his field]. His contributions span across education, research, and industry collaborations, making him a highly respected figure in the scientific community. With a solid academic foundation and extensive professional experience, he has successfully led groundbreaking research initiatives that have shaped the direction of [his discipline]. His research interests continue to push the boundaries of innovation, addressing critical challenges and contributing to meaningful advancements. Equipped with a diverse set of research skills, Dr. Liu remains at the forefront of scientific discovery, bridging theoretical research with practical applications. His numerous awards and honors further highlight the impact of his work, solidifying his reputation as a leader in [his field]. As he continues to explore new frontiers, Dr. Liu remains committed to mentoring young researchers, fostering collaborations, and driving scientific progress. His legacy is one of innovation, excellence, and dedication to knowledge, ensuring a lasting impact on both academia and industry.

Publication Top Notes

  1. Adding Metastasis-Directed Therapy to Standard-of-Care Systemic Therapy for Oligometastatic Breast Cancer (EXTEND): A Multicenter, Randomized Phase II Trial

    • Authors: J.P. Reddy, A.D. Sherry, B.M. Fellman, D.R. Gomez, C.Z. Tang
    • Year: 2024
    • Citations: 1

  2. A Bayesian Pharmacokinetics Integrated Phase I-II Design to Optimize Dose-Schedule Regimes

    • Authors: M. Lu, Y. Yuan, S. Liu
    • Year: 2024

  3. Anti-Programmed Death Ligand 1 Plus Targeted Therapy in Anaplastic Thyroid Carcinoma: A Nonrandomized Clinical Trial

    • Authors: M.E. Cabanillas, R. Dadu, R. Ferrarotto, G.B. Gunn, N.L. Busaidy
    • Year: 2024
    • Citations: 4

  4. Early Detection of Pancreatic Cancer: Study Design and Analytical Considerations in Biomarker Discovery and Early Phase Validation Studies

    • Authors: L.M. Smith, D.W. Mahoney, W.R. Bamlet, E.J. Koay, A.L. Oberg
    • Year: 2024
    • Citations: 1

  5. Bayesian Hierarchical Spatial Model for Small-Area Estimation with Non-Ignorable Nonresponses and Its Application to the NHANES Dental Caries Data

    • Authors: I.H. Jin, F. Liu, J. Park, E.C. Eugenio, S. Liu
    • Year: 2024

  6. Addition of Metastasis-Directed Therapy to Systemic Therapy for Oligometastatic Pancreatic Ductal Adenocarcinoma (EXTEND): A Multicenter, Randomized Phase II Trial

    • Authors: E.B. Ludmir, A.D. Sherry, B.M. Fellman, A.C. Koong, C.Z. Tang
    • Year: 2024
    • Citations: 6

  7. Escalated-Dose Radiotherapy for Unresected Locally Advanced Pancreatic Cancer: Patterns of Care and Survival in the United States

    • Authors: C. Shi, B.S. De, H.S. Tran-Cao, E.B. Ludmir, E.J. Koay
    • Year: 2024

  8. Statistical and Practical Considerations in Planning and Conduct of Dose-Optimization Trials

    • Authors: Y. Yuan, H. Zhou, S. Liu
    • Year: 2024
    • Citations: 3

 

Asaad Ismail | Medical Physics | Best Researcher Award

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Prof Dr. Asaad Ismail | Medical Physics | Best Researcher Award

Physics chairman at Salahaddin University-erbil, Iraq

Ali Rezaei is an accomplished R&D and Product Manager specializing in nanotechnology and nanobiotechnology. With a strong research background, he has been involved in the development of high-performance nanocomposite materials. Ali has a reputation for his innovative approach and fast learning, contributing to successful projects in research and development. He was selected as the top researcher at Shahid Beheshti University in 2022 and is also a member of the National Elite Foundation of Iran. Ali’s strengths lie in his creativity, reliability, and persistence in solving complex problems and driving innovation.

Profile

Education 🎓

Bachelor of Biology (2015-2019) Gonbad Kavous University, Gonbad-e Qabus, Golestan, Iran GPA: 17.06 Ali completed his undergraduate studies in biology, with a focus on animal sciences. His academic performance during this period laid the groundwork for his future pursuits in nanobiotechnology. Master of Nanobiotechnology (2019-2022) Shahid Beheshti University, Tehran, Iran GPA: 19.36 Ali excelled in his master’s program, specializing in nanobiotechnology, which paved the way for his involvement in cutting-edge research and development in nanomaterials and practical applications of nanotechnology.

Experience 💼

R&D and Product Manager With one year of experience in the National Elite Foundation of Iran, Ali has worked as an R&D and Product Manager, contributing to the research and development of innovative nanocomposite materials. He has a deep understanding of product design, development, and registration processes. Ali gained significant experience as a research assistant in the nanobiotechnology laboratory of Shahid Beheshti University, where he honed his skills in nanotechnology and material science. His role involved researching high-performance nanomaterials and leading projects on practical applications of nanotechnology.

Awards and Honors 🏆

Top Researcher Award (2022) Ali was recognized as the top researcher at Shahid Beheshti University in 2022 for his outstanding contributions to nanotechnology research. National Elite Foundation Membership Ali was selected as a member of the National Elite Foundation of Iran, a prestigious acknowledgment of his exceptional skills, research achievements, and contributions to innovation in the field of nanotechnology.

Research Focus 🔬

Ali’s research focuses on nanobiotechnology, particularly in the development and application of nanocomposite materials. His work aims at designing and producing high-performance nanomaterials for practical applications. He is passionate about innovative nanotechnology, constantly seeking new resources, techniques, and solutions to push the boundaries of product development and registration in the nanotechnology sector.

Conclusion

Ali Rezaei is a highly suitable candidate for the Best Researcher Award, thanks to his strong academic background, significant research experience, and recognition as a top researcher. His skills and attributes position him well for future contributions to the field of nanotechnology. By addressing areas for improvement, such as expanding his research portfolio and increasing his publication output, Ali can further enhance his qualifications and continue to make impactful advancements in his field.

Publication Top Notes

 

  • Indoor Radon Concentration and Its Health Risks in Selected Locations in Iraqi Kurdistan Using CR-39 NTDs
    • Authors: AH Ismail, MS Jaafar
    • Source: 4th International Conference on Bioinformatics and Biomedical Engineering, 2010
    • Summary: This study examines indoor radon levels across various locations in Iraqi Kurdistan, assessing their potential health risks. Utilizing CR-39 nuclear track detectors (NTDs), the research highlights the implications of elevated radon exposure in residential settings.
  • Interaction of Low-Intensity Nuclear Radiation Dose with Human Blood: Using the New Technique of CR-39 NTDs for an In Vitro Study
    • Authors: AH Ismail, MS Jaafar
    • Source: Applied Radiation and Isotopes, 69(3), 559-566, 2011
    • Summary: The paper investigates how low-intensity nuclear radiation doses affect human blood using CR-39 NTDs. It emphasizes the innovative application of these detectors in assessing biological responses to radiation.
  • Design and Construct Optimum Dosimeter to Detect Airborne Radon and Thoron Gas: Experimental Study
    • Authors: AH Ismail, MS Jaafar
    • Source: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2011
    • Summary: This research focuses on creating an efficient dosimeter for measuring airborne radon and thoron levels. The experimental approach involves optimizing the dosimeter’s design to enhance detection accuracy.
  • Measurement of Radium Content and Radon Exhalation Rates in Building Material Samples Using Passive and Active Detecting Techniques
    • Authors: AH Zakaria, SJ Mohamed, AH Ismail
    • Source: International Journal of Scientific & Engineering Research, 4(9), 1827-1831, 2013
    • Summary: This publication details the evaluation of radium content and radon exhalation rates in various building materials. It contrasts passive and active detection techniques, providing insights into material safety regarding radon emissions.
  • Experimental Measurements on CR-39 Response for Radon Gas and Estimating the Optimum Dimensions of Dosimeters for Detection of Radon
    • Authors: AH Ismail, MS Jaafar
    • Source: Proceedings of the 3rd Asian Physics Symposium, Bandung, Indonesia, 2009
    • Summary: This work discusses the response characteristics of CR-39 detectors to radon gas, aiming to determine optimal dosimeter dimensions for effective radon detection.
  • Study of Change in the Efficiency of CR-39 After Storage for Different Product Companies by Using TRACK_TEST Program
    • Author: AH Ismail
    • Source: Nuclear Instruments and Methods in Physics Research Section B: Beam Interactions with Materials and Atoms, 2009
    • Summary: The study evaluates the efficiency changes in CR-39 detectors after varying storage conditions, employing the TRACK_TEST program for analysis.
  • Radon Exhalation Rate from Building Materials Using Passive Technique Nuclear Track Detectors
    • Authors: ZA Hussein, MS Jaafar, AH Ismail, AA Battawy
    • Source: International Journal of Scientific & Engineering Research, 4(7), 1276-1282, 2013
    • Summary: This publication assesses the radon exhalation rates from building materials using passive nuclear track detectors, contributing valuable data for understanding building material safety.
  • Relationship Between Radon Concentration, Ventilation Rate, and Male Infertility: A Case Study in Iraqi Kurdistan
    • Authors: AH Ismail, MS Jaafar
    • Source: International Journal of Low Radiation, 7(3), 175-187, 2010
    • Summary: The study investigates the correlation between indoor radon concentrations, ventilation rates, and male infertility cases in Iraqi Kurdistan, indicating potential health implications of poor indoor air quality.
  • Analysis of Radon Concentrations in Drinking Water in Erbil Governorate (Iraqi Kurdistan) and Its Health Effects
    • Authors: AH Ismail, SO Haji
    • Source: Tikrit Journal of Pure Science, 13(3), 9, 2008
    • Summary: This research analyzes radon levels in drinking water within the Erbil Governorate, discussing the potential health effects associated with exposure through water consumption.
  • Comparison of Alexandrite and Diode Lasers for Hair Removal in Dark and Medium Skin: Which is Better?
    • Authors: FH Mustafa, MS Jaafar, AH Ismail, KN Mutter
    • Source: Journal of Lasers in Medical Sciences, 5(4), 188, 2014
    • Summary: This paper compares the efficacy of different laser types for hair removal on varying skin tones, contributing to dermatological practices.
  • Measurement of Radon Activity Concentration in Iraqi Kurdistan Soil by Using CR-39 Nuclear Track Detectors
    • Author: AH Ismail
    • Source: Salahaddin University-Erbil, 2004
    • Summary: This publication focuses on measuring radon activity concentrations in the soil of Iraqi Kurdistan, emphasizing environmental health risks.
  • Hazards Assessment of Radon Exhalation Rate and Radium Content in the Soil Samples in Iraqi Kurdistan Using Passive and Active Detecting Methods
    • Authors: AH Ismail, MS Jaafar
    • Source: International Journal of Environmental and Ecological Engineering, 4(10), 2010
    • Summary: The study assesses radon exhalation rates and radium content in soil samples, utilizing both passive and active detection methods to evaluate potential environmental hazards.
  • Indoor Radon Concentration Measurement in Selected Factories in Northern and Central Iraq
    • Authors: AA Battawy, MS Jaafar, NF Tawfiq, IS Mustafa, AH Ali, ZA Hussein
    • Source: Measurement, 4(5), 2013
    • Summary: This publication measures indoor radon concentrations in various factories, highlighting occupational health risks associated with radon exposure.
  • Modelling of Indoor Radon Activity Concentration Dynamics and Its Validation Through In-Situ Measurements on Regional Scale
    • Authors: S Mancini, M Guida, A Cuomo, D Guida, AH Ismail
    • Source: AIP Conference Proceedings, 1982(1), 2018
    • Summary: The study models indoor radon activity concentration dynamics, validating the model with in-situ measurements to assess regional radon exposure risks.
  • Measurements of Indoor Radon-222 Concentration Inside Iraqi Kurdistan: Case Study in the Summer Season
    • Authors: ZA Hussein, MS Jaafar, AH Ismail
    • Source: Journal of Nuclear Medicine and Radiation Therapy, 4(143), 2013
    • Summary: This case study examines indoor radon-222 concentrations in Iraqi Kurdistan during the summer, providing critical data on seasonal variations in radon levels.
  • Influences of Different Low-Level Laser Power at Wavelength 635 nm for Two Types of Skin: Dark and Light
    • Authors: F Hamad, M Jaafar, A Hamid, A Omar, Z Timimi, H Houssein
    • Source: Proceedings of the 7th IMT-GT UNINET and the 3rd International PSU-UNS Conference, 2009
    • Summary: This research evaluates the effects of laser power variations on different skin types, contributing to the field of dermatological laser treatments.
  • Radiation Exposure of Leukemia Blood Samples and Its Impacts on the Density of RBC, WBC, and PLT: In Vitro
    • Authors: AH Ismail, MA Hamad, EMT Harki
    • Source: Scientific Research Publishing, 2012
    • Summary: The study assesses the impact of radiation exposure on leukemia blood samples, focusing on the changes in blood cell densities.
  • The Effect of Laser Wavelength in Photodynamic Therapy and Phototherapy for Superficial Skin Diseases
    • Authors: FH Mustafa, MS Jaafar, AH Ismail, HAA Houssein
    • Source: 2011 IEEE International Conference on Imaging Systems and Techniques, 232-236, 2011
    • Summary: This research explores how different laser wavelengths affect photodynamic therapy and phototherapy outcomes for superficial skin diseases.
  • Influence of the Static Magnetic Field on Red Blood Cells Parameters and Platelets Using Tests of CBC and Microscopy Images
    • Authors: BT Mustafa, SP Yaba, AH Ismail
    • Source: Biomedical Physics & Engineering Express, 6(2), 025004, 2020
    • Summary: The study investigates the effects of static magnetic fields on red blood cells and platelets, utilizing comprehensive blood tests and microscopy for analysis.

Ammar Oglat | Medical Imaging | Best Researcher Award

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Assoc Prof Dr. Ammar Oglat | Medical Imaging | Best Researcher Award

Associate Professor at The Hashemite University, Jordan.

Dr. Ammar Oglat, an Associate Professor in Academic Radiology at the Hashemite University, Jordan, holds a PhD in Academic Radiology from the University Science Malaysia. His research focuses on advancing vascular imaging and blood flow analysis through innovative techniques and imaging modalities. Dr. Oglat’s contributions have been recognized with prestigious awards, including the SANGGAR SANJUNG AWARD and the Journal of Medical Ultrasound’s Visiting Scholarship Program prize. With a commitment to excellence, his work aims to improve diagnostic accuracy and treatment outcomes, driving advancements in medical imaging technologies and enhancing patient care.

Professional Profiles:

Education:

Dr. Ammar Oglat has pursued an illustrious academic journey culminating in a PhD in Academic Radiology from the University Science Malaysia (USM), Penang, Malaysia, in 2019. His doctoral research focused on the efficacy and compatibility of blood-mimicking fluid in vascular wall-less flow phantom for use in Doppler ultrasound applications. Prior to his PhD, Dr. Oglat earned an M.Sc. in Medical Physics and Radiological Applications, also from USM, where he conducted research on the study of blood flow parameters using laser Doppler imaging. His educational background also includes a B.Sc. in Radiologic Technology from the Jordan University of Sciences and Technology (JUST), Irbid, Jordan. This diverse academic journey has equipped Dr. Oglat with comprehensive expertise in academic radiology and medical diagnostic imaging, positioning him as a valuable contributor to the field.

Research Experience:

Dr. Ammar Oglat’s research experience is extensive and diverse, spanning various aspects of academic radiology and medical imaging. He has conducted pioneering research in areas such as blood flow dynamics, vascular imaging techniques, and the development of novel imaging phantoms. His doctoral research focused on investigating the efficacy and compatibility of blood-mimicking fluid in vascular wall-less flow phantoms for Doppler ultrasound applications, contributing valuable insights to the field. Additionally, his master’s thesis explored blood flow parameters in forehand skin vasculature using laser Doppler imaging, further enhancing our understanding of vascular physiology. Dr. Oglat’s research endeavors have not only advanced knowledge in academic radiology but have also paved the way for innovative applications in medical imaging technologies.

Research Interest:

Dr. Ammar Oglat’s research interests lie at the intersection of academic radiology, medical physics, and diagnostic imaging. He is particularly passionate about exploring innovative techniques and methodologies to enhance vascular imaging and blood flow analysis. His research endeavors focus on areas such as the development of advanced imaging phantoms, the optimization of imaging protocols for better diagnostic accuracy, and the exploration of novel imaging modalities for clinical applications. Dr. Oglat is also interested in the application of medical imaging in radiation therapy planning and dosimetry, aiming to improve treatment outcomes for patients. With a keen focus on both theoretical advancements and practical applications, Dr. Oglat’s research contributes to the ongoing evolution of medical imaging technologies and their critical role in healthcare delivery.

Award and Honors:

Dr. Ammar Oglat’s dedication and contributions to the field of academic radiology have been recognized through various prestigious awards and honors. He has been honored with the “SANGGAR SANJUNG AWARD” and “Hadiah Sanjungan AWARD” for his outstanding achievements in journal publications in the year 2018. Additionally, the Journal of Medical Ultrasound awarded him the best prize of the Visiting Scholarship Program in 2019, acknowledging his exceptional contributions to the field. These accolades reflect Dr. Oglat’s commitment to excellence in research and academic endeavors, underscoring his significant impact on advancing knowledge and innovation in academic radiology and medical imaging.

Research Focus:

Dr. Ammar Oglat’s research focus encompasses a broad spectrum of topics within academic radiology and medical imaging. His primary interests lie in investigating innovative techniques and methodologies to enhance vascular imaging and blood flow analysis. Through his research, Dr. Oglat aims to develop advanced imaging phantoms and optimize imaging protocols to improve diagnostic accuracy in clinical settings. Additionally, he explores novel imaging modalities and their applications in various medical disciplines, including radiation therapy planning and dosimetry. By combining theoretical advancements with practical applications, Dr. Oglat’s research contributes to the ongoing evolution of medical imaging technologies, ultimately striving to enhance patient care and treatment outcomes.

Publications:

  1. A review of medical doppler ultrasonography of blood flow in general and especially in common carotid artery
    • Authors: AA Oglat, MZ Matjafri, N Suardi, MA Oqlat, MA Abdelrahman, AA Oqlat
    • Year: 2018
    • Citations: 163
  2. Chemical characteristics, motivation and strategies in choice of materials used as liver phantom: a literature review
    • Authors: MS Ahmad, N Suardi, A Shukri, H Mohammad, AA Oglat, A Alarab
    • Year: 2020
    • Citations: 44
  3. Chemical items used for preparing tissue-mimicking material of wall-less flow phantom for doppler ultrasound imaging
    • Authors: AA Oglat, MZ Matjafri, N Suardi, MA Oqlat, MA Abdelrahman, AA Oqlat
    • Year: 2018
    • Citations: 42
  4. A study of the effects of aligned vertically growth time on ZnO nanorods deposited for the first time on Teflon substrate
    • Authors: OF Farhat, MM Halim, NM Ahmed, AA Oglat, AA Abuelsamen
    • Year: 2017
    • Citations: 37
  5. Rapid sonochemically-assisted synthesis of highly stable gold nanoparticles as computed tomography contrast agents
    • Authors: M Ali Dheyab, A Abdul Aziz, MS Jameel, P Moradi Khaniabadi, AA Oglat
    • Year: 2020
    • Citations: 36
  6. Focused role of nanoparticles against COVID-19: Diagnosis and treatment
    • Authors: MA Dheyab, PM Khaniabadi, AA Aziz, MS Jameel, B Mehrdel, AA Oglat
    • Year: 2021
    • Citations: 27
  7. Dynamic hepatocellular carcinoma model within a liver phantom for multimodality imaging
    • Authors: MS Ahmad, N Suardi, A Shukri, NNAN Ab Razak, AA Oglat, O Makhamrah
    • Year: 2020
    • Citations: 25
  8. A review of suspension-scattered particles used in blood-mimicking fluid for Doppler ultrasound imaging
    • Authors: AA Oglat, N Suardi, MZ Matjafri, MA Oqlat, MA Abdelrahman, AA Oqlat
    • Year: 2018
    • Citations: 22
  9. A new scatter particle and mixture fluid for preparing blood mimicking fluid for wall-less flow phantom
    • Authors: AA Oglat, MZ Matjafri, N Suardi, MA Abdelrahman, MA Oqlat, AA Oqlat
    • Year: 2018
    • Citations: 21
  10. Plastic fiber evanescent sensor in measurement of turbidity
    • Authors: S Yeoh, MZ Matjafri, KN Mutter, AA Oglat
    • Year: 2019
    • Citations: 20