Fatemeh Akbarzadeh | Health and Engineering | Best Researcher Award Posted on 08/10/202408/10/2024 by ScienceFather Mrs. Fatemeh Akbarzadeh | Health and Engineering | Best Researcher Award Medical Physicist at Guilan University of Medical Sciences, Iran. Fatemeh Akbarzadeh is a distinguished medical physicist from Rasht, Iran, holding an M.Sc. in Medical Physics from Kermanshah University of Medical Sciences, where she achieved a GPA of 3.953/4. Her research interests encompass cancer treatment, targeted therapy, drug delivery, and nanotechnology applications in oncology. Akbarzadeh has authored several publications in reputable journals, focusing on advanced therapeutic techniques, including the use of bismuth oxide nanoparticles for photodynamic therapy. She is also a patent holder for synthesizing targeted drug delivery systems, highlighting her innovative contributions to the field. With extensive experience as a Medical Physicist in various hospitals, she bridges theoretical research and clinical practice effectively. Despite her accomplishments, she could benefit from increased collaboration and broader publication reach. Overall, Fatemeh Akbarzadeh’s dedication to advancing cancer treatment and her strong academic background position her as a valuable asset in medical physics research. Profile Google Scholar ORCID Profile Education Fatemeh Akbarzadeh holds a Master of Science in Medical Physics from Kermanshah University of Medical Sciences, where she excelled with a remarkable GPA of 3.953 out of 4. Her graduate studies, completed in 2018, focused on integrating physics principles with medical applications, particularly in cancer treatment and radiotherapy. Prior to her master’s degree, she earned her Bachelor of Science in Radiotherapy Technology from Tehran University of Medical Sciences in 2014, achieving a GPA of 3.670 out of 4. This foundational education equipped her with essential skills in radiotherapy techniques and patient care, laying the groundwork for her research in targeted therapy and drug delivery systems. Fatemeh’s academic journey reflects her commitment to advancing medical technology and improving patient outcomes through innovative approaches in cancer diagnosis and treatment, positioning her as a knowledgeable professional in the field of medical physics. Professional Experience Fatemeh Akbarzadeh has extensive professional experience in the field of medical physics, specifically in radiation therapy. She is currently a Medical Physicist at Razi Hospital in Rasht, Guilan, Iran, where she applies her expertise in dosimetry and treatment planning to enhance patient care in oncology. Prior to this role, she worked at Velayat Hospital in Qazvin for three years, focusing on the implementation of radiation protection protocols and quality assurance measures in therapeutic procedures. Her earlier experience also includes serving as a Laboratory Expert in the Toxicology and Pharmacology Department at Kermanshah University of Medical Sciences, where she honed her skills in toxicology assessments and experimental research. This diverse background equips her with a comprehensive understanding of both the theoretical and practical aspects of medical physics, enabling her to contribute significantly to cancer treatment methodologies and enhance the effectiveness of radiotherapy. Research Interest Fatemeh Akbarzadeh’s research interests lie at the intersection of medical physics and oncology, focusing primarily on innovative strategies for cancer treatment. She explores targeted therapy, drug delivery, and photodynamic therapy, leveraging advancements in nanotechnology to enhance therapeutic efficacy. Her work emphasizes the development of nanoparticles, specifically bismuth oxide nanoparticles, for targeted drug delivery systems, aiming to improve the precision and effectiveness of cancer therapies while minimizing side effects. Additionally, her research encompasses radiation therapy, radiobiology, imaging, and dosimetry, contributing to a comprehensive understanding of how these modalities can be optimized for better patient outcomes. Fatemeh is particularly interested in the interplay between novel therapeutic agents and established treatment methods, seeking to create synergistic approaches that harness the strengths of both to combat cancer more effectively. Her commitment to advancing cancer diagnosis and treatment through rigorous scientific inquiry positions her as a significant contributor to the field of medical physics. Research Skills Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition Fatemeh Akbarzadeh has garnered significant recognition for her innovative contributions to the field of medical physics, particularly in cancer treatment. With multiple publications in reputable journals, her research focuses on targeted therapy and nanotechnology, showcasing her commitment to advancing oncological therapies. Notably, she holds a patent for the synthesis of bismuth oxide nanoparticles, enhancing photodynamic therapy efficacy. Her academic excellence is reflected in her impressive GPA during her Master’s studies, affirming her strong foundation in the field. Additionally, she has actively participated in various international conferences, presenting her findings and fostering collaborations within the scientific community. Akbarzadeh’s role as a Medical Physicist in prominent hospitals further underscores her practical expertise and dedication to applying research findings in clinical settings. Her continuous pursuit of knowledge and innovation positions her as a leading figure in medical physics, making her a deserving candidate for awards and recognitions in her field. Conclusion Fatemeh Akbarzadeh is a commendable candidate for the Best Researcher Award, given her strong educational background, significant contributions to cancer treatment research, and practical experience as a Medical Physicist. Her innovative approaches in utilizing nanotechnology for drug delivery and photodynamic therapy position her as a promising researcher in her field. By addressing areas for improvement, particularly in collaboration and publication strategies, she can further enhance her research impact and recognition. Her dedication to advancing cancer treatment through rigorous scientific inquiry makes her a valuable asset to the medical physics community. Publication Top Notes In vitro outlook of gold nanoparticles in photo-thermal therapy: a literature review Authors: H. Norouzi, K. Khoshgard, F. Akbarzadeh Year: 2018 Journal: Lasers in Medical Science Volume/Issue/Page: 33, 917-926 Citations: 126 Investigating the cytotoxicity of folate-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018 Journal: Advanced Pharmaceutical Bulletin Volume/Issue/Page: 8(4), 627 Citations: 25 Evaluating the photodynamic therapy efficacy using 5-aminolevulinic acid and folic acid-conjugated bismuth oxide nanoparticles on human nasopharyngeal carcinoma cell line Authors: F. Akbarzadeh, K. Khoshgard, E. Arkan, L. Hosseinzadeh, … Year: 2018 Journal: Artificial Cells, Nanomedicine, and Biotechnology Volume/Issue/Page: 46(sup3), S514-S523 Citations: 19 Ratiometric bioassay and visualization of dopamine β-hydroxylase in brain cells utilizing a nanohybrid fluorescence probe Authors: N. Amin, A. Afkhami, L. Hosseinzadeh, F. Akbarzadeh, T. Madrakian, … Year: 2020 Journal: Analytica Chimica Acta Volume/Issue/Page: 1105, 187-196 Citations: 10 Enhancement of the effect of novel targeted 5-aminolevulinic acid conjugated bismuth oxide nanoparticles-based photodynamic therapy by simultaneous radiotherapy on KB cells Authors: F. Akbarzadeh, K. Khoshgard Year: 2024 Journal: Photodiagnosis and Photodynamic Therapy Volume/Issue/Page: 46, 104025 Citations: 2 Cytotoxicity of 5-ALA-conjugated bismuth oxide nanoparticles on KB cell line Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan Year: 2018 Journal: Iranian Journal of Medical Physics Volume/Issue/Page: 15 (Special Issue-12th Iranian Congress …) Investigating the cytotoxicity of folate and 5-aminolevulinic acid-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018
Fatemeh Akbarzadeh is a distinguished medical physicist from Rasht, Iran, holding an M.Sc. in Medical Physics from Kermanshah University of Medical Sciences, where she achieved a GPA of 3.953/4. Her research interests encompass cancer treatment, targeted therapy, drug delivery, and nanotechnology applications in oncology. Akbarzadeh has authored several publications in reputable journals, focusing on advanced therapeutic techniques, including the use of bismuth oxide nanoparticles for photodynamic therapy. She is also a patent holder for synthesizing targeted drug delivery systems, highlighting her innovative contributions to the field. With extensive experience as a Medical Physicist in various hospitals, she bridges theoretical research and clinical practice effectively. Despite her accomplishments, she could benefit from increased collaboration and broader publication reach. Overall, Fatemeh Akbarzadeh’s dedication to advancing cancer treatment and her strong academic background position her as a valuable asset in medical physics research.
Fatemeh Akbarzadeh has extensive professional experience in the field of medical physics, specifically in radiation therapy. She is currently a Medical Physicist at Razi Hospital in Rasht, Guilan, Iran, where she applies her expertise in dosimetry and treatment planning to enhance patient care in oncology. Prior to this role, she worked at Velayat Hospital in Qazvin for three years, focusing on the implementation of radiation protection protocols and quality assurance measures in therapeutic procedures. Her earlier experience also includes serving as a Laboratory Expert in the Toxicology and Pharmacology Department at Kermanshah University of Medical Sciences, where she honed her skills in toxicology assessments and experimental research. This diverse background equips her with a comprehensive understanding of both the theoretical and practical aspects of medical physics, enabling her to contribute significantly to cancer treatment methodologies and enhance the effectiveness of radiotherapy. Research Interest Fatemeh Akbarzadeh’s research interests lie at the intersection of medical physics and oncology, focusing primarily on innovative strategies for cancer treatment. She explores targeted therapy, drug delivery, and photodynamic therapy, leveraging advancements in nanotechnology to enhance therapeutic efficacy. Her work emphasizes the development of nanoparticles, specifically bismuth oxide nanoparticles, for targeted drug delivery systems, aiming to improve the precision and effectiveness of cancer therapies while minimizing side effects. Additionally, her research encompasses radiation therapy, radiobiology, imaging, and dosimetry, contributing to a comprehensive understanding of how these modalities can be optimized for better patient outcomes. Fatemeh is particularly interested in the interplay between novel therapeutic agents and established treatment methods, seeking to create synergistic approaches that harness the strengths of both to combat cancer more effectively. Her commitment to advancing cancer diagnosis and treatment through rigorous scientific inquiry positions her as a significant contributor to the field of medical physics. Research Skills Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition Fatemeh Akbarzadeh has garnered significant recognition for her innovative contributions to the field of medical physics, particularly in cancer treatment. With multiple publications in reputable journals, her research focuses on targeted therapy and nanotechnology, showcasing her commitment to advancing oncological therapies. Notably, she holds a patent for the synthesis of bismuth oxide nanoparticles, enhancing photodynamic therapy efficacy. Her academic excellence is reflected in her impressive GPA during her Master’s studies, affirming her strong foundation in the field. Additionally, she has actively participated in various international conferences, presenting her findings and fostering collaborations within the scientific community. Akbarzadeh’s role as a Medical Physicist in prominent hospitals further underscores her practical expertise and dedication to applying research findings in clinical settings. Her continuous pursuit of knowledge and innovation positions her as a leading figure in medical physics, making her a deserving candidate for awards and recognitions in her field. Conclusion Fatemeh Akbarzadeh is a commendable candidate for the Best Researcher Award, given her strong educational background, significant contributions to cancer treatment research, and practical experience as a Medical Physicist. Her innovative approaches in utilizing nanotechnology for drug delivery and photodynamic therapy position her as a promising researcher in her field. By addressing areas for improvement, particularly in collaboration and publication strategies, she can further enhance her research impact and recognition. Her dedication to advancing cancer treatment through rigorous scientific inquiry makes her a valuable asset to the medical physics community. Publication Top Notes In vitro outlook of gold nanoparticles in photo-thermal therapy: a literature review Authors: H. Norouzi, K. Khoshgard, F. Akbarzadeh Year: 2018 Journal: Lasers in Medical Science Volume/Issue/Page: 33, 917-926 Citations: 126 Investigating the cytotoxicity of folate-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018 Journal: Advanced Pharmaceutical Bulletin Volume/Issue/Page: 8(4), 627 Citations: 25 Evaluating the photodynamic therapy efficacy using 5-aminolevulinic acid and folic acid-conjugated bismuth oxide nanoparticles on human nasopharyngeal carcinoma cell line Authors: F. Akbarzadeh, K. Khoshgard, E. Arkan, L. Hosseinzadeh, … Year: 2018 Journal: Artificial Cells, Nanomedicine, and Biotechnology Volume/Issue/Page: 46(sup3), S514-S523 Citations: 19 Ratiometric bioassay and visualization of dopamine β-hydroxylase in brain cells utilizing a nanohybrid fluorescence probe Authors: N. Amin, A. Afkhami, L. Hosseinzadeh, F. Akbarzadeh, T. Madrakian, … Year: 2020 Journal: Analytica Chimica Acta Volume/Issue/Page: 1105, 187-196 Citations: 10 Enhancement of the effect of novel targeted 5-aminolevulinic acid conjugated bismuth oxide nanoparticles-based photodynamic therapy by simultaneous radiotherapy on KB cells Authors: F. Akbarzadeh, K. Khoshgard Year: 2024 Journal: Photodiagnosis and Photodynamic Therapy Volume/Issue/Page: 46, 104025 Citations: 2 Cytotoxicity of 5-ALA-conjugated bismuth oxide nanoparticles on KB cell line Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan Year: 2018 Journal: Iranian Journal of Medical Physics Volume/Issue/Page: 15 (Special Issue-12th Iranian Congress …) Investigating the cytotoxicity of folate and 5-aminolevulinic acid-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018
Fatemeh Akbarzadeh’s research interests lie at the intersection of medical physics and oncology, focusing primarily on innovative strategies for cancer treatment. She explores targeted therapy, drug delivery, and photodynamic therapy, leveraging advancements in nanotechnology to enhance therapeutic efficacy. Her work emphasizes the development of nanoparticles, specifically bismuth oxide nanoparticles, for targeted drug delivery systems, aiming to improve the precision and effectiveness of cancer therapies while minimizing side effects. Additionally, her research encompasses radiation therapy, radiobiology, imaging, and dosimetry, contributing to a comprehensive understanding of how these modalities can be optimized for better patient outcomes. Fatemeh is particularly interested in the interplay between novel therapeutic agents and established treatment methods, seeking to create synergistic approaches that harness the strengths of both to combat cancer more effectively. Her commitment to advancing cancer diagnosis and treatment through rigorous scientific inquiry positions her as a significant contributor to the field of medical physics. Research Skills Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition Fatemeh Akbarzadeh has garnered significant recognition for her innovative contributions to the field of medical physics, particularly in cancer treatment. With multiple publications in reputable journals, her research focuses on targeted therapy and nanotechnology, showcasing her commitment to advancing oncological therapies. Notably, she holds a patent for the synthesis of bismuth oxide nanoparticles, enhancing photodynamic therapy efficacy. Her academic excellence is reflected in her impressive GPA during her Master’s studies, affirming her strong foundation in the field. Additionally, she has actively participated in various international conferences, presenting her findings and fostering collaborations within the scientific community. Akbarzadeh’s role as a Medical Physicist in prominent hospitals further underscores her practical expertise and dedication to applying research findings in clinical settings. Her continuous pursuit of knowledge and innovation positions her as a leading figure in medical physics, making her a deserving candidate for awards and recognitions in her field. Conclusion Fatemeh Akbarzadeh is a commendable candidate for the Best Researcher Award, given her strong educational background, significant contributions to cancer treatment research, and practical experience as a Medical Physicist. Her innovative approaches in utilizing nanotechnology for drug delivery and photodynamic therapy position her as a promising researcher in her field. By addressing areas for improvement, particularly in collaboration and publication strategies, she can further enhance her research impact and recognition. Her dedication to advancing cancer treatment through rigorous scientific inquiry makes her a valuable asset to the medical physics community. Publication Top Notes In vitro outlook of gold nanoparticles in photo-thermal therapy: a literature review Authors: H. Norouzi, K. Khoshgard, F. Akbarzadeh Year: 2018 Journal: Lasers in Medical Science Volume/Issue/Page: 33, 917-926 Citations: 126 Investigating the cytotoxicity of folate-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018 Journal: Advanced Pharmaceutical Bulletin Volume/Issue/Page: 8(4), 627 Citations: 25 Evaluating the photodynamic therapy efficacy using 5-aminolevulinic acid and folic acid-conjugated bismuth oxide nanoparticles on human nasopharyngeal carcinoma cell line Authors: F. Akbarzadeh, K. Khoshgard, E. Arkan, L. Hosseinzadeh, … Year: 2018 Journal: Artificial Cells, Nanomedicine, and Biotechnology Volume/Issue/Page: 46(sup3), S514-S523 Citations: 19 Ratiometric bioassay and visualization of dopamine β-hydroxylase in brain cells utilizing a nanohybrid fluorescence probe Authors: N. Amin, A. Afkhami, L. Hosseinzadeh, F. Akbarzadeh, T. Madrakian, … Year: 2020 Journal: Analytica Chimica Acta Volume/Issue/Page: 1105, 187-196 Citations: 10 Enhancement of the effect of novel targeted 5-aminolevulinic acid conjugated bismuth oxide nanoparticles-based photodynamic therapy by simultaneous radiotherapy on KB cells Authors: F. Akbarzadeh, K. Khoshgard Year: 2024 Journal: Photodiagnosis and Photodynamic Therapy Volume/Issue/Page: 46, 104025 Citations: 2 Cytotoxicity of 5-ALA-conjugated bismuth oxide nanoparticles on KB cell line Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan Year: 2018 Journal: Iranian Journal of Medical Physics Volume/Issue/Page: 15 (Special Issue-12th Iranian Congress …) Investigating the cytotoxicity of folate and 5-aminolevulinic acid-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018
Fatemeh Akbarzadeh’s research interests lie at the intersection of medical physics and oncology, focusing primarily on innovative strategies for cancer treatment. She explores targeted therapy, drug delivery, and photodynamic therapy, leveraging advancements in nanotechnology to enhance therapeutic efficacy. Her work emphasizes the development of nanoparticles, specifically bismuth oxide nanoparticles, for targeted drug delivery systems, aiming to improve the precision and effectiveness of cancer therapies while minimizing side effects. Additionally, her research encompasses radiation therapy, radiobiology, imaging, and dosimetry, contributing to a comprehensive understanding of how these modalities can be optimized for better patient outcomes. Fatemeh is particularly interested in the interplay between novel therapeutic agents and established treatment methods, seeking to create synergistic approaches that harness the strengths of both to combat cancer more effectively. Her commitment to advancing cancer diagnosis and treatment through rigorous scientific inquiry positions her as a significant contributor to the field of medical physics. Research Skills Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition Fatemeh Akbarzadeh has garnered significant recognition for her innovative contributions to the field of medical physics, particularly in cancer treatment. With multiple publications in reputable journals, her research focuses on targeted therapy and nanotechnology, showcasing her commitment to advancing oncological therapies. Notably, she holds a patent for the synthesis of bismuth oxide nanoparticles, enhancing photodynamic therapy efficacy. Her academic excellence is reflected in her impressive GPA during her Master’s studies, affirming her strong foundation in the field. Additionally, she has actively participated in various international conferences, presenting her findings and fostering collaborations within the scientific community. Akbarzadeh’s role as a Medical Physicist in prominent hospitals further underscores her practical expertise and dedication to applying research findings in clinical settings. Her continuous pursuit of knowledge and innovation positions her as a leading figure in medical physics, making her a deserving candidate for awards and recognitions in her field. Conclusion Fatemeh Akbarzadeh is a commendable candidate for the Best Researcher Award, given her strong educational background, significant contributions to cancer treatment research, and practical experience as a Medical Physicist. Her innovative approaches in utilizing nanotechnology for drug delivery and photodynamic therapy position her as a promising researcher in her field. By addressing areas for improvement, particularly in collaboration and publication strategies, she can further enhance her research impact and recognition. Her dedication to advancing cancer treatment through rigorous scientific inquiry makes her a valuable asset to the medical physics community. Publication Top Notes In vitro outlook of gold nanoparticles in photo-thermal therapy: a literature review Authors: H. Norouzi, K. Khoshgard, F. Akbarzadeh Year: 2018 Journal: Lasers in Medical Science Volume/Issue/Page: 33, 917-926 Citations: 126 Investigating the cytotoxicity of folate-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018 Journal: Advanced Pharmaceutical Bulletin Volume/Issue/Page: 8(4), 627 Citations: 25 Evaluating the photodynamic therapy efficacy using 5-aminolevulinic acid and folic acid-conjugated bismuth oxide nanoparticles on human nasopharyngeal carcinoma cell line Authors: F. Akbarzadeh, K. Khoshgard, E. Arkan, L. Hosseinzadeh, … Year: 2018 Journal: Artificial Cells, Nanomedicine, and Biotechnology Volume/Issue/Page: 46(sup3), S514-S523 Citations: 19 Ratiometric bioassay and visualization of dopamine β-hydroxylase in brain cells utilizing a nanohybrid fluorescence probe Authors: N. Amin, A. Afkhami, L. Hosseinzadeh, F. Akbarzadeh, T. Madrakian, … Year: 2020 Journal: Analytica Chimica Acta Volume/Issue/Page: 1105, 187-196 Citations: 10 Enhancement of the effect of novel targeted 5-aminolevulinic acid conjugated bismuth oxide nanoparticles-based photodynamic therapy by simultaneous radiotherapy on KB cells Authors: F. Akbarzadeh, K. Khoshgard Year: 2024 Journal: Photodiagnosis and Photodynamic Therapy Volume/Issue/Page: 46, 104025 Citations: 2 Cytotoxicity of 5-ALA-conjugated bismuth oxide nanoparticles on KB cell line Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan Year: 2018 Journal: Iranian Journal of Medical Physics Volume/Issue/Page: 15 (Special Issue-12th Iranian Congress …) Investigating the cytotoxicity of folate and 5-aminolevulinic acid-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018
Fatemeh Akbarzadeh’s research interests lie at the intersection of medical physics and oncology, focusing primarily on innovative strategies for cancer treatment. She explores targeted therapy, drug delivery, and photodynamic therapy, leveraging advancements in nanotechnology to enhance therapeutic efficacy. Her work emphasizes the development of nanoparticles, specifically bismuth oxide nanoparticles, for targeted drug delivery systems, aiming to improve the precision and effectiveness of cancer therapies while minimizing side effects. Additionally, her research encompasses radiation therapy, radiobiology, imaging, and dosimetry, contributing to a comprehensive understanding of how these modalities can be optimized for better patient outcomes. Fatemeh is particularly interested in the interplay between novel therapeutic agents and established treatment methods, seeking to create synergistic approaches that harness the strengths of both to combat cancer more effectively. Her commitment to advancing cancer diagnosis and treatment through rigorous scientific inquiry positions her as a significant contributor to the field of medical physics. Research Skills Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition Fatemeh Akbarzadeh has garnered significant recognition for her innovative contributions to the field of medical physics, particularly in cancer treatment. With multiple publications in reputable journals, her research focuses on targeted therapy and nanotechnology, showcasing her commitment to advancing oncological therapies. Notably, she holds a patent for the synthesis of bismuth oxide nanoparticles, enhancing photodynamic therapy efficacy. Her academic excellence is reflected in her impressive GPA during her Master’s studies, affirming her strong foundation in the field. Additionally, she has actively participated in various international conferences, presenting her findings and fostering collaborations within the scientific community. Akbarzadeh’s role as a Medical Physicist in prominent hospitals further underscores her practical expertise and dedication to applying research findings in clinical settings. Her continuous pursuit of knowledge and innovation positions her as a leading figure in medical physics, making her a deserving candidate for awards and recognitions in her field. Conclusion Fatemeh Akbarzadeh is a commendable candidate for the Best Researcher Award, given her strong educational background, significant contributions to cancer treatment research, and practical experience as a Medical Physicist. Her innovative approaches in utilizing nanotechnology for drug delivery and photodynamic therapy position her as a promising researcher in her field. By addressing areas for improvement, particularly in collaboration and publication strategies, she can further enhance her research impact and recognition. Her dedication to advancing cancer treatment through rigorous scientific inquiry makes her a valuable asset to the medical physics community. Publication Top Notes In vitro outlook of gold nanoparticles in photo-thermal therapy: a literature review Authors: H. Norouzi, K. Khoshgard, F. Akbarzadeh Year: 2018 Journal: Lasers in Medical Science Volume/Issue/Page: 33, 917-926 Citations: 126 Investigating the cytotoxicity of folate-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018 Journal: Advanced Pharmaceutical Bulletin Volume/Issue/Page: 8(4), 627 Citations: 25 Evaluating the photodynamic therapy efficacy using 5-aminolevulinic acid and folic acid-conjugated bismuth oxide nanoparticles on human nasopharyngeal carcinoma cell line Authors: F. Akbarzadeh, K. Khoshgard, E. Arkan, L. Hosseinzadeh, … Year: 2018 Journal: Artificial Cells, Nanomedicine, and Biotechnology Volume/Issue/Page: 46(sup3), S514-S523 Citations: 19 Ratiometric bioassay and visualization of dopamine β-hydroxylase in brain cells utilizing a nanohybrid fluorescence probe Authors: N. Amin, A. Afkhami, L. Hosseinzadeh, F. Akbarzadeh, T. Madrakian, … Year: 2020 Journal: Analytica Chimica Acta Volume/Issue/Page: 1105, 187-196 Citations: 10 Enhancement of the effect of novel targeted 5-aminolevulinic acid conjugated bismuth oxide nanoparticles-based photodynamic therapy by simultaneous radiotherapy on KB cells Authors: F. Akbarzadeh, K. Khoshgard Year: 2024 Journal: Photodiagnosis and Photodynamic Therapy Volume/Issue/Page: 46, 104025 Citations: 2 Cytotoxicity of 5-ALA-conjugated bismuth oxide nanoparticles on KB cell line Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan Year: 2018 Journal: Iranian Journal of Medical Physics Volume/Issue/Page: 15 (Special Issue-12th Iranian Congress …) Investigating the cytotoxicity of folate and 5-aminolevulinic acid-conjugated bismuth oxide nanoparticles on KB and A549 cell lines Authors: F. Akbarzadeh, K. Khoshgard, L. Hosseinzadeh, E. Arkan, D. Rezazadeh Year: 2018
Fatemeh Akbarzadeh possesses a diverse and robust skill set that underpins her research in medical physics and cancer treatment. Her expertise includes cell culture and toxicology assessment, enabling her to conduct in vitro studies effectively. She is proficient in various assays, such as the MTT assay, Caspase-3 assay, and mitochondrial membrane potential assay, allowing her to evaluate cytotoxicity and therapeutic efficacy. Fatemeh’s skills extend to nanoparticle synthesis and drug conjugation, crucial for her work on targeted therapies and photodynamic treatment strategies. Additionally, she is adept at utilizing advanced software tools, including ImageJ, Prism, and SPSS, for data analysis and interpretation. Her experience with treatment planning systems (Monaco, PCRT-3D) and dosimetry further enhances her capability to contribute to radiotherapy advancements. Overall, Fatemeh’s comprehensive skill set not only supports her research endeavors but also positions her as a valuable contributor to the field of oncology and medical physics. Award and Recognition
Asefnejad | Biomedical Engineering | Best Researcher Award Posted on 12/09/202412/09/2024 by ScienceFather Assist Prof Dr. Azadeh Asefnejad | Biomedical Engineering | Best Researcher Award Assistant professor at Science and Research branch of Azad University, Iran Dr. Azadeh Asefnejad is an accomplished Assistant Professor in the Department of Biomedical Engineering at Islamic Azad University, Tehran. She holds a Ph.D. in Biomedical Engineering with a focus on biomaterials and has an extensive background in tissue engineering, nanomedicine, and biomaterials design. Dr. Asefnejad has served as the Director of the Biomaterials Engineering Department and led the Biomaterials and Tissue Engineering Group. She has been recognized as the top researcher in medical sciences at her university and has delivered keynote speeches at international conferences. Her editorial roles and contributions to journals underscore her influence in the field. With a robust teaching portfolio spanning graduate courses in biomaterials and nanotechnology, Dr. Asefnejad’s expertise and leadership in biomedical engineering are well-established, reflecting her significant impact on research and education. Profile Google Scholar Profile Education Dr. Azadeh Asefnejad holds a distinguished educational background in Biomedical Engineering. She completed her Ph.D. in Biomedical Engineering with a focus on Biomaterials at Islamic Azad University, Science & Research Branch, Tehran, between 2005 and 2010. Her doctoral research centered on the fabrication of biodegradable polyurethane-calcium phosphate composite scaffolds, highlighting her expertise in advanced biomaterials. Prior to her Ph.D., she earned her Master of Science degree in Biomedical Engineering, specializing in Biomaterials, from the same institution (2002-2005). Her academic journey began with a Bachelor of Science in Applied Chemistry, also from Islamic Azad University, Central Tehran Branch (1998-2002). This robust educational foundation has equipped Dr. Asefnejad with a comprehensive understanding of both chemistry and engineering principles, which she has applied extensively in her research and teaching in the field of biomedical engineering. Professional Experience Dr. Azadeh Asefnejad is an esteemed Assistant Professor in the Department of Biomedical Engineering at Islamic Azad University, Science & Research Branch, Tehran. Her professional experience spans over a decade, including significant leadership roles such as Director of the Biomaterials Engineering Department and Head of the Biomaterials and Tissue Engineering Group. She has also served as the Director of the Biomaterials Engineering Department and led the Biomaterials and Tissue Engineering Group at Azad University. Dr. Asefnejad has been a faculty member since 2012, contributing extensively to her field through teaching, research, and academic service. She has been a member of the editorial board for the Progress in Biomaterials journal and has served as a referee for over 30 national and international journals. Additionally, Dr. Asefnejad is actively involved in the Iran Nanotechnology Initiative Council and has collaborated with notable magazines in her field. Research Interest Dr. Azadeh Asefnejad’s research interests are centered on advancing the field of biomedical engineering through innovative approaches in biomaterials and tissue engineering. Her work focuses on the development and optimization of biomaterials for applications in tissue engineering, with particular emphasis on the design and fabrication of biodegradable scaffolds. She explores cutting-edge areas such as nanomedicine and nanotechnology, investigating the properties and applications of nanomaterials in drug delivery and tissue regeneration. Dr. Asefnejad also conducts research on surface modification techniques to enhance biomaterial functionality and compatibility. Her research extends to the development of controlled drug delivery systems and wound dressing technologies, leveraging her expertise in polymeric biomaterials. Through her interdisciplinary approach, she aims to bridge the gap between advanced material science and practical medical applications, contributing to innovations that improve patient care and treatment outcomes. Research Skills Dr. Azadeh Asefnejad exhibits advanced research skills in the field of biomedical engineering, with a particular focus on biomaterials and tissue engineering. Her expertise encompasses the design, preparation, and surface modification of biomaterials, including biodegradable composites and nanomaterials. Dr. Asefnejad has demonstrated proficiency in nanomedicine and drug delivery systems, emphasizing control release mechanisms and innovative wound dressing solutions. Her research skills are further evidenced by her role as a member of the editorial board of Progress in Biomaterials and her substantial contributions as a referee for numerous national and international journals. Her involvement with the Iran Nanotechnology Initiative Council highlights her engagement with cutting-edge technologies and interdisciplinary approaches. Through her extensive research activities and successful leadership in various biomaterials-related projects, Dr. Asefnejad has established herself as a leading researcher in her field, consistently advancing the frontiers of biomedical engineering. Award and Recognition Dr. Azadeh Asefnejad has garnered notable recognition and awards throughout her career. In 2022, she was honored as the top researcher in the field of medical sciences at Islamic Azad University, reflecting her significant contributions to the discipline. Dr. Asefnejad’s prominence is further evidenced by her roles as an invited keynote speaker at several international conferences, showcasing her expertise and influence in biomedical engineering. She has also been a key member of the editorial board for the Progress in Biomaterials journal and has served as a referee for over 30 national and international journals, underlining her peer recognition and engagement. Additionally, her leadership roles, including heading the Biomaterials Engineering Department and the Biomaterials and Tissue Engineering Group, demonstrate her impactful contributions to her field. These accolades highlight Dr. Asefnejad’s distinguished career and her commitment to advancing biomedical research and education. Conclusion Dr. Azadeh Asefnejad is a strong candidate for the Research for Best Scholar Award, given her extensive expertise in biomedical engineering, significant research contributions, leadership roles, and recognition in her field. To further strengthen her candidacy, she could focus on enhancing the visibility of her research impact through high-impact publications and securing additional research funding. Overall, her impressive academic background, research achievements, and professional contributions make her a commendable nominee for this prestigious award. Publications Top Notes Title: Manufacturing of Biodegradable Polyurethane Scaffolds Based on Polycaprolactone Using a Phase Separation Method: Physical Properties and In Vitro Assay Authors: Asefnejad, A., Khorasani, M.T., Behnamghader, A., Farsadzadeh, B., … Year: 2011 Citations: 231 Title: Wound Healing with Alginate/Chitosan Hydrogel Containing Hesperidin in Rat Model Authors: Bagher, Z., Ehterami, A., Safdel, M.H., Khastar, H., Semiari, H., Asefnejad, A., … Year: 2020 Citations: 193 Title: Potential of Novel Electrospun Core-Shell Structured Polyurethane/Starch (Hyaluronic Acid) Nanofibers for Skin Tissue Engineering: In Vitro and In Vivo Evaluation Authors: Movahedi, M., Asefnejad, A., Rafienia, M., Khorasani, M.T. Year: 2020 Citations: 173 Title: The Relationship Between Cellular Adhesion and Surface Roughness in Polystyrene Modified by Microwave Plasma Radiation Authors: Biazar, E., Heidari, M., Asefnezhad, A., Montazeri, N. Year: 2011 Citations: 110 Title: Fabrication of Shapeless Scaffolds Reinforced with Baghdadite-Magnetite Nanoparticles Using a 3D Printer and Freeze-Drying Technique Authors: Karimi, M., Asefnejad, A., Aflaki, D., Surendar, A., Baharifar, H., … Year: 2021 Citations: 93 Title: Fabrication of Tragacanthin Gum-Carboxymethyl Chitosan Bio-Nanocomposite Wound Dressing with Silver-Titanium Nanoparticles Using Freeze-Drying Method Authors: Liang, H., Mirinejad, M.S., Asefnejad, A., Baharifar, H., Li, X., … Year: 2022 Citations: 91 Title: Polyurethane/Fluor-Hydroxyapatite Nanocomposite Scaffolds for Bone Tissue Engineering. Part I: Morphological, Physical, and Mechanical Characterization Authors: Asefnejad, A., Behnamghader, A., Khorasani, M.T., Farsadzadeh, B. Year: 2011 Citations: 81 Title: Preparation of Superabsorbent Eco-Friendly Semi-Interpenetrating Network Based on Cross-Linked Poly Acrylic Acid/Xanthan Gum/Graphene Oxide (PAA/XG/GO): Characterization and … Authors: Hosseini, S.M., Shahrousvand, M., Shojaei, S., Khonakdar, H.A., Asefnejad, A., … Year: 2020 Citations: 75
Dr. Azadeh Asefnejad is an accomplished Assistant Professor in the Department of Biomedical Engineering at Islamic Azad University, Tehran. She holds a Ph.D. in Biomedical Engineering with a focus on biomaterials and has an extensive background in tissue engineering, nanomedicine, and biomaterials design. Dr. Asefnejad has served as the Director of the Biomaterials Engineering Department and led the Biomaterials and Tissue Engineering Group. She has been recognized as the top researcher in medical sciences at her university and has delivered keynote speeches at international conferences. Her editorial roles and contributions to journals underscore her influence in the field. With a robust teaching portfolio spanning graduate courses in biomaterials and nanotechnology, Dr. Asefnejad’s expertise and leadership in biomedical engineering are well-established, reflecting her significant impact on research and education. Profile Google Scholar Profile Education Dr. Azadeh Asefnejad holds a distinguished educational background in Biomedical Engineering. She completed her Ph.D. in Biomedical Engineering with a focus on Biomaterials at Islamic Azad University, Science & Research Branch, Tehran, between 2005 and 2010. Her doctoral research centered on the fabrication of biodegradable polyurethane-calcium phosphate composite scaffolds, highlighting her expertise in advanced biomaterials. Prior to her Ph.D., she earned her Master of Science degree in Biomedical Engineering, specializing in Biomaterials, from the same institution (2002-2005). Her academic journey began with a Bachelor of Science in Applied Chemistry, also from Islamic Azad University, Central Tehran Branch (1998-2002). This robust educational foundation has equipped Dr. Asefnejad with a comprehensive understanding of both chemistry and engineering principles, which she has applied extensively in her research and teaching in the field of biomedical engineering. Professional Experience Dr. Azadeh Asefnejad is an esteemed Assistant Professor in the Department of Biomedical Engineering at Islamic Azad University, Science & Research Branch, Tehran. Her professional experience spans over a decade, including significant leadership roles such as Director of the Biomaterials Engineering Department and Head of the Biomaterials and Tissue Engineering Group. She has also served as the Director of the Biomaterials Engineering Department and led the Biomaterials and Tissue Engineering Group at Azad University. Dr. Asefnejad has been a faculty member since 2012, contributing extensively to her field through teaching, research, and academic service. She has been a member of the editorial board for the Progress in Biomaterials journal and has served as a referee for over 30 national and international journals. Additionally, Dr. Asefnejad is actively involved in the Iran Nanotechnology Initiative Council and has collaborated with notable magazines in her field. Research Interest Dr. Azadeh Asefnejad’s research interests are centered on advancing the field of biomedical engineering through innovative approaches in biomaterials and tissue engineering. Her work focuses on the development and optimization of biomaterials for applications in tissue engineering, with particular emphasis on the design and fabrication of biodegradable scaffolds. She explores cutting-edge areas such as nanomedicine and nanotechnology, investigating the properties and applications of nanomaterials in drug delivery and tissue regeneration. Dr. Asefnejad also conducts research on surface modification techniques to enhance biomaterial functionality and compatibility. Her research extends to the development of controlled drug delivery systems and wound dressing technologies, leveraging her expertise in polymeric biomaterials. Through her interdisciplinary approach, she aims to bridge the gap between advanced material science and practical medical applications, contributing to innovations that improve patient care and treatment outcomes. Research Skills Dr. Azadeh Asefnejad exhibits advanced research skills in the field of biomedical engineering, with a particular focus on biomaterials and tissue engineering. Her expertise encompasses the design, preparation, and surface modification of biomaterials, including biodegradable composites and nanomaterials. Dr. Asefnejad has demonstrated proficiency in nanomedicine and drug delivery systems, emphasizing control release mechanisms and innovative wound dressing solutions. Her research skills are further evidenced by her role as a member of the editorial board of Progress in Biomaterials and her substantial contributions as a referee for numerous national and international journals. Her involvement with the Iran Nanotechnology Initiative Council highlights her engagement with cutting-edge technologies and interdisciplinary approaches. Through her extensive research activities and successful leadership in various biomaterials-related projects, Dr. Asefnejad has established herself as a leading researcher in her field, consistently advancing the frontiers of biomedical engineering. Award and Recognition Dr. Azadeh Asefnejad has garnered notable recognition and awards throughout her career. In 2022, she was honored as the top researcher in the field of medical sciences at Islamic Azad University, reflecting her significant contributions to the discipline. Dr. Asefnejad’s prominence is further evidenced by her roles as an invited keynote speaker at several international conferences, showcasing her expertise and influence in biomedical engineering. She has also been a key member of the editorial board for the Progress in Biomaterials journal and has served as a referee for over 30 national and international journals, underlining her peer recognition and engagement. Additionally, her leadership roles, including heading the Biomaterials Engineering Department and the Biomaterials and Tissue Engineering Group, demonstrate her impactful contributions to her field. These accolades highlight Dr. Asefnejad’s distinguished career and her commitment to advancing biomedical research and education. Conclusion Dr. Azadeh Asefnejad is a strong candidate for the Research for Best Scholar Award, given her extensive expertise in biomedical engineering, significant research contributions, leadership roles, and recognition in her field. To further strengthen her candidacy, she could focus on enhancing the visibility of her research impact through high-impact publications and securing additional research funding. Overall, her impressive academic background, research achievements, and professional contributions make her a commendable nominee for this prestigious award. Publications Top Notes Title: Manufacturing of Biodegradable Polyurethane Scaffolds Based on Polycaprolactone Using a Phase Separation Method: Physical Properties and In Vitro Assay Authors: Asefnejad, A., Khorasani, M.T., Behnamghader, A., Farsadzadeh, B., … Year: 2011 Citations: 231 Title: Wound Healing with Alginate/Chitosan Hydrogel Containing Hesperidin in Rat Model Authors: Bagher, Z., Ehterami, A., Safdel, M.H., Khastar, H., Semiari, H., Asefnejad, A., … Year: 2020 Citations: 193 Title: Potential of Novel Electrospun Core-Shell Structured Polyurethane/Starch (Hyaluronic Acid) Nanofibers for Skin Tissue Engineering: In Vitro and In Vivo Evaluation Authors: Movahedi, M., Asefnejad, A., Rafienia, M., Khorasani, M.T. Year: 2020 Citations: 173 Title: The Relationship Between Cellular Adhesion and Surface Roughness in Polystyrene Modified by Microwave Plasma Radiation Authors: Biazar, E., Heidari, M., Asefnezhad, A., Montazeri, N. Year: 2011 Citations: 110 Title: Fabrication of Shapeless Scaffolds Reinforced with Baghdadite-Magnetite Nanoparticles Using a 3D Printer and Freeze-Drying Technique Authors: Karimi, M., Asefnejad, A., Aflaki, D., Surendar, A., Baharifar, H., … Year: 2021 Citations: 93 Title: Fabrication of Tragacanthin Gum-Carboxymethyl Chitosan Bio-Nanocomposite Wound Dressing with Silver-Titanium Nanoparticles Using Freeze-Drying Method Authors: Liang, H., Mirinejad, M.S., Asefnejad, A., Baharifar, H., Li, X., … Year: 2022 Citations: 91 Title: Polyurethane/Fluor-Hydroxyapatite Nanocomposite Scaffolds for Bone Tissue Engineering. Part I: Morphological, Physical, and Mechanical Characterization Authors: Asefnejad, A., Behnamghader, A., Khorasani, M.T., Farsadzadeh, B. Year: 2011 Citations: 81 Title: Preparation of Superabsorbent Eco-Friendly Semi-Interpenetrating Network Based on Cross-Linked Poly Acrylic Acid/Xanthan Gum/Graphene Oxide (PAA/XG/GO): Characterization and … Authors: Hosseini, S.M., Shahrousvand, M., Shojaei, S., Khonakdar, H.A., Asefnejad, A., … Year: 2020 Citations: 75