Rana Naseer abdu Hameed
Research InterestsBiology
genetic
Molecular
| Gender | FEMALE |
|---|---|
| Place of Work | Dour Technical Institute |
| Department | Department of Prosthetics |
| Position | No |
| Qualification | Ph.D |
| Speciality | Biology/cytogenetic |
| Rana.naseer@ntu.edu.iq | |
| Phone | 07737342650 |
| Address | Salah al-Din - Tikrit صلاح الدين_تكريت, Tikrit, Sala al-Din, Iraq |
السيره الشخصيه
I am currently a university lecturer at the Technical Institute of Al-Dour, part of the Northern Technical University, where I teach in the Department of Prosthetics and Orthotics. My academic journey is driven by a deep commitment to advancing both scientific knowledge and practical skills in the field of medical technology.
I have authored and co-authored several research papers, including three published in Scopus-indexed journals with impact factors, as well as other internationally recognized studies. In addition, I am actively involved in ongoing research projects currently under review and publication.
Alongside my research work, I co-authored a scientific book on the epidemiology of animal viruses and their role in the COVID-19 pandemic, written in collaboration with a group of colleagues from the institute. I also have extensive experience in various laboratory diagnostic and analytical techniques.
In my current role, I teach first-year students and supervise second-year professional diploma students. I am strongly dedicated to fostering an engaging learning environment that integrates theoretical understanding with hands-on training, in alignment with the latest scientific and technological developments.
Looking ahead, I aim to further develop my research in the fields of cellular genetics and oncology, focusing on the development of pharmaceutical extracts that may prevent genetic or acquired mutations capable of transforming normal cells into abnormal or malignant ones. Through this work, I aspire to contribute to the advancement of preventive strategies in cancer biology and molecular medicine.
Skills
مهارات قيادة أكاديمية (75%)
Writting book entitled (100%)
مهارات الالقاء وعرض الأفكار (80%)
Supervision
دلال احمد خلف الجبوري
Year: 2024Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: In Progress
طالبة مرحلة ثانية تقنيات صيدليه
ذكرى محمود محمد محمود الجبوري
Year: 2024Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: In Progress
طالبة مرحلة ثانية تقنيات صيدليه
رايات عبدالغفورمتعب حسين
Year: 2024Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: In Progress
طالبة مرحلة ثانية تقنيات صيدليه
رحمة عيسى ابراهيم
Year: 2024Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: In Progress
طالبة مرحلة ثانية تقنيات صيدليه
حنان مؤيد يوسف القصاب
Year: 2023Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: Ungraduated
طالبة تقنيات صيدليه المرحله الثانيه
حيدر حازم ادهام حمود
Year: 2023Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: Ungraduated
طالب مرحلة ثانية تقنيات صيدليه
دانيا محمود شكور عبد
Year: 2023Academic Degree: Diploma
Supervisor Type: Supervisor
Supervisor State: In Progress
طالبة مرحلة ثانية تقنيات صيدليه
Academic Qualification
Bachelor’s Degree in Veterinary Medicine
Feb 1, 2026 - PresentMaster’s Degree in Medicine – Department of Medical Physiology
Oct 27, 2014 - PresentPhD in Life Sciences – Specialization: Molecular and Cellular Genetic
Oct 27, 2021 - PresentDoctor of Philosophy (PhD) in Life Sciences, with specialization in Molecular and Cellular Genetics
Publications
Antimicrobial and antibiofilm potential of silver nanoparticles fabricated with Klebsiella variicola against four foodborne pathogens
Jul 22, 2025Journal Microbes and Infectious Diseases
publisher Zagazig University, Faculty of Medicine
Background Foodborne infections are a serious concern to public health, especially because they can create biofilms that increase their resistance to standard antibiotic therapies. Aim the study lies in the development and application of ecofriendly, biogenic silver nanoparticles (Ag-NPs) synthesized using a bacterial strain, Klebsiella variicola, for inhibiting growth of foodborne pathogens and their biofilms. Methods In the current study, the endophytic bacterial strain Klebsiella variicola was used to create ecofriendly silver nanoparticles (Ag-NPs), which were then examined using TEM, XRD, ATR-FTIR, and UV-VIS spectroscopy. The resultant Ag-NPs, which ranged in size from 5-15 nm, showed a distinct spherical crystalline structure. Results The antimicrobial performance of biogenic Ag-NPs was evaluated against four foodborne pathogens (Escherichia coli, Bacillus cereus, Pseudomonas aeruginosa