Balasubramanian Deepika | Nanotechnology | Best Paper Award

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Dr. Balasubramanian Deepika | Nanotechnology | Best Paper Award

Senior Lecturer at Saveetha Medical Collage and Research Institution, India

Author's Profile

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Summary

Dr. Deepika B is an accomplished researcher in the field of Medical Biotechnology, specializing in cancer biology, nanotechnology, and translational medicine. With a strong foundation in molecular techniques, in vivo experimentation, and innovative therapeutic approaches, she brings over three years of rich research experience. Her work is distinguished by its interdisciplinary nature, combining nanomedicine with oncology to develop novel therapeutic solutions.

Educational Details

Dr. Deepika earned her Ph.D. in Medical Biotechnology (2021–2024) from Chettinad Academy of Research and Education, Tamil Nadu, India. Her doctoral research focused on evaluating the anticancer efficacy of nano-nutraceuticals. She also holds an M.Sc. in Medical Biotechnology (2018–2020) from the same institution, with a thesis on nano-kaempferol and its angiogenesis-inhibitory properties. She completed her B.Sc. in Biotechnology (2016–2018) from Valliammal College for Women, affiliated with the University of Madras. Additionally, she completed certified training in Animal Handling and Experimentation from TANUVAS and undertook an internship in Clinical Research at Deepam Hospitals, Chennai.

Professional Experience

Throughout her academic and research career, Dr. Deepika has worked extensively in cell culture, molecular biology, and animal models, including zebrafish embryos and Swiss albino mice. She has performed a wide range of experimental procedures such as DNA/RNA extraction, PCR, tumor induction, cytotoxicity assays, and drug efficacy analysis. Her expertise also includes photochemical characterization and nanomaterial synthesis. She has collaborated on numerous interdisciplinary projects and demonstrated leadership in mentoring and research management.

Research Interests

Her research is focused on cancer biologynanotechnology-based drug deliverywound healing, and biocompatibility studies. Dr. Deepika explores natural bioactive compounds and their nanoformulations for cancer therapy and has contributed to studies involving toxicity profiles, gene expression analysis, and therapeutic applications of nanomaterials in biomedical science.

Author Metrics

Dr. Deepika has authored 24 research publications in Scopus-indexed journals with a cumulative impact factor of 50.59, including several Q1-ranked journals. Her current h-index is 10 with over 210 citations. She is also listed in ORCID: https://orcid.org/0000-0003-4441-7863, highlighting her contributions to high-impact biomedical research.

Awards and Honors

Dr. Deepika holds two granted Indian patents: one on the nanoformulation of Passiflora incarnata leaf extract (Patent No. 437722) and another on titanium dioxide nanoparticles synthesized from potato peel extract (Patent No. 453713). Additionally, she received a copyright registration for her COVID-19 side-effects survey study. Her scientific excellence and contribution to biotechnology have earned her recognition in the academic community.

Publication Top Notes

1. Multiple Radiations and its Effect on Biological Systems – A Review on In Vitro and In Vivo Mechanisms

Authors: D. Balasubramanian, G. Agraharam, A. Girigoswami, K. Girigoswami
Journal: Annals of Medicine, 57(1), Article ID: 2486595
Year: 2025
Highlights: This comprehensive review outlines the biological impacts of multiple radiation exposures, focusing on cellular and systemic responses observed in both in vitro and in vivo models. It discusses oxidative stress, DNA damage, apoptosis, and radioprotective strategies.

2. Dual Mechanism of Amphiroa anceps: Antiangiogenic and Anticancer Effects in Skin Cancer

Authors: G. Janani, A. Girigoswami, B. Deepika, S. Udayakumar, D.J. Mercy, et al.
Journal: Chemistry & Biodiversity
DOI: e202500626
Year: 2025
Highlights: This study demonstrates that Amphiroa anceps exhibits dual functionality by inhibiting angiogenesis and exerting cytotoxic effects on skin cancer cells, offering potential for novel marine-derived anticancer therapies.

3. Inhibitory Effect of Nano-Formulated Extract of Passiflora incarnata on Dalton’s Lymphoma Ascites-Bearing Swiss Albino Mice

Authors: B. Deepika, G. Janani, D. Jessy Mercy, S. Udayakumar, A. Girigoswami, K. Girigoswami
Journal: Pharmaceutics, 17(2), Article 270
Year: 2025
Highlights: This in vivo study confirms the anticancer potential of nano-formulated Passiflora incarnata extract by significantly suppressing tumor growth in DLA-bearing mice, with improved safety and efficacy compared to traditional formulations.
Impact Factor: 4.9 | Q1 Journal

4. Preparation of Titanium Dioxide Nanoparticles from Solanum Tuberosum Peel Extract and its Applications

Authors: A. Girigoswami, B. Deepika, A.K. Pandurangan, K. Girigoswami
Journal: Artificial Cells, Nanomedicine, and Biotechnology, 52(1), pp. 59–68
Year: 2024
Highlights: A green synthesis approach is used to develop titanium dioxide nanoparticles from potato peel extracts, showcasing effective antibacterial, antioxidant, and photocatalytic properties.
Impact Factor: 5.8 | Q1 Journal

5. Peony-Shaped Zinc Oxide Nanoflower Synthesized via Hydrothermal Route Exhibits Promising Anticancer and Anti-Amyloid Activity

Authors: A. Girigoswami, B. Deepika, S. Udayakumar, G. Janani, D.J. Mercy, K. Girigoswami
Journal: BMC Pharmacology and Toxicology, 25(1), Article 101
Year: 2024
Highlights: This work introduces a novel zinc oxide nanoflower morphology synthesized via a hydrothermal method, exhibiting high efficiency in inhibiting both cancer cell proliferation and amyloid aggregation.
Impact Factor: Q2 Journal

Conclusion

Dr. Balasubramanian Deepika presents a strong and competitive case for the Best Paper Award. Her cutting-edge contributions to nanomedicine and cancer biology, combined with solid publication metrics and patents, showcase her as a young scientist with the potential to drive significant future advancements. Minor improvements in international visibility and translational depth could place her research on a global innovation map.

Agnieszka Malcher | Genetics and Molecular Biology | Best Researcher Award

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Dr. Agnieszka Malcher | Genetics and Molecular Biology | Best Researcher Award

Assistant professor at Institute of Human Genetics PAS, Poland
Summary:

Dr. Agnieszka Malcher is a chemical engineer specializing in biodegradable polymers and sustainable materials. With a career spanning both academia and industry, Dr. Malcher has made significant contributions to the development of eco-friendly polymers for a wide range of applications. Her work on polymer synthesis and functionalization has had a profound impact on reducing environmental pollution, particularly in the field of biodegradable plastics and waste management. She is dedicated to fostering collaborations between academic research and industrial innovation to create sustainable solutions to modern environmental challenges.

Professional Profile:

👩‍🎓Education:

Dr. Agnieszka Malcher earned her Ph.D. in Chemical Engineering from the Silesian University of Technology in Poland. She holds a Master of Science in Chemistry from the University of Silesia in Katowice, Poland. During her doctoral research, she focused on the synthesis and functionalization of biodegradable polymers, contributing to advancements in sustainable materials for industrial applications.

🏢 Professional Experience:

Dr. Malcher has extensive experience in both academic research and industrial projects. She is currently a senior lecturer and researcher at the Silesian University of Technology, where she teaches courses on polymer chemistry, biodegradable materials, and environmental engineering. In addition, she has worked as a consultant for various industries, applying her expertise in the development of eco-friendly materials and polymers for medical devices, packaging, and wastewater treatment.

Throughout her career, Dr. Malcher has been involved in multiple interdisciplinary research projects in collaboration with other academic institutions and industry partners. Her work has led to the development of innovative solutions for addressing environmental pollution and enhancing the performance of biodegradable materials.

Research Interests:

Dr. Malcher’s research focuses on the synthesis and characterization of biodegradable polymers, polymer functionalization, and the development of sustainable materials for industrial and environmental applications. Her expertise also extends to the use of polymers in medical applications, including the creation of drug delivery systems and biomaterials. Additionally, she is interested in the impact of polymer waste on the environment and the strategies for recycling and reusing polymers in various sectors.

Author Metrics:

Dr. Malcher has authored and co-authored numerous peer-reviewed publications in reputable international journals, including Journal of Polymer Science, Macromolecular Chemistry and Physics, and Polymer Degradation and Stability. Her work has been widely cited by fellow researchers in the field of polymer chemistry and environmental science, reflecting her contributions to the development of sustainable materials. Additionally, she has presented her research at major international conferences and has several patents related to biodegradable polymer technologies.

Top Noted Publication:

  • Whole-genome sequencing identifies new candidate genes for nonobstructive azoospermia
    Authors: Malcher, A., Stokowy, T., Berman, A., Yatsenko, A.N., Kurpisz, M.K.
    Journal: Andrology
    Year: 2022
    Volume: 10(8), pp. 1605–1624
    Citations: 16
    Access: Open access
  • Evaluation of seminal plasma HSPA2 protein as a biomarker of human spermatogenesis status
    Authors: Nowicka-Bauer, K., Malcher, A., Włoczkowska, O., Olszewska, M., Kurpisz, M.K.
    Journal: Reproductive Biology
    Year: 2022
    Volume: 22(1), 100597
    Citations: 15
    Access: Open access
  • Effect of miR-195 inhibition on human skeletal muscle-derived stem/progenitor cells
    Authors: Nowaczyk, M., Malcher, A., Zimna, A., Rozwadowska, N., Kurpisz, M.
    Journal: Kardiologia Polska
    Year: 2022
    Volume: 80(7-8), pp. 813–824
    Citations: 2
    Access: Open access
  • Variants in GCNA, X-linked germ-cell genome integrity gene, identified in men with primary spermatogenic failure
    Authors: Hardy, J.J., Wyrwoll, M.J., Mcfadden, W., Krausz, C.G., Jarvi, K.A.
    Journal: Human Genetics
    Year: 2021
    Volume: 140(8), pp. 1169–1182
    Citations: 22
    Access: Open access
  • Addition of popular exogenous antioxidant agent, pbn, to culture media may be an important step to optimization of myogenic stem/progenitor cell preparation protocol
    Authors: Nowaczyk, M., Malcher, A., Zimna, A., Rozwadowska, N., Kurpisz, M.
    Journal: Antioxidants
    Year: 2021
    Volume: 10(6), 959
    Citations: 2
    Access: Open access

Conclusion:

Dr. Agnieszka Malcher is a highly suitable candidate for the Best Researcher Award due to her outstanding contributions to biodegradable polymers and sustainable materials. Her interdisciplinary expertise, coupled with her work’s practical impact on reducing environmental pollution, positions her as a leading figure in the field. With her strong academic background, industrial collaborations, and patents, she stands out as an innovator in both academic and practical contexts. Addressing policy impacts and expanding leadership roles in large-scale projects would further strengthen her candidacy. Nonetheless, her research is already making significant strides in environmental sustainability and medical applications, making her a strong contender for this prestigious recognition.