Prof Dr. TatianaTilli – Oncology and Precision Medicine – Women Researcher Award

Prof Dr. TatianaTilli - Oncology and Precision Medicine - Women Researcher Award

Oswaldo Cruz Foundation - Brazil

AUTHOR PROFILE

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EARLY ACADEMIC PURSUITS

Tatiana Martins Tilli pursued her Doctorate in Medicine from the Instituto Nacional de CĆ¢ncer (INCA) in Rio De Janeiro, Brazil. Her research focused on the functional characterization of splicing variant isoforms of osteopontin in ovarian and prostate carcinomas. This research was conducted under the guidance of Dr. Etel Rodrigues Pereira Gimba and Dr. Akeila BellahcĆØne at the UniversitĆ© de LiĆØge during her Sandwich Doctorate. The study highlighted the significance of osteopontin as a molecular marker in ovarian and prostate cancers, emphasizing the role of splicing isoforms.Prior to her doctorate, Dr. Tilli completed her Master's in Medicine at INCA. Her research focused on autoantibodies against osteopontin as potential serum markers in neoplasms. This research further underscored the importance of osteopontin as a molecular marker in oncology and provided insights into its immunological aspects.

PROFESSIONAL ENDEAVORS

After completing her doctorate, Dr. Tilli pursued her postdoctoral research at the University of Alberta in Edmonton, Canada. Her postdoctoral work encompassed areas such as Systems Biology, Cellular Biology, and Molecular Biophysics. This period allowed her to expand her research expertise and collaborate with international experts in her field.Currently, Dr. Tilli serves as a public servant in a full-time and exclusive capacity, dedicating 40 hours weekly as a researcher. Her role involves conducting research in the domain of human health, building on her extensive academic background and professional experience.

CONTRIBUTIONS AND RESEARCH FOCUS ON ONCOLOGY AND PRECISION MEDICINE

Dr. Tilli's research has primarily revolved around osteopontin, a molecule of significant interest in oncology. Her studies have explored the functional characterization of splicing variant isoforms of osteopontin and the potential of autoantibodies against osteopontin as serum markers in neoplasms. These research endeavors have contributed significantly to the understanding of molecular markers in ovarian and prostate cancers.

IMPACT AND INFLUENCE

Dr. Tilli's work has had a substantial impact on the field of oncology, particularly in the identification and characterization of molecular markers in ovarian and prostate cancers. Her research findings have been influential in shaping the current understanding of osteopontin's role in cancer biology and its potential applications in diagnostic and therapeutic strategies.

LEGACY AND FUTURE CONTRIBUTIONS

Dr. Tatiana Martins Tilli has established herself as a leading researcher in the field of oncology, with a focus on molecular markers, particularly osteopontin. Her legacy lies in her significant contributions to understanding the role of osteopontin in ovarian and prostate cancers.In the future, Dr. Tilli is expected to continue her groundbreaking research, further exploring the potential applications of osteopontin and its variants in cancer diagnosis, prognosis, and targeted therapy. Her continued dedication to advancing the field of oncology promises to yield further impactful contributions to human health.

NOTABLE PUBLICATIONS

Unlocking Overexpressed Membrane Proteins to Guide Breast Cancer Precision Medicine. 2024

Aptamer-Based Recognition of Breast Tumor Cells: A New Era for Breast Cancer Diagnosis. 2024

Biotechnological Evolution of siRNA Molecules: From Bench Tool to the Refined Drug. 2022

Precision Medicine: Technological Impact into Breast Cancer Diagnosis, Treatment and Decision Making. 2021

Epidermal growth factor receptor regulates fibrinolytic pathway elements in cervical cancer: functional and prognostic implications. 2021

Biomedical Advancements in Cancer

Biomedical Advancements in Cancer

 

Introduction: In recent years, the field of biomedical advancements in cancer research has witnessed remarkable breakthroughs that have transformed our understanding of the disease and revolutionized treatment options. These advancements offer new hope to patients and hold the promise of improved outcomes in the fight against cancer.

Subtopics in Biomedical Advancements in Cancer:

Immunotherapy and Immune Checkpoint Inhibitors: Immune checkpoint inhibitors have emerged as a game-changer in cancer treatment, leveraging the body’s immune system to target and eliminate cancer cells. CAR-T cell therapy, PD-1 inhibitors, and CTLA-4 inhibitors are some of the key developments in this area.

Precision Medicine and Genomic Profiling: Advancements in genomic sequencing technologies have paved the way for precision medicine in cancer treatment. Tailoring therapies based on the genetic makeup of a patient’s tumor has improved treatment efficacy and reduced side effects.

Liquid Biopsies for Early Detection: Liquid biopsies involve the non-invasive analysis of blood or other bodily fluids to detect cancer-related genetic mutations and biomarkers. These tests offer early detection capabilities and real-time monitoring of cancer progression.

Targeted Therapies and Personalized Cancer Drugs: Targeted therapies are designed to specifically inhibit the molecular pathways driving cancer growth. Advances in drug development have led to a wide range of targeted treatments, enhancing the effectiveness of cancer therapy while minimizing collateral damage to healthy cells.

AI and Machine Learning in Cancer Diagnosis and Treatment: Artificial intelligence and machine learning algorithms are being employed to analyze vast datasets of medical information, aiding in early cancer diagnosis, treatment planning, and predicting patient outcomes. These technologies have the potential to optimize cancer care and streamline research efforts.

These subtopics represent just a fraction of the exciting developments in the biomedical field related to cancer research. Continued research and innovation in these areas are bringing us closer to more effective treatments, early detection methods, and improved patient outcomes in the battle against cancer.