Mrs. Joice Margareth de Almeida Rodolpho | Molecular Neuroscience | Best Researcher Award

Mrs. Joice Margareth de Almeida Rodolpho, Universidade Federal de São Carlos, Brazil.

Joice Margareth de Almeida Rodolpho is a dedicated Brazilian researcher with a strong foundation in biotechnology, parasitology, immunology, and molecular biology. She earned her Master’s and Ph.D. from the Federal University of São Carlos (UFSCar), where she explored the role of eosinophils as antigen-presenting cells in parasitic infections like Toxocara canis and Schistosoma mansoni. Her work is recognized for integrating experimental immunology with therapeutic innovations, such as the evaluation of natural plant extracts and nanomaterials for infection control. She further specialized in Flow Cytometry and Oncohematology, enhancing her analytical capabilities. With multiple awards and citations, her impactful contributions continue to strengthen Brazil’s standing in parasitological and immunological research.

Profile

Orcid

🎓 Early Academic Pursuits

Joice Margareth de Almeida Rodolpho began her academic journey in Brazil, developing a strong foundation in the life sciences. Her early interest in molecular biology and parasitology led her to pursue advanced studies at the esteemed Universidade Federal de São Carlos (UFSCar). She earned her Master’s degree in Biotechnology between 2009 and 2012, conducting significant research on Toxocara canis, particularly on the phenotypic characterization of eosinophils as antigen-presenting cells. This early work not only revealed her meticulous scientific inquiry but also laid the groundwork for her deeper exploration into immunology.

🧬 Professional Endeavors in Molecular and Evolutionary Genetics

Driven by a passion for understanding immune responses, Joice pursued a Ph.D. in Evolutionary Genetics and Molecular Biology at UFSCar from 2013 to 2017. Her doctoral research focused on the role of eosinophils as antigen-presenting cells both in vitro and ex vivo, offering vital insights into host-parasite interactions and immune regulation. Her work during this period was supported by a prestigious FAPESP scholarship, demonstrating her academic excellence and the relevance of her contributions. Under the mentorship of Professor Fernanda de Freitas Anibal, Joice refined her skills in experimental immunology and cellular biology.

🧪 Contributions and Research Focus in Parasitology and Immunopathology

Joice Rodolpho’s primary research interests lie at the intersection of parasitology, cellular immunology, and experimental pathology. Her studies explore how parasitic infections, such as those caused by Schistosoma mansoni and Toxocara canis, affect immune cell function, especially eosinophils. She has also contributed to investigations into natural plant extracts, like Mentha piperita L., assessing their therapeutic potential in modulating parasitic infections. Moreover, she extended her expertise to the field of nanomaterials, evaluating the cytotoxicity and cell death mechanisms induced by compounds like Ag₂WO₄, thus bridging classical parasitology with emerging biomedical technologies.

🏅 Accolades and Recognition in Scientific Circles

Throughout her career, Joice has received several recognitions that reflect the impact and originality of her research. In 2010, she was honored with a Menção Honrosa (Honorable Mention) for her work on Mentha piperita L. in treating Schistosoma mansoni, earning 2nd place in diagnostics and treatment. She continued to gain academic acclaim with awards at major conferences, including the VI Congresso da Sociedade Paulista de Parasitologia (2012) and the XXII B-MRS Meeting in 2024, highlighting her work on cytotoxic responses and innovative parasitological control methods. In 2024, her project on the parasitological and pathological evaluation of AW-HRL-C for schistosomiasis control was notably recognized by UNIFESP.

🧠 Impact and Influence in Experimental Immunology

Joice’s dedication to experimental immunology and cytometry has allowed her to mentor and influence upcoming researchers, especially in specialized fields such as flow cytometry. Her recent specialization in Immunology and Oncohematology by Flow Cytometry (2021–2022) at IPESSP further enriched her profile, showcasing her commitment to continuous learning and application of advanced technologies in immune profiling. Her ability to merge classical immunopathology with state-of-the-art cytometric tools reflects her versatility and forward-thinking scientific approach.

🌱 Legacy and Future Contributions in Biomedical Science

Poised to make lasting contributions, Joice Margareth de Almeida Rodolpho stands at the forefront of research into host-pathogen interactions, parasitic disease management, and immune cell function modulation. Her unique interdisciplinary approach—integrating molecular biology, natural product pharmacology, and immunological techniques—positions her as a valuable contributor to both academic research and potential therapeutic advancements. She is expected to lead innovative research in the treatment of neglected tropical diseases and immunological disorders, with implications for global health.

🔬 Research Field Relevance and Scientific Identity

As a scholar deeply embedded in the Brazilian scientific ecosystem, Joice’s identity is reflected in her multiple citation forms, indicating her widespread academic collaborations and international visibility. Her expertise bridges evolutionary genetics, biotechnology, cytometry, and immunoparasitology—making her a multifaceted researcher. Her contributions are cited under various names such as “RODOLPHO, JOICE M. A.” and “Joice Margareth de Almeida Rodolpho,” reflecting a robust presence in scholarly literature and ensuring her work continues to guide parasitological and immunological research for years to come.

Publication

• Title: Biomarkers and Mental Disorders: A Relevance Analysis Using a Random Forest Algorithm
  Authors: Joice M. A. Rodolpho; Krissia F. Godoy; Bruna D. L. Fragelli; Jaqueline Bianchi; et al.
  Year: 2025

 

• Title: Death Risk Score Model of Hospitalized COVID‐19 Patients: A Cohort Study
  Authors: Gustavo A. Cruz; Thais B. Boteon; Henrique Pott; Joice M. A. Rodolpho; et al.
  Year: 2025

 

• Title: Synergistic Antifungal Effect and In Vivo Toxicity of a Monoterpene Isoespintanol Obtained from Oxandra xylopioides Diels
  Authors: Orfa I. C. Martínez; Alberto Angulo; Joice Rodolpho; Krissia F. Godoy; et al.
  Year: 2024

 

• Title: Synergistic Antifungal Effect and In Vivo Toxicity of the Monoterpene Isoespintanol Obtained from Oxandra xylopioides Diels (Preprint)
  Authors: Orfa I. C. Martínez; Alberto Angulo; Joice M. A. Rodolpho; et al.
  Year: 2024

 

• Title: Carbon Black CB-EDA Nanoparticles in Macrophages: Changes in the Oxidative Stress Pathway and in Apoptosis Signaling
  Authors: Joice M. A. Rodolpho; Krissia F. Godoy; Bruna D. L. Fragelli; et al.
  Year: 2023

 

• Title: HGPRT and PNP: Recombinant Enzymes from Schistosoma mansoni and Their Role in Immunotherapy during Experimental Murine Schistosomiasis
  Authors: Bruna D. L. Fragelli; Ana C. Fattori; Joice M. A. Rodolpho; et al.
  Year: 2023

 

• Title: Titanium Dioxide Nanoparticle (TiO2 NP) Induces Toxic Effects on LA-9 Mouse Fibroblast Cell Line
  Authors: Ana C. M. Fattori; Patricia Brassolatti; Joice M. A. Rodolpho; et al.
  Year: 2023

 

• Title: Analysis of Cytotoxicity and Genotoxicity in a Short-Term Dependent Manner Induced by a New Titanium Dioxide Nanoparticle in Murine Fibroblast Cells
  Authors: Pedrino, M.; Brassolatti, P.; Joice M. A. Rodolpho; et al.
  Year: 2022

 

• Title: Functionalized Titanium Nanoparticles Induce Oxidative Stress and Cell Death in Human Skin Cells
  Authors: Brassolatti, P.; Joice M. A. Rodolpho; Krissia F. Godoy; et al.
  Year: 2022

 

• Title: Toxicological Effects of the Mixed Iron Oxide Nanoparticle (Fe₃O₄ NP) on Murine Fibroblasts LA-9
  Authors: Alves Feitosa, K.; Joice M. A. Rodolpho; et al.
  Year: 2022

 

🧾 Conclusion

Joice Rodolpho’s academic journey and scientific contributions reveal a researcher of high caliber, committed to advancing our understanding of host-pathogen dynamics and immune system function. Her work, grounded in rigorous experimentation and innovation, holds promise for developing novel therapies for neglected tropical diseases. With a forward-looking approach and interdisciplinary expertise, she stands out as a key contributor in biomedical science, poised to influence future discoveries in immunopathology and disease control.