Research Excellence Award
Anis Chaudhary is an academic researcher affiliated with Imam Mohammad Ibn Saud Islamic University, Saudi Arabia, whose scholarly work in stress physiology and related biomedical sciences reflects growing research visibility through publications, citation impact, and interdisciplinary collaborations within international scientific communities. His contributions span biomedical research areas focused on physiological stress responses, with an emphasis on advancing experimental and clinical understanding through collaborative academic engagement..[1]
Abstract
This article presents an overview of the academic contributions and research profile of Anis Chaudhary in the field of stress physiology and biomedical sciences. The researcher has contributed extensively through scholarly publications, collaborative investigations, and citation-based academic influence within international research communities. Bibliometric indicators including publication volume, citation performance, and h-index demonstrate measurable scientific visibility and sustained engagement with emerging physiological and disease-related research themes. The profile further reflects participation in interdisciplinary scientific activities associated with health sciences, molecular biology, and stress-related biomedical investigations recognized within global academic indexing systems and scholarly evaluation frameworks.
Keywords
Stress Physiology, Biomedical Research, Molecular Biology, Scientific Publications, Citation Analysis, Research Impact, Academic Recognition, Disease Research, Physiological Stress, Interdisciplinary Science.
Introduction
Stress physiology represents a significant scientific field examining physiological responses associated with environmental, molecular, and pathological stress mechanisms. Researchers contributing to this discipline support advancements in disease understanding, cellular adaptation studies, and biomedical innovation through experimental and interdisciplinary scientific investigations.
Research Profile
The academic profile of Anis Chaudhary demonstrates sustained scholarly productivity reflected through 204 indexed documents, 9,439 citations, and an h-index of 37 according to Scopus-based metrics. These indicators illustrate substantial research dissemination and continued citation engagement across biomedical and physiological research domains.
Research Contributions
Research contributions associated with Anis Chaudhary include studies connected to physiological stress responses, molecular signaling pathways, disease-related mechanisms, and biomedical analytical approaches. Scholarly activities within these areas contribute to broader scientific understanding regarding health conditions and physiological adaptation processes.[3]
Publications
The publication record includes articles indexed within international scientific databases and journals related to biomedical sciences and physiological research. DOI-indexed publications further support accessibility, citation tracking, and scholarly verification within global academic communication systems.[4]
Research Impact
Citation metrics and publication visibility indicate measurable academic influence within the scientific community. The researcher’s citation performance demonstrates continued scholarly engagement and recognition across interdisciplinary biomedical fields involving physiology, disease mechanisms, and experimental scientific investigations.[1]
Award Suitability
The documented research productivity, citation-based visibility, and interdisciplinary scientific contributions support suitability for recognition within the Global Diseases Research Awards framework. Academic indicators and publication continuity reflect active participation in internationally accessible biomedical research environments.[2]
Conclusion
Anis Chaudhary’s scholarly profile reflects sustained contributions to stress physiology and biomedical sciences through publications, citation influence, and international research visibility. The academic record demonstrates measurable scientific engagement supporting recognition within professional and interdisciplinary research evaluation frameworks.
External Links
References
- Elsevier. (n.d.). Scopus author details: Anis Chaudhary, Author ID 55419607600. Scopus.
https://www.scopus.com/authid/detail.uri?authorId=55419607600
- Global Diseases Research Awards. (n.d.). Academic recognition and award evaluation criteria.
https://globaldiseases.org/
- Prakash, J., Chaudhary, A. A., Somvanshi, A., Lal, B., Suman, Rudayni, H. A., Raza, N., Fazil, M., Ahmad, T., Ravi, K., Jasrotia, R., & Jara, A. D. (2026). Highly active Zn-doped cobalt ferrite catalysts for photocatalytic and electrocatalytic hydrogen production. Environmental Sciences Europe, 38, Article 56.
https://doi.org/10.1186/s12302-025-01289-1
- Hamad, A. A., Ali, M. A. M., Chaudhary, A. A., Obaydo, R. H., Saleh, S. F., Ibrahim, A. M. M., Mawkili, W., & Maslamani, N. (2026). Coupling MgSO₄-assisted SALLE with a fluorimetric turn-off strategy for the determination of cinacalcet HCl in pharmaceutical and human matrices. Scientific Reports, 16, Article 13756.
https://doi.org/10.1038/s41598-026-41887-4
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Elmorsy, E. A., Amer, M. M., Hamad, R. S., Abdel-Hamed, M. R., Farrag, A. A., Alorini, M., Khodeir, M. M., Ali, M. A. M., Alhowail, A. H., Mohamed, E. A., Alsalloom, A. A., Alsaykhan, H., Alsoqih, N. S., Ata, H. S., Sameh, A., Chaudhary, A. A., & Saber, S. (2026). Breaking a mitochondrial danger–STING feed-forward amplifier preserves alveolar-capillary architecture and dampens interferon-chemokine signaling in acute lung injury. Tissue and Cell.
https://doi.org/10.1016/j.tice.2026.103514