Zhou Nan | Epilepsy | Best Researcher Award

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Dr. Zhou Nan | Epilepsy | Best Researcher Award

Huashan Hospital Affiliated to Fudan University | China 

Dr. Zhou Nan is an attending physician in the department of neurosurgery at Huashan Hospital Affiliated to Fudan University. After completing his bachelor’s degree in clinical medicine at Second Military Medical University followed by a combined master’s and doctoral program in neurosurgery at Fudan University under the mentorship of Prof. Mao Ying, he spent time as a visiting scholar at the Brain Bank of the Netherlands Royal Academy of Arts and Sciences Institute of Neuroscience. Upon returning, he joined Huashan Hospital as a resident physician and later advanced to the role of attending physician. His research focuses on surgical treatment of refractory temporal lobe epilepsy, computational modelling of hippocampal circuits, and mesoscale stereotaxic 3D atlases of the mammalian brain, supported by major talent-program and national foundation grants. According to his Google Scholar profile, he has an h-index of [please insert current value] with [please insert document count] publications and [please insert citation count] citations. His work has strengthened the bridge between precision neurosurgery and brain-circuit modelling, earned him recognition in the Chinese and international neurosurgical research community, and positions him as a rising leader whose legacy promises further advances in interventions for drug-resistant epilepsy and neuro-circuit based atlases.

Profile: Scopus 

Featured Publications

Li, J., Cui, Z., Gong, H., Zhang, Y., Yuan, Z., Zhang, Z., Ma, Z., Zhou, N., Huang, C., Zhao, Y., Li, X., Zhang, Z., & Sun, Y. (2025). Sleep deficiency exacerbates periodontal inflammation via trigeminal TRPV1 neurons. Proceedings of the National Academy of Sciences of the United States of America, 122 (24), e2424169122.

Zhiping Guo | Molecular and Cellular Neuroscience | Innovative Research Award

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Dr. Zhiping Guo | Molecular and Cellular Neuroscience | Innovative Research Award

Dr. Zhiping Guo | Taiyuan Central Hospital, Peking University First Hospital Taiyuan Branch | China

Dr. Zhiping Guo, an esteemed Associate Chief Physician and Department Head at the Department of Hematology, Peking University First Hospital Taiyuan Branch (Taiyuan Central Hospital), is widely recognized for his dedicated contributions to the field of hematology. Having completed his postdoctoral research at the Peking University Institute of Hematology under the mentorship of Professor Xiaojun Huang, Dr. Guo has focused extensively on the diagnosis and treatment of hematological diseases, with remarkable advancements in clinical research and therapeutic strategies. He has successfully led multiple grant-funded research projects supported by prestigious provincial and municipal foundations. Dr. Guo has published over twenty peer-reviewed scientific papers in reputed international journals indexed in SCI and Scopus, reflecting his strong research output. His scholarly influence is underscored by an impressive h-index of 12, with more than 480 citations and 28 documented research works available in leading academic databases. As a peer reviewer for several international journals such as Molecular Medicine Reports, International Journal of Molecular Medicine, Experimental and Therapeutic Medicine, World Academy of Sciences Journal, and Oncology Letters, Dr. Guo plays a vital role in advancing global hematology research. A committed member of the EBMT, he continues to integrate innovation, clinical excellence, and academic leadership in his pursuit of improving hematological healthcare.

Profile: Orcid 

Featured Publications 

Zhao, L., Zhang, Y., Guo, X., Li, Z., Lu, W., Pan, Z., Guo, Y., Sun, J., Zhang, Y., Hao, J., et al. (2024). Peripheral blood lymphocyte subsets in factor VIII inhibitor-positive patients with severe hemophilia A: A case-control study. Clinical and Applied Thrombosis/Hemostasis, 30(1).

Guo, Z., Chen, X., Tan, Y., Xu, Z., & Xu, L. (2020). Coagulopathy in cytogenetically and molecularly distinct acute leukemias at diagnosis: Comprehensive study. Blood Cells, Molecules, and Diseases, 81, 102393.

Guo, Z.-P., Tan, Y.-H., Li, J.-L., Xu, Z.-F., Chen, X.-H., & Xu, L.-R. (2018). Acute pro-B-cell lymphoblastic leukemia transformed from myelodysplastic syndrome with an ASXL1 missense mutation: A case report with literature review. Oncology Letters, 15(5), 6895–6901.

Zhu, H.-H., Guo, Z.-P., Jia, J.-S., Jiang, Q., Jiang, H., & Huang, X.-J. (2018). The impact of oral arsenic and all-trans-retinoic acid on coagulopathy in acute promyelocytic leukemia. Leukemia Research, 66, 75–80.

 Guo, Z., Yang, L., Qin, X., Liu, X., & Zhang, Y. (2018). Spectrum of molecular defects in 216 Chinese families with hemophilia A: Identification of noninversion mutation hot spots and 42 novel mutations. Clinical and Applied Thrombosis/Hemostasis, 24(1), 134–141.

Kushal J | Clinical Neuroscience | Best Researcher Award

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Mr. Kushal J | Clinical Neuroscience | Best Researcher Award

Mr. Kushal J |  Acharya and B M Reddy College of Pharmacy | India

Kushal J’s research focuses on pharmaceutical analysis, drug formulation, and healthcare innovation, reflecting a deep interest in bridging traditional and modern approaches to drug development. His work includes the formulation, development, and evaluation of an anti-acne serum using cow’s urine, a study that explores bioactive natural resources for dermatological applications. He has also contributed to analytical chemistry through his project on analytical method development and validation for identifying selected genotoxic impurities in bulk and pharmaceutical dosage forms by the RP-HPLC DAD method, presented at the JSS Pharmanecia International Research Conference. His academic training emphasizes analytical instrumentation, including HPLC, UV-Vis spectrophotometry, and dissolution testing, supported by a strong understanding of Good Laboratory Practices (GLP) and Good Manufacturing Practices (GMP). He has further strengthened his theoretical foundation through certifications in Food Chemistry and Biomedical Research. Kushal’s growing research portfolio highlights his dedication to advancing pharmaceutical quality control, regulatory compliance, and innovation in formulation science. His goal is to apply analytical and formulation expertise toward developing safer, more effective, and sustainable pharmaceutical products, contributing to the evolving fields of pharmaceutical technology, analytical method development, and health informatics.

Profile: Orcid

Featured Publication

Kushal, J., Loganathan, C. G., Rajesh, R., Dutta, S., Paik, A., Dasgupta, A., Reddy, G. N. N., & Suchindar, A. (2025). Recent advances in quinoline derivatives: Biological and medicinal insights. ChemistrySelect.

Calixto Machado | Clinical Neuroscience | Best Researcher Award

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Prof. Dr. Calixto Machado | Clinical Neuroscience | Best Researcher Award

Prof. Dr. Calixto Machado | Institute of Neurology and Neurosurgery | Cuba

Calixto Machado is a Full Professor and Senior Researcher in Neurology and Clinical Neurophysiology at the Institute of Neurology and Neurosurgery in Havana, Cuba, and a Corresponding Fellow of the American Academy of Neurology. He completed his medical degree, followed by specialist training in neurology and clinical neurophysiology, and then earned his PhD. Over four decades he has led pioneering research on disorders of consciousness, brain death, stroke, autism, autonomic nervous system disorders and the neurological sequelae of SARS-CoV-2. He has published nearly 700 peer-reviewed journal articles, book chapters and authored seven books; his work is recognised internationally through numerous symposia and awards. His Google Scholar profile lists an h-index of 37, and over 24 000 citations across his published documents.

Profile: Google Scholar

Featured Publications:

Machado, C. (2025, September 9). Jahi McMath case: A comprehensive and updated narrative. World Journal of Critical Care Medicine, 14(3), 107513.

Machado, C. (2022). The Jahi McMath case: First detailed study of her brain. Neurology India, 70(5), 22–35.

Giacino, J. T., Ashwal, S., Childs, N., Cranford, R., Jennett, B., Katz, D. I., Kelly, J. P., & others. (2002). The minimally conscious state: Definition and diagnostic criteria. Neurology, 58(3), 349–353.

Sloan, M. A., Alexandrov, A. V., Tegeler, C. H., Spencer, M. P., Caplan, L. R., & others. (2004). Assessment: Transcranial Doppler ultrasonography report of the Therapeutics and Technology Assessment Subcommittee of the American Academy of Neurology. Neurology, 62(9), 1468–1481.

Machado, C. (2002). Brain death worldwide: Accepted fact but no global consensus in diagnostic criteria. Neurology.

Machado, C. (2007). Cerebral response to patient’s own name in the vegetative and minimally conscious states. Neurology, 69(7), 708.

Machado, C., Korein, J., Ferrer, Y., Portela, L., & others. (2007). The concept of brain death did not evolve to benefit organ transplants. Journal of Medical Ethics, 33, 197–200.

Machado, C. (2007). The concept of brain death did not evolve to benefit organ transplants. In C. Machado (Ed.), Brain death: A reappraisal (pp. 1–20). Springer.

Machado, C. (2007). Brain death: A reappraisal. Springer Science & Business Media.

Machado, C. (2007). The first organ transplant from a brain-dead donor. In C. Machado (Ed.), Brain death: A reappraisal (pp. 1–20). Springer.

Machado, C. (2010). Diagnosis of brain death. Neurology International, 2(1), e2.

Graf, W. D., Miller, G., Epstein, L. G., & Rapin, I. (2017). The autism “epidemic”: Ethical, legal, and social issues in a developmental spectrum disorder. Neurology, 88(14), 1371–1380.

Machado, C., Korein, J., Aubert, E., Bosch, J., Alvarez, M. A., Rodríguez, R., & others. (2007). Recognizing a mother’s voice in the persistent vegetative state. Clinical EEG and Neuroscience, 38(3), 124–126.

Lewis, A., Bernat, J. L., Blosser, S., Bonnie, R. J., Epstein, L. G., Hutchins, J., & others. (2018). An interdisciplinary response to contemporary concerns about brain death determination. Neurology, 90(9), 423–426.*

Rene Pry | Neurodevelopmental Processes | Best Researcher Award

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Mr. Rene Pry | Neurodevelopmental Processes | Best Researcher Award

Mr. Rene Pry | Universite Montpellier3-Paul Valery | France

René Pry is a distinguished scholar and researcher affiliated with Université Paul-Valéry Montpellier 3 in France, specializing in clinical psychology and developmental psychopathology. His academic work primarily explores neurodevelopmental disorders, particularly autism spectrum disorders (ASD), from a developmental and evolutionary psychopathology perspective. Pry’s research focuses on understanding the psychological, cognitive, and emotional processes that underlie atypical development, emphasizing how early life experiences and environmental factors shape mental health trajectories. He has contributed extensively to the field through numerous publications addressing autism, childhood mental health, and the clinical approaches used in diagnosis and intervention. As an influential figure in French psychological research, Pry has played a significant role in bridging theoretical models with clinical practice, offering insights into both the scientific and therapeutic dimensions of neurodevelopmental conditions. His recent works, such as those published in Annales Médico-Psychologiques and Neuropsy, highlight his continued commitment to advancing knowledge on the complex interplay between neurobiology, development, and psychopathology. Through his research and teaching, René Pry has established himself as a leading voice in the study of autism and developmental psychology, fostering a nuanced understanding of mental health across the lifespan.

Profile: Orcid

Featured Publications

Pry, R., & El Achhab, A. (2025). Troubles neurodéveloppementaux et psychopathologie évolutionniste. L’autisme en situation. Annales Médico-psychologiques, revue psychiatrique.

Pry, R., & El Achhab, A. (2025). « L’autisme profond » : une casuistique pour le clinicien. Neuropsychiatrie de l’Enfance et de l’Adolescence.

Achachera, A., & Pry, R. (2025). L’inclusion scolaire des enfants autistes en Algérie. Journal of Science and Knowledge Horizons.

Nobuhiro Inoue | Neuropharmacology | Best Researcher Award

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Dr. Nobuhiro Inoue | Neuropharmacology | Best Researcher Award

Dr. Nobuhiro Inoue | Kumamoto Neurosurgical Hospital | Japan

Dr. Nobuhiro Inoue is a distinguished neurosurgeon affiliated with Kumamoto Neurosurgical Hospital in Japan, recognized for his extensive contributions to the field of neurosurgery and neurological research. His clinical expertise encompasses advanced microsurgical techniques, neurotrauma management, cerebrovascular disorders, and brain tumor surgery. Dr. Inoue has published numerous scientific papers in reputable international journals, reflecting his commitment to advancing medical knowledge and improving neurosurgical outcomes. His research often focuses on the pathophysiology of brain and spinal diseases, the development of minimally invasive surgical methods, and innovative neuroimaging applications in clinical practice. As an active contributor to academic and clinical advancements, Dr. Inoue collaborates with interdisciplinary teams to integrate cutting-edge technology and evidence-based approaches in patient care. His scientific works have been widely cited, underscoring their influence on neurosurgical research and education. Through his dedication to both surgery and scientific inquiry, Dr. Nobuhiro Inoue continues to play a vital role in enhancing the understanding and treatment of complex neurological conditions in Japan and beyond.

Profile: Orcid

Featured Publications

Inoue, N., & Goto, S. (2025). Clinical evidence of senile choreo-athetosis following valproate withdrawal: A case report. Neurology and Clinical Neuroscience.

Inoue, N. (2020). Post-stroke dizziness of visual vestibular cortices origin. Journal of Neuroscience and Neurological Disorders.

Inoue, N. (2017). Severe ischemic stroke due to progression of cervical carotid artery dissection. Neurological Research and Therapy, 17(22).

Inoue, N. (2015). Cerebral blood flow in the visual and parieto-insular vestibular cortices in patients after cerebral ischemia with or without dizziness. International Journal of Neurological Disorders & Interventions, 101.

Inoue, N. (2014). Effect of ibudilast on the reciprocal inhibitory visual-vestibular interaction closely related to dizziness after cerebral ischemia. Journal of Stroke and Cerebrovascular Diseases, 23, 51–55.

Inoue, N. (2011). Highly purified eicosapentaenoic acid improves cerebral vasomotor-reactivity in patients with chronic cerebral ischemia. Therapeutic Research, 32, 1325–1332.

Inoue, N. (2010). Long-term suppression of Meige syndrome after pallidal stimulation: A 10-year follow-up study. Movement Disorders, 25(11), 1753–1763.

Inoue, N. (2009). Relationship between dizziness and cerebral blood flow in patients with chronic cerebral ischemia. In A. Lindqvist & G. Nyman (Eds.), Dizziness: Vertigo, disequilibrium and lightheadedness. Nova Science Publishers. ISBN 978-1-60741-847-4

Siphokazi Gatyeni | Systems Neuroscience | Best Researcher Award

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Dr. Siphokazi Gatyeni | Systems Neuroscience | Best Researcher Award

Dr. Siphokazi Gatyeni | University of Johannesburg | South Africa

Dr Siphokazi Princess Gatyeni is a Lecturer in the Department of Mathematics and Applied Mathematics at the University of Johannesburg, having progressed through roles as Assistant Lecturer and Marker. She earned her PhD in Applied Mathematics with a thesis on the long-term dynamics of COVID-19 in South Africa under the supervision of Prof Farai Nyabadza and Prof Faraimunashe Chirove. Prior to that she completed an MSc in Mathematics studying modelling of in- and out-patient rehabilitation for substance abuse, and an Honours in Biomathematics modelling substance abuse dynamics. Her research focuses on infectious-disease modelling (COVID-19, TB, malaria), optimal control theory and social behaviour in epidemic systems, with demonstrated expertise in MATLAB, Python, Mathematica, LaTeX, R-Studio, Excel and SPSS. According to Google Scholar she has been cited 41 times. Her h-index is currently not publicly listed on that profile but the citation count reflects an active early-career research trajectory. Her work includes recent journal articles on meningitis transmission and the impact of vaccination strategies, as well as modelling the effects of stigma on COVID-19 transmission. In the classroom she emphasises real-world applications and technology-assisted instruction, teaching courses from Engineering Mathematics through Numerical Analysis and Special Topics, and is committed to mentoring postgraduate students in interdisciplinary mathematical modelling.

Profile: orcid

Featured Publications

Gatyeni, S. P. (2025). Mathematical modeling of meningitis transmission dynamics and the impact of vaccination strategies. Scientific African, e03048.

Mbalilo, V. M., Nyabadza, F., & Gatyeni, S. P. (2025). Modelling the potential impact of TB-funded prevention programs on the transmission dynamics of TB. Infectious Disease Modelling.

Gatyeni, S. P., Chirove, F., & Nyabadza, F. (2022). Modelling the potential impact of stigma on the transmission dynamics of COVID-19 in South Africa. Mathematics, 10(18), 3253.

Gatyeni, S. P. (2022). Application of optimal control to the dynamics of COVID-19 disease in South Africa. Scientific African, e01268.

Kathrin Eichinger | Clinical Neuroscience | Outstanding Contribution Award

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Dr. Kathrin Eichinger | Clinical Neuroscience | Outstanding Contribution Award 

Dr. Kathrin Eichinger | Medizinische Universitat Wien | Austria

Dr. Med. Kathrin Eichinger is an Austrian physician specializing in Pediatrics and Pediatric Neurology, currently serving as a Consultant in Child and Adolescent Medicine with subspecialty training in Neuropediatrics at the Medical University of Vienna. Her clinical and academic focus lies in neuroimmunology, with ongoing doctoral research in neuroscience examining acute necrotizing encephalitis. Dr. Eichinger’s experience spans several leading medical institutions, including Sankt Anna Children’s Hospital and the Hospital of the Brothers of Mercy in Eisenstadt, complemented by an observership in Neurointensive Care and Neuroimmunology at the Children’s Hospital of Philadelphia. She has also contributed to clinical research through her involvement in the eSMART randomized controlled trial on electronic symptom management at the Medical University of Vienna. Her expertise is further supported by certification in pediatric EEG and active participation in numerous neuropediatric congresses and workshops across Europe. Multilingual in German, English, and Spanish, Dr. Eichinger combines her clinical acumen with strong research engagement, reflected in her growing academic footprint with an h-index of 3, five peer-reviewed documents, and approximately 45 citations. Her professional pursuits integrate advanced clinical training, translational neuroscience, and a dedication to improving pediatric neurocare.

Profile: Orcid

Featured Publications

  • Eichinger, K., Breu, M., Renken, M., Siegert, S., Hilz, E., Glatter, S., Csaicsich, D., Boehm, M., Lechner, C., Kornek, B., et al. (2025). Complications of therapeutic plasma exchange in pediatric neuroimmune disorders. Children, 12(11), 1457.

  • Grasl, S., Janik, S., Dressler, A., Diehm, R., Gröppel, G., Eichinger, K., Grasl, M. C., Gstoettner, W., Feucht, M., Vyskocil, E., et al. (2021). Management and outcome of vagus nerve stimulator implantation: Experience of an otolaryngeal/neuropediatric cooperation. European Archives of Oto-Rhino-Laryngology, 278(10), 3729–3738.

Seyyed Ali Zendehbad | Clinical Neuroscience | Best Researcher Award

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Dr. Seyyed Ali Zendehbad | Clinical Neuroscience | Best Researcher Award

Dr. Seyyed Ali | Zendehbad University of Mazandaran | Iran

Dr. Seyyed Ali Zendehbad is a multidisciplinary researcher specializing in biomedical signal processing, cognitive computational neuroscience, and neurorehabilitation technologies. His research integrates deep learning, pattern recognition, and multimodal biological data modeling to enhance fatigue detection and neurorehabilitation systems. He has authored several peer-reviewed papers in reputable journals such as Scientific Reports, IEEE Access, Sensing and Bio-Sensing Research, and Healthcare Technology Letters, focusing on hybrid AI frameworks, EMG signal processing, and muscle synergy-based biofeedback mechanisms. Dr. Zendehbad’s work on developing intelligent rehabilitation systems, including his models like TraxVBF and FatigueNet, contributes to advancing telemonitoring and assistive technologies for neurological recovery. His scholarly output includes more than 25 documents, over 600 citations, and an h-index of 12, reflecting his growing impact in computational neuroscience and biomedical engineering. Recognized for innovation, he has achieved first-place awards in multiple national startup competitions and was honored with the Best Poster Award at the Congress of Neurology and Clinical Electrophysiology of Iran. As a postdoctoral researcher at the University of Mazandaran, his ongoing work emphasizes integrating trustworthy AI into telehealth systems, promoting equitable and efficient digital healthcare delivery through interdisciplinary research and technological innovation.

Profile: Orcid

Featured Publications

1. Mazrooei Rad, E., Mazinani, S. M., & Zendehbad, S. A. (2025). Diagnosis of Alzheimer’s disease using non-linear features of ERP signals through a hybrid attention-based CNN-LSTM model. Computer Methods and Programs in Biomedicine Update, 5, 100192.

2. Zendehbad, S. A., Sharifi Razavi, A., Tabrizi, N., & Sedaghat, Z. (2025). A systematic review of artificial intelligence techniques based on electroencephalography analysis in the diagnosis of epilepsy disorders: A clinical perspective. Epilepsy Research, 207, 107582.

3. Mazrooei Rad, E., Zendehbad, S. A., & Hosseinzadeh, V. (2025). Fetal QRS complex detection based on adaptive filters and peak detection. Research on Biomedical Engineering, 41(3), 424–438.

4. Zendehbad, S. A., Ghasemi, J., & Samsami Khodadad, F. (2025). FatigueNet: A hybrid graph neural network and transformer framework for real-time multimodal fatigue detection. Scientific Reports, 15(1), 640.

5. Safdel, A., Zendehbad, S. A., & Ghasemi, J. (2025). Advanced deep learning approaches for accurate and efficient suspicious behavior detection in surveillance videos. Computational Sciences and Engineering, 21(2), 1099.

Kaviya Chinnappa | Developmental Neuroscience | Best Researcher Award

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Dr. Kaviya Chinnappa | Developmental Neuroscience | Best Researcher Award

Dr. Kaviya Chinnappa | Institute of Fer a Moulin (NeuroSU), Paris | France

Dr. Kaviya Chinnappa is a neuroscientist whose research focuses on the molecular and cellular mechanisms underlying cerebral cortex development, cortical progenitor dynamics, and neurodevelopmental disorders. She completed her Ph.D. in Neuroscience at the Instituto de Neurociencias (CSIC-UMH) in Alicante, Spain, and currently serves as a Postdoctoral Researcher at the Institut du Fer à Moulin (Inserm), Paris, where she investigates the role of ceramide synthase in neocortex formation and its association with cortical malformations such as heterotopia. Her work integrates advanced genetic, molecular, and imaging approaches to uncover regulatory pathways controlling neuronal proliferation, polarity, and differentiation. Dr. Chinnappa has contributed to several high-impact publications in journals including Nature, Science Advances, Journal of Cell Biology, Cells, Frontiers in Cell and Developmental Biology, BioEssays, Cerebellum, and Journal of Neurochemistry. Her studies have provided key insights into the roles of miRNAs, centrosomal proteins, and sphingolipid metabolism in brain development. She has received multiple distinctions, including the Extraordinary PhD Thesis Award and the Valérie Chamaillard Fellowship. With an h-index of 5, 4 i10-index publications, and 164 citations across 156 documents, Dr. Chinnappa continues to advance translational neuroscience through her innovative research on cortical development and neurogenetic disorders.

Profile: Google Scholar

Featured Publications

Camargo Ortega, G., Falk, S., Johansson, P. A., Peyre, E., Broix, L., Sahu, S. K., … (2019). The centrosome protein AKNA regulates neurogenesis via microtubule organization. Nature, 567(7746), 113–117.

Zaidi, D., Chinnappa, K., & Francis, F. (2022). Primary cilia influence progenitor function during cortical development. Cells, 11(18), 2895.

Chinnappa, K., Cárdenas, A., Prieto-Colomina, A., Villalba, A., … (2022). Secondary loss of miR-3607 reduced cortical progenitor amplification during rodent evolution. Science Advances, 8(2), eabj4010.

Prieto-Colomina, A., Fernández, V., Chinnappa, K., & Borrell, V. (2021). MiRNAs in early brain development and pediatric cancer: At the intersection between healthy and diseased embryonic development. BioEssays, 43(7), 2100073.

Chatterjee, A., Chinnappa, K., Ramanan, N., & Mani, S. (2018). Centrosome inheritance does not regulate cell fate in granule neuron progenitors of the developing cerebellum. The Cerebellum, 17(5), 685–691.

Zaidi, D., Chinnappa, K., Yigit, B. N., Viola, V., Cifuentes-Diaz, C., Jabali, A., … (2024). Forebrain Eml1 depletion reveals early centrosomal dysfunction causing subcortical heterotopia. Journal of Cell Biology, 223(12), e202310157.

Chinnappa, K., Márquez-Galera, Á., Prieto-Colomina, A., Nomura, Y., … (2019). MIR3607 regulates cerebral cortex development via activation of Wnt/βCat signaling. bioRxiv, 729939.

Chinnappa, K., Ballorin, F., & Francis, F. (2025). Fundamental Neurochemistry Review: Sphingolipids and ceramides in brain development. Journal of Neurochemistry, 169(10), e70262.