EMMANUEL SCALAIS | Medicine and Health Sciences | Outstanding Scientist Award

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Dr.EMMANUELSCALAIS|MedicineandHealth Sciences| Outstanding Scientist Award

MD at NEPE, Luxembourg.

Dr. Emmanuel Scalais is the Chief Physician of the Pediatric Neurology Department at Centre Hospitalier de Luxembourg (CHL)He has authored 82 publications and has been cited 2,877 times in the field of pediatric neurology.His clinical expertise includes conditions such as homocystinuria, vitamin B12 deficiency anemia, and exocrine pancreatic insufficiency.

professional profiles📖

Education 🎓

Secondary School: Humanity Greco-Latine (June 1972), Collège du Sacré-Coeur, Charleroi, BelgiumHigh School: Université Catholique de LouvainBaccalauréat en Philosophie: Magna cum Laude (June 1975)Doctor of Medicine: Laude (June 1979)

work Experience💼

1988-2002: Pediatric Neurologist, CHC Espérance & Saint Vincent, Liège, Belgium (Full-time)Lecturer: Pediatric Neurology Course for nurses at “School of Sainte-Julienne,” LiègeLecturer: “Medical Approach of Handicap” in Orthopédagogie2003-2024: Pediatric Neurologist, Centre Hospitalier de Luxembourg, Department of Pediatrics (Full-time)Head of Pediatric Neurology Division (2014-2018, 2018-2024)Lecturer: Pediatric Neurology Course for nurses at “Lycée Technique pour Professions de Santé” (2006-2024)

Research Focus

Dr. Scalais has authored numerous peer-reviewed articles, with a focus on pediatric neurology, metabolic disorders, and neonatal brain function. Notable contributions include:Research on phenobarbital’s effects on cerebral blood flow in newbornsStudies on very long-chain acyl-CoA dehydrogenase deficiency as a cause of neonatal sudden infant deathInvestigations into early myoclonic epilepsy linked to CoQ10 deficiencyDiagnostic and prognostic value of evoked potentials in neonatal hypoxiaCase studies on mitochondrial disorders, such as Leigh’s encephalopathy and POLG mutationsHydroxocobalamin dose intensification in early-onset cobalamin metabolism defects

Conclusion

Dr. Scalais based on his , , and . While increasing could further strengthen his profile, his current body of work already demonstrates and .is highly suitable for this awardsignificant contributions to pediatric neurology researchclinical impactinternational collaborationshigh-impact publications, principal investigator roles, and research fundingoutstanding scientific meritlong-term dedication to pediatric neurology

📚Publications to Noted

  • Scalais E, Beharry K, Papageorgiou A, Bureau M, Aranda JV (1992). Effects of phenobarbital on cerebral blood flow in the newborn piglet. Developmental Pharmacology and Therapeutics, 19(1), 10-18. [doi: 10.1159/000457457]

  • Scalais E, Bottu J, Wanders RJ, Ferdinandusse S, Waterham HR, De Meirleir L (2015). Familial very long chain acyl-CoA dehydrogenase deficiency as a cause of neonatal sudden infant death: improved survival by prompt diagnosis. American Journal of Medical Genetics Part A, 167A(1), 211-214. [doi: 10.1002/ajmg.a.36803]

  • Scalais E, Chafai R, Van Coster R, Bindl L, Nuttin C, Panagiotaraki C, Seneca S, Lissens W, Ribes A, Geers C, Smet J, De Meirleir L (2013). Early myoclonic epilepsy, hypertrophic cardiomyopathy and subsequently a nephrotic syndrome in a patient with CoQ10 deficiency caused by mutations in para-hydroxybenzoate-polyprenyl transferase (COQ2). European Journal of Paediatric Neurology, 17(6), 625-630. [doi: 10.1016/j.ejpn.2013.05.013]

  • Scalais E, Connerotte AC, Despontin K, Biver A, Ceuterick-de Groote C, Alders M, Kolivras A, Hachem JP, De Meirleir L (2016). Shwachman-Diamond syndrome presenting with early ichthyosis, associated dermal and epidermal intracellular lipid droplets, hypoglycemia, and later distinctive clinical SDS phenotype. American Journal of Medical Genetics Part A, 170(7), 1799-1805. [doi: 10.1002/ajmg.a.37673]

  • Scalais E, Francois A, Nuttin C (1996). [Diagnostic and prognostic value of evoked potentials facing cerebral hypoxia in newborn infants]. Archives de Pédiatrie, 3 Suppl 1, 251s-253s. [doi: 10.1016/0929-693x(96)86058-1]

  • Scalais E, Francois B, Schlesser P, Stevens R, Nuttin C, Martin JJ, Van Coster R, Seneca S, Roels F, Van Goethem G, Lofgren A, De Meirleir L (2012). Polymerase gamma deficiency (POLG): clinical course in a child with a two-stage evolution from infantile myocerebrohepatopathy spectrum to an Alpers syndrome and neuropathological findings of Leigh’s encephalopathy. European Journal of Paediatric Neurology, 16(5), 542-548. [doi: 10.1016/j.ejpn.2012.01.013]

  • Scalais E, Francois-Adant A, Nuttin C, Bachy A, Guerit JM (1998). Multimodality evoked potentials as a prognostic tool in term asphyxiated newborns. Electroencephalography and Clinical Neurophysiology, 108(2), 199-207. [doi: 10.1016/s0168-5597(97)00076-2]

  • Scalais E, Geron C, Pierron C, Cardillo S, Schlesser V, Mataigne F, Borde P, Regal L (2023). Would early versus late hydroxocobalamin dose intensification treatment prevent cognitive decline, macular degeneration and ocular disease in 5 patients with early-onset cblC deficiency? Molecular Genetics and Metabolism, 140(3), 107681. [doi: 10.1016/j.ymgme.2023.107681]

  • Scalais E, Nuttin C, Seneca S, Smet J, De Paepe B, Martin JJ, Stevens R, Pierart F, Battisti O, Lissens W, De Meirleir L, Van Coster R (2007). Infantile presentation of the mitochondrial A8344G mutation. European Journal of Neurology, 14(11), e3-5. [doi: 10.1111/j.1468-1331.2007.01926.x]

  • Scalais E, Osterheld E, Geron C, Pierron C, Chafai R, Schlesser V, Borde P, Regal L, Laeremans H, van Gassen KLI, van den Heuvel LPWJ, De Meirleir L (Under revision). Parenteral Hydroxocobalamin Dose Intensification in 5 Patients with Different Types of Early Onset Intracellular Cobalamin Defects: Clinical and Biochemical Responses. Journal of Inherited Metabolic Disease.

Adrianov Mikhail | Mitochondrial Biology | Best Researcher Award

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Mr. Adrianov Mikhail | Mitochondrial Biology | Best Researcher Award

research fellow/PhD student at Moscow State University, Russia

Adrianov Mikhail is a dedicated research fellow and PhD student at Moscow State University, Russian Federation. His academic journey began at Pirogov Russian National Research Medical University, where he specialized in medical biochemistry. Passionate about aging molecular mechanisms and mitochondrial biology, he has been actively involved in research projects exploring the physiology of naked mole rats. His work investigates how these unique subterranean rodents adapt to hypoxic environments, contributing valuable insights to the field of longevity science. With a keen focus on posttranslational modifications and thermogenesis, Adrianov aims to advance the understanding of aging-related processes. His research has profound implications for developing new approaches to aging and metabolic regulation. Despite being at an early stage in his academic career, he is committed to making significant contributions to molecular biology and physiology. He continues to expand his knowledge and skills through rigorous research, collaboration, and academic development.

professional profiles📖

ORCID

Education 🎓

Adrianov Mikhail pursued his higher education at Pirogov Russian National Research Medical University, Moscow, specializing in medical biochemistry. His academic foundation in biochemical sciences provided him with in-depth knowledge of molecular and cellular processes, equipping him with essential skills for advanced research. Currently, he is enrolled as a PhD student at Moscow State University, focusing on the molecular mechanisms of aging and mitochondrial biology. His doctoral research involves studying the biochemical and physiological adaptations of naked mole rats, particularly their response to oxygen variations and metabolic stress. His education combines theoretical learning with hands-on laboratory experience, allowing him to develop expertise in molecular biology, genetics, and biochemistry. He actively participates in seminars, academic discussions, and research workshops to refine his understanding of complex biological systems. Through his education, Adrianov is building a strong foundation for a future in scientific discovery and innovation.

work Experience💼

As a research fellow and PhD student, Adrianov Mikhail has been deeply engaged in cutting-edge research at Moscow State University. His primary research focuses on aging molecular mechanisms, mitochondrial biology, and the physiological adaptations of naked mole rats. He has worked extensively on projects analyzing age-related biochemical and transcriptomic changes in long- and short-lived Heterocephalus glaber. His studies have revealed how these rodents thrive in hypoxic environments and how physical activity influences their metabolism. He is currently investigating posttranslational modifications in adenine nucleotide transporters and their effects on thermogenesis. Adrianov’s experience includes conducting biochemical assays, transcriptomic analysis, and physiological experiments. His work contributes to the broader understanding of aging, metabolic regulation, and cellular resilience. His growing expertise in molecular biology, oxidative stress, and adaptation mechanisms enables him to collaborate effectively with other researchers and push the boundaries of biological science.

Research Focus

Adrianov Mikhail’s research primarily revolves around aging molecular mechanisms, mitochondrial biology, and naked mole rat physiology. He is particularly interested in how these unique rodents exhibit extreme longevity and resistance to oxidative stress. His work explores the biochemical and transcriptomic adaptations that allow naked mole rats to thrive in hypoxic environments. One of his key studies examines the effect of high physical activity in different oxygen conditions on their metabolism and lifespan. Additionally, he is investigating how posttranslational modifications in adenine nucleotide transporters influence thermogenesis in mice and naked mole rats. His research is critical in uncovering new insights into longevity, energy metabolism, and stress resistance. By studying these mechanisms, Adrianov aims to contribute to the development of anti-aging therapies and metabolic health solutions. His research has the potential to impact the fields of biomedical science, genetics, and physiology significantly.

Conclusion✅

Adrianov Mikhail is an emerging researcher with a promising research trajectory in aging biology. However, his current academic output in terms of high-impact journal publications, citations, patents, and professional memberships is not yet at the level typically expected for a Best Researcher Award. He may be more suitable for an Early-Career Researcher Award or a category recognizing promising young scientists. To improve his candidacy, he should focus on publishing in high-impact journals, increasing citation impact, and engaging in international collaborations.

 

📚Publications to Noted

 

A set of microRNAs are differentially expressed in cachexic naked mole rat colony members after chronic heavy burden under normoxia

Author: Mikhail Adrianov

Journal: Biochimie

Year: 2025

 

Increased physical activity under conditions of normoxia causes idiopathic cachexia in Heterocephalus glaber

Author: Mikhail Adrianov

Journal: Bulletin of Russian State Medical University

Year: 2024