MedLIFE-24 aims to deliver a diverse and integrative scientific program covering all aspects of life science. This includes the technical study of living organisms, such as cell biology, individual organism biology, and how these organisms interact with other species and their surroundings. Although biology remains the core focus of the life sciences, technological advances in molecular biology and biotechnology have resulted in the emergence of new specialties and cross-disciplinary areas.

The life sciences have been used in the health, medicine, and pharmaceutical industries to improve people's quality of life. In this context, MedLIFE-24 seeks to highlight the synergies and links that exist between different life science segments and the UN Sustainable Development Goals (SDGs). SDG 3, "ensuring healthy lives and promoting well-being," is one of the 17 goals and targets that is especially pertinent to life science. It stands for the core of sustainable efforts in the field.

Within this framework, the scientific committee of the MedLIFE-24 invites research papers on all cross-cutting themes of life sciences, with a main focus on the following conference tracks:

1. Agricultural Biology (Crop science, soil fertility, and pest management in agricultural ecosystems).
2. Astrobiology (Exploration of life's origin, evolution, and distribution in the universe, including potential extraterrestrial life).
3. Bacteriology (Study of bacteria, covering biology, genetics, ecological roles, and interactions with humans, animals, and the environment).
4. Biotechnology (Utilizing biological systems or derivatives to develop products and technologies for diverse industries like healthcare, agriculture, and manufacturing).
5. Biochemistry (Chemical processes within living organisms, emphasizing molecular mechanisms and metabolic pathways).
6. Bioinformatics & Biological Data Science (Utilizing biology, computer science, and statistics to analyze large-scale biological datasets, like genomic sequences and protein structures).
7. Biolinguistics (Studying genetics, neurobiology, and cognition's influence on language acquisition and evolution).
8. Biological Anthropology (The biological and behavioral aspects of human evolution and variation, including genetics, primatology, and paleoanthropology).
9. Biological & Biomedical Engineering (Applying engineering principles to innovate solutions in healthcare and medical technology).
10. Biological Oceanography (Studying marine life, ecosystems, and processes in oceans, including biodiversity, nutrient cycling, and climate change impacts).
11. Biomechanics (Exploring the mechanics of living organisms' movement and structure, applicable in sports science, rehabilitation, and biomechanical engineering).
12. Biophysics (Studying physical principles in biology including molecular interactions, cellular mechanics, and biomolecular structure).
13. Biosustainability (Advocating sustainable practices across agriculture, industry, and society to uphold biodiversity, ecosystem health, and human well-being).
14. Botany (Plants structure, function, classification, and ecological roles, with applications in agriculture, forestry, and conservation biology).
15. Cancer Biology & Oncology (Studying cancer cell biology, tumor development, and molecular mechanisms of oncogenesis, with emphasis on diagnosis, treatment, and prevention strategies).
16. Cell Biology (The structure, function, and behavior of cells, including cellular processes such as cell division, signaling, and organelle function).
17. Circular Bioeconomy (Encouraging sustainable resource management and recycling to create a circular economy, minimizing environmental impact while maximizing resource efficiency).
18. Ecology & Environmental Biology (Studying organism-environment interactions, emphasizing ecosystems, biodiversity, conservation, and human impacts on natural systems).
19. Endocrinology (Studying hormone and endocrine gland structure and function, exploring their regulatory roles in metabolic, growth, and reproductive processes).
20. Enzymology (Exploring enzyme structure, function, and regulation, as well as their catalytic mechanisms and versatile applications across biotechnology, medicine, and industry).
21. Ethology (Studying animal behavior in natural settings, focusing on communication, social interactions, and adaptive behaviors).
22. Evolutionary Biology (Studying evolution processes like genetic variation, natural selection, and speciation to understand the origins and diversity of life forms).
23. Food Bioscience (Studying food production, processing, safety, and nutrition, including food microbiology, quality control, and functional foods).
24. Genetics (Studying heredity and variation in organisms, including genes' structure, function, and regulation, with applications in medicine, agriculture, and biotechnology).
25. Histology & Histopathology (Studying tissue and organ microstructures, including their organization, composition, and pathological changes related to diseases).
26. Immunology (The immune system and its responses to pathogens, allergens, and tumors, exploring topics such as immunological disorders, vaccination, and immune therapies).
27. Marine Biology (Studying marine organisms, ecosystems, and processes, including biodiversity, ecology, and conservation in marine environments).
28. Medical Sciences & Technology (Integrating medical expertise with technological advancements to enhance diagnosis, treatment, and patient care across various medical disciplines, including imaging, surgery, and rehabilitation).
29. Microbiology (Studying microorganisms like bacteria, viruses, fungi, and protists, exploring their biology, ecology, and diverse applications in medicine, industry, and biotechnology).
30. Molecular Biology (Studying the structure, function, and interactions of biomolecules such as DNA, RNA, and proteins to understand cellular processes and genetic inheritance).
31. Mycology (Studying fungi, including taxonomy, morphology, ecology, and interactions with other organisms, with diverse applications in medicine, agriculture, and industry).
32. Neurosciences (Studying the nervous system's structure, function, and disorders, including neurophysiology, neurochemistry, and neuropharmacology).
33. Paleontology & Paleobiology (Studying ancient life forms preserved in fossils to gain insights into past ecosystems, evolutionary processes, and the history of life on Earth).
34. Pathology (Studying disease etiology, focusing on tissue and organ changes associated with pathologic conditions).
35. Pharmaceutical Sciences & Pharmacology (Studying the impacts of drugs on biological systems, encompassing their discovery, development, and therapeutic applications in treating various diseases).
36. Phycology (Exploring algae, encompassing taxonomy, physiology, ecology, and biotechnological applications, particularly emphasizing their significance in aquatic ecosystems and industries).
37. Physiology (Studying the functions and mechanisms of living organisms and their parts, including organ systems, cellular physiology, and adaptations to environmental conditions).
38. Population Biology (Population dynamics, encompassing growth, distribution, and interactions, which are crucial in conservation biology and ecology).
39. Quantum Biology (Studying coherence, entanglement, and tunneling phenomena in biological systems, particularly shedding light on their intricate processes).
40. Reproductive Sciences (Exploring reproductive physiology, fertility, and health in humans and other species, covering gametogenesis, fertilization, and reproductive technologies).
41. Structural Biology (Analyzing the 3D structure of biological macromolecules, such as proteins and nucleic acids, through methods like X-ray crystallography and cryo-electron microscopy).
42. Synthetic Biology (Applying engineering principles to create artificial biological systems, including synthetic organisms, genetic circuits, and biomaterials, for use in medicine, biotechnology, and bioenergy).
43. Systems Biology (Utilizing computational and mathematical modeling to analyze biological data across various organizational levels, from cells to ecosystems, to comprehend complex biological systems).
44. Theoretical Biology (Exploring theoretical frameworks and models to understand biological phenomena, including principles of evolution, behavior, and ecological dynamics).
45. Toxicology (Studying the harmful impacts of chemicals, drugs, and environmental pollutants on organisms, focusing on toxicity mechanisms, risk assessment, and environmental health).
46. Virology & Parasitology (Examining viruses and parasites, encompassing their biology, transmission, pathogenesis, and interactions with hosts, with implications for disease control and prevention).
47. Zoology (Animals and their behavior, ecology, physiology, and evolution, encompassing diverse taxa and addressing topics such as animal diversity, conservation, and evolutionary adaptations).
48. Integrated Life Science Topics (Interdisciplinary approaches to address complex biological questions, integrating knowledge from multiple life science disciplines to advance understanding of living systems).