Biomedicine and Biotechnology in Space: An Introduction.- Hypergravity, Microgravity, and Animal Research.- Assessing the Effects of Microgravity on Eukaryotic Cells Using a Statistical Thermodynamic Approach.- Multiscale Modeling and Systems Biology in Microgravity Investigations.- Transcriptomics in Space: A Basic R Pipeline for Analyzing Bulk RNA-Sequencing Data.- A Systems Biology Approach to Discovery and Validation of MicroRNA Signature Health Risks Associated with the Space Environment.- The Cytoskeleton in Space.- Epigenetics in Space: The Dynamic Cellular Response.

- Modulation of Cell-to-Cell Adhesion and Interaction with the Extracellular Matrix in Microgravity Conditions.- Histochemistry and Immunohistochemistry in Space Biology: Analysis of the Functional Morphology of the Tissue Microenvironment.- Ovarian Reproductive and Endocrine Function Investigated in Microgravity Environment.- Defining Microbiome Impact on Host Physiology During Spaceflight Using Caenorhabditis elegans.- 3D Bioprinted Tumor Constructs for Photothermal Therapy: Emerging Opportunities in Microgravity Research.- Regenerative Medicine in Space: Advancing Bone Repair with Adipose Stem Cells and Bone-on-Chip Technology.- Integrated Platforms to Further Advance Space Biology Research.- Precision Medicine in Astronauts: Principles and Targets in Molecular Assessment.