Microgravity Research

Microgravity Pre-Clinical Oncology Workflows [Strategy]

While Conventional workflows remain the bedrock of standard drug development, the emergence of Hybrid and Microgravity-Maximal strategies could…

Mar 24 • Mandeep Metharu

Oncology Simulated Microgravity Experiments [Strategy]

With orbital launch slots at a premium, a strategic priority is on Pre-Flight De-Risking.

Mar 14 • Mandeep Metharu

Oncology Pre-clinical Microgravity Experiments [Strategy]

How biopharma innovators have an opportunity to leverage the microgravity environment to solve the most stubborn “trafficking” and “penetration…

Mar 8 • Mandeep Metharu

Bioprinting Products in Microgravity [Innovation]

This article outlines five high-value tissue types being researched in microgravity ranging from the delicate layers of the human retina to the complex…

Mar 7 • Mandeep Metharu

Microgravity for Stem Cell Research [Innovation]

By removing gravity, researchers can grow massive volumes of high-purity cells that remain “stem-like” longer than their Earth-bound counterparts,

Feb 24 • Mandeep Metharu

Commercializing Space Plant Breeding [Strategy]

To maximize the Return on Investment (ROI) of an orbital mission, researchers may choose to focus on “Strategic Staples” and “High-Value Specialty…

Feb 20 • Mandeep Metharu

Seed Mutagenesis Research in Space [Innovation]

Space could acts as a “Genetic Particle Accelerator,” utilizing the natural high-energy flux of LEO (Low Earth Orbit) to bypass the biological repair…

Feb 20 • Mandeep Metharu

Glioblastoma Experiment Design for Microgravity [Strategy]

This article outlines high-level experiment design considerations for oncology research in microgravity, specifically targeting brain tumors.

Feb 18 • Mandeep Metharu

Microbial Research in Microgravity [Innovation]

Because microbes grow faster, become more virulent, and develop unique physical structures in space, they provide a compressed timeline for drug…

Feb 17 • Mandeep Metharu

High-throughput Screening (HTS) in Microgravity [Innovation]

Space-Based HTS leverages microfluidics and scaffold-free 3D cellular self-assembly to achieve higher biological fidelity than on Earth.

Feb 17 • Mandeep Metharu

Microgravity CRISPR experiments for Sarcopenia [Strategy]

This analysis explores how moving R&D to orbit allows CRISPR therapeutics to evolve from trial-and-error into a discipline of deterministic engineering.

Feb 16 • Mandeep Metharu

Microgravity CRISPR research for Sarcopenia [Strategy]

We may be moving toward a world where a single, personalized injection could immunize a patient against muscle atrophy for years.

Feb 16 • Mandeep Metharu

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