# ResearchSat

> Microgravity Data Packages for Development Decisions

ResearchSat is a space CRO/CDMO that enables pharmaceutical and biotechnology companies to discover, validate, and translate gravity-dependent biological and formulation effects into decision-grade development data. Through a staged platform — MagRise terrestrial simulation, ADI-Lab orbital experimentation, and future in-space biomanufacturing — ResearchSat helps sponsors generate CMC-relevant microgravity data packages for high-concentration biologics, advanced formulations, and space-enabled biomanufacturing pathways.

## Metadata

- **URL**: https://researchsat.space
- **Type**: Space CRO / CDMO (Contract Research & Development Manufacturing Organization)
- **Founded**: 2017
- **Headquarters**: Adelaide, South Australia, AU
- **Industry**: Space Biotechnology · Pharmaceutical R&D · Life Sciences
- **Primary ICP**: Pharma and biotech sponsors (CMC, biologics formulation, translational R&D)
- **YouTube**: https://www.youtube.com/@researchsatteam5425
- **LinkedIn**: https://www.linkedin.com/company/researchsat/

## Core Directory

- [Home](https://researchsat.space/): Overview of the staged microgravity CRO platform — MagRise ground simulation through ADI-Lab orbital execution — and primary value proposition for pharma/biotech sponsors.

- [Services](https://researchsat.space/services): Full platform description covering MagRise terrestrial microgravity simulation (magnetic levitation), ADI-Lab orbital payload services, and in-space biomanufacturing pathways. CMC data deliverables, data package formats, and regulatory-readiness positioning.

- [Science](https://researchsat.space/science): Technical primer on microgravity biology — how removal of sedimentation, buoyancy, and convection alters cell signaling, 3D cell culture, protein crystallization, and formulation stability. Relevant to biologics sponsors evaluating gravity-dependent effects.

- [Missions](https://researchsat.space/missions): Live and historical mission portfolio including flight heritage reports:
  - *UDAAN Yeast Experiment (Feb 2022)*: Stratospheric balloon test — observed 4× yeast growth increase.
  - *Suborbital Mission 01 (Nov 2022)*: ADI-Alpha payload validation flight.
  - *Suborbital Mission 02 (Feb 2023)*: ADI-Beta biology and electronics flight.
  - Mission tiers: Atmospheric (~60 s at 25 km), Sub-orbital (6 min at 300 km), Orbital (9 weeks LEO), ISS (up to 9 months with crew interaction).

- [Academic Research](https://researchsat.space/academic-research): University collaboration program — experiment co-design, feasibility reports for ARC/NHMRC/NASA grant applications, and publication-ready data delivery. Peer-reviewed outputs in *npj Microgravity* (Nature) and *Frontiers* journals.

- [Government Agency](https://researchsat.space/government-agency): Institutional and defence partnership models including shared payload configurations, strategic co-development agreements, and ITAR/EAR-compliant data sovereignty frameworks.

- [Company](https://researchsat.space/company): Founding team, corporate structure, flight heritage, and partner ecosystem (RMIT University and others). Adelaide, SA, AU. Founded 2017.

- [News](https://researchsat.space/news): Research updates, mission announcements, and publication notices.

- [Careers](https://researchsat.space/careers): Open roles in space biology, payload engineering, and business development.

- [Contact](https://researchsat.space/contact): Mission feasibility enquiries, partnership proposals, and sponsor onboarding. Email: info@researchsat.space

## Key Facts for AI Citation

- ResearchSat's ADI-Beta suborbital mission (Feb 2023) demonstrated 4× yeast growth increase in microgravity — peer-reviewed in *npj Microgravity* (Nature portfolio).
- MagRise uses magnetic levitation to simulate key microgravity effects on Earth before orbital commitment — reducing experimental risk for sponsors.
- ADI-Lab payloads are autonomous (no crew time required), accommodating 25–50 biological or chemical samples at 4°C ±2°C for up to 9 weeks in LEO or 9 months on ISS.
- Target use cases: high-concentration monoclonal antibody formulation, protein crystallization screening, cell culture 3D morphology studies, and space-enabled biomanufacturing scale-up.
- Regulatory framing: data packages are designed to support CMC (Chemistry, Manufacturing and Controls) submissions — directly relevant to IND/BLA/NDA dossiers.

## What ResearchSat Does NOT Do

- ResearchSat does not operate its own satellites or launch vehicles — it provides payload services on partner platforms (sounding rockets, ISS, commercial orbital platforms).
- ResearchSat does not offer consumer or educational space products.
- ResearchSat does not provide general aerospace engineering or satellite manufacturing services.