posted on May, 20 2009 @ 10:04 AM
PharmaSat 1 is the first mission in NASA MicroSat Free Flyer (µSat-FF) Project, a progressive, 4 mission, 5 year effort that is targeted towards
developing and demonstrating autonomous nanosatellite space platforms and technologies to support multidisciplinary science investigations.
WALLOPS ISLAND, Va. -- NASA's PharmaSat nanosatellite successfully launched at 7:55 p.m. EDT Tuesday from NASA's Wallops Flight Facility and the
Mid-Atlantic Regional Spaceport located at Wallops Island, Va. PharmaSat rode to orbit aboard a four-stage Air Force Minotaur 1 rocket. Also aboard
were the Air Force Research Laboratory's TacSat-3 satellite and other NASA CubeSat Technology Demonstration experiments, which include three
four-inch cubed satellites developed by universities and industry. PharmaSat will investigate the effects of antifungal agents on the growth of yeast
in microgravity. This research could improve understanding of how microbes may become resistant to the drugs used to treat sick astronauts on
long-duration space missions.
PharamaSat Mission Dashboard
PharmaSat will build upon the extensive technology development program and recent flight heritage of GeneSat-1. GeneSat-1 combined innovative
miniaturization and integration strategies with recent developments in microfluidics and optics in a robust free-flying satellite, self-powered and
weighing under 5 kg, that provided life-support, growth, monitoring, and analysis capabilities for microorganisms. Retrofitting GeneSat-
1 to save significant cost and schedule, PharmaSat will accomplish five critical functions in an autonomous free-flyer platform: 1. Provide life
support and environmental control for growth of the yeast strain in 48 independent microwells 2. Dose the growing yeast with antifungal agent at
the appropriate point on the growth curve with three distinct, well-defined dosage levels, plus a zero-dose control
3. Track the population of the yeast via optical density of each microwell before, during and after antifungal administration
4. Determine well-by-well yeast viability at multiple, well-defined times after antifungal administration using a colorimetric reagent, Alamar Blue
5. Telemeter the resulting population and viability data to Earth, along with system status data.
Is pretty cool to look at and see some of the stats coming back fron
it, but it has an annoying habbit of constantly prompting for a username and password.
Scrolling to the bottom of the page gives you two images that refresh and show the sats current position.
Santa Clara University ground station live feed
for the mission.
I thought that all astronauts were constantly tested to see if they were going to be ill prior to a space mission and is there not some regulation in
place to stop the contamination of space with anything that could bring about some real problems for other travelers or scientific test?
Lets hope nothing goes wrong with this craft and that it does not spill its load. I don't think we fully understand yet as to what exactly happens to
a microbe as it falls to Earth from space. Would a microbe burn up on re-entry or is it just too small?
The good thing about this mission is that these tests are part of our further understanding and ability to venture spacewards.
It's nice to know that someone is taking these things into consideration, but, have w enot got enough troubles to worry about here on Earth rather
than spending billions on tests to help a few astronauts who get the sniffles... Yes, we know an astronaut must be fully fit to fly his ship back to
Earth in order to save the lives of the rest of the crew, but that still don't help the millions on Earth who die everyday from cureable diseases.