Apologies… more science
feel free to skip if science bores you, but I think it’s fascinating…
What do you thing the most important discovery of the 20th century was? Flight? definitely an important one, especially for us travellers. Einstein’s theory of relativity? Sure, it’s important, but how often does the average person use it. I’m going with the discovery of penicillin by Alexander Fleming in 1928. Yes, I’m a science nerd [I have a degree in microbiology] but the discovery of penicillin is arguably one of the most important discoveries if you think of its effects on the health of everyone. So number three in my medical museum adventures is the Alexander Fleming Laboratory Museum opened in 1993 Its centerpiece is a reconstruction of the laboratory as it was in 1928 in the actual room in which Fleming had made his discovery. How cool is that?
Since photography isn’t allowed in the museum, let’s take this opportunity to learn a little bit more about our hero.
Fleming was born in a farming community in rural Ayrshire [Scotland] and had a very basic education – but he developed his powers of observation during the early years. Bored with being a shipping clerk in London he applied to be a surgeon but was turned down. [We can all be grateful for that ironic twist of fate. He’d be the one spreading the germs instead of killing them.]
However, following receiving a small inheritance, he re-applied and became a medical student at St Mary’s excelling at all his exams. After graduation he joined the department of Bacteriology, headed up by Almroth Wright. He was one of those caricature flamboyant physicians who believed passionately in research, especially into typhoid, but not in keeping statistics [much like myself…I love experimenting, but keeping records, not so much]. His work was in immunization and this is the department that Fleming joined–working on lysosomes, one of our natural defenses against—wait for it— BACTERIA.
Everyone loves the story of how Fleming came to make his first major discovery regarding lysosymes. He had a cold and a drop of snot fell out of his nose on to a culture plate of bacteria which began to dissolve. Who would have ever thought snot would be the answer.
From there you probably know the rest… In the summer of 1928, Fleming left the lab for vacations but left some petri dishes containing the bacterium Staphylococcus aureus [a naturally occurring skin bacteria] on his laboratory bench. He was done with them, but for whatever reason didn’t clean up his work space before he left. On his return to work on 3 September 1928, he took one last look at them before asking his laboratory technician to sterilize them.
In a today’s lab, petri dishes are plastic, used only once and then destroyed. In 1928, they were made of glass and reused after being soaked in a shallow bath of disinfectant followed by a quick wipe. Let’s just say if lab hygiene in 1928 was similar to today’s standards penicillin may not have been discovered… Anyway… Something peculiar caught his eye and he said, “Hmm, that’s funny”, he said. The petri dish had been contaminated by a mold which had inhibited the growth of the bacteria.
The rest, as they say, is history.
Fleming went on to publish his findings – that the mold penicillin seemed to kill Bacteria – in 1929 and he continued to practice at St Mary’s. The problem then became how to manufacture ‘enough’ mold to be able to use it to combat sepsis, which was of the main killer of the times.
Ten or so years later the work continued at Oxford where two researchers, Howard Florey (from New Zealand) and Ernst Chain (from Germany), worked on the manufacture of penicillin. The start of world war II added impetus (and money) to the research project with the thinking being that wounded service personnel could be saved and turned round to fight again – by D-Day there was enough penicillin for every combatant.
Public recognition came in the shape of a Nobel prize for all three men. [yay!]