True, and electrostatic discharge from your finger is no joke - it can be tens of kilovolts and carries significant, if not huge, energy. However, a discharge like that going right into a very small device, and the actual die of the transistor is tiny, is very different from interference/EMP damaging said device, where the small size actually offers protection. After all, a completed transistorized device from the 1950s is not vulnerable to static discharge - otherwise, you couldn't pick it up. With everything connected to ground where it should be, it is quite robust.
Modern ICs are much more durable and resistant to ESD than devices from those days; you can run an electronics manufacturing facility (not a semiconductor fab) without much ESD protection these days, whereas that would've been a pipe-dream in the 60s. They are sending consumer and commercial-grade semiconductors into space on satellites with service lives over 12 months these days; back in the 1960s, all satellites required rad-hard components (and had very short service lives). Semiconductors are much better these days, due to improvements in materials, processes, testing, and inspection equipment.
