I don't know how common this is, you need hundreds of mV of RF to get rectification in a bipolar LTP and if they use darlington inputs or emitter degeneration even more voltage than that is needed (bi-fets can handle volts of RF, at least in theory). This is made worse by very slow opamps and high noise-gain.
That schematic's liberal use of several times larger feedback capacitors than the input shunt is arguably counter productive against that input cap keeping the RF CM to both opamp inputs.
I only encountered this once in production inside a small mixer that I inherited. We got some service complaints about RF in one of the buses. I didn't want to go inside and revisit some other engineer's design with a major tear up and redo, so I dropped a BIFET into the bus amp socket with a quick engineering change notice, and never thought about it again.
In general if you bandpass your inputs and decouple outputs, you shouldn't find hundreds of mV of RF in your opamp inputs.
JR