I was experimenting with change in the design of my phase inverter to drive more voltage gain into an El84 output stage. The output tubes are biased using an shared un-bypassed cathode resistor. I was running into a problem when the amp would transition into overdrive. I was getting awful buzzy distortion characteristics that almost sounded "super-imposed" on the normal clipping sound. It almost sounded like the speaker was causing small hardware to rattle in a tool box, if you know what I mean. After trying a number of common fixes, adjustments, and swapping out the speaker as a means of ruling it out as the cause, I was stumped.
At first I didn't even consider adding a bypass capacitor. First, I was going for the compression and "squish" that an unbypassed cathode bias provides. Plus, as I've understood that this can compound blocking distortion and crossover, whereas a resistor has instant recovery. These points may in fact be true, but after finally making my way to the cathode circuit in my troubleshooting, I added a 220µF cap across the bias resistor and it was a night and day difference. So, I underestimated this component's part of the circuit in controlling overdrive characteristics. Can you guys help me understand what might be happening? The weird part is that it is a direct coupled stage.

I took a recorded a couple of quick video clips to illustrate. Bear in mind, this was recorded with the straight from my phone using the terrible built in mic. Also, I had a -9dB bridged T attenuator on the output so I didn't overload the phone's audio input or my piss off my neighbors(it was later in the evening). I'm going to try and capture this on my scope and try and record a better audio sample. The buzzy distortion was much more pronounced than the video indicates.

Quick video of the unbypassed cathode: