Fusion requires some pretty specific conditions to get started, and if you don’t maintain the insanely high pressures and temperatures required then the fusion will stop.

This is different from say burning a stick where the nearby fire provides enough heat to start up more little fires around it where all you have to do is start it and it will continue until it runs out of fuel.

Stars begin their life as a big cloud of gas that is slowly compressing into a big ball. The outer layers of the ball push inwards on the core and compress it causes high pressure and temperature in the center. When it gets high enough the hydrogen in the core will begin to fuse and make the core even hotter, but this hot core passes some heat off to the surrounding layers which pushes them outwards and keeps the pressure in those layers lower.

If too much fusion starts happening in the core then the outer layers get pushed away which drops the pressure, then fusion slows letting the pressure and temperature come down so the outer layers move back in and fusion rates ramp up again.

For most stars the compression occurs at a slow rate so when fusion starts up it finds a happy medium quickly and remains as a star. Towards the end of a star’s life though the fusion rate in the core can drop off suddenly causing the outer layers to pick up a good bit of speed on their way in so that when fusion does start back up their inertia is still carrying them inward quickly and fusion rates skyrocket and blow the star to bits in a supernova