Hfe depends on diffusion during fabrication so it is not well controlled and it is very temperature sensitive. At best the manufacturer will grade parts into separate groups but even then, hfe varies considerably from unit to unit.
For switching applications, hfe is what matters but for linear operation, transconductance which is very consistent is more important. If controlled switching is necessary, then there are various anti-saturation circuits like Baker clamps which can be used to handle a wide range of hfe.
But which line should I look? I repair ob "Note2". (2. Pulse Test: Pulse Width < 300us; Duty Cycle < 2%) This value are for when I will use transistor on this conditions?
The datasheet for the transistor will include hfe specifications at different collector currents. For transistors intended for switching applications this will be very brief but more specialized amplifiers may list hfe specifications at several collector currents. If necessary, pick a transistor intended to operate at the collector current you have chosen to get a better specification.
If you want to explore cutoff, active, and saturation, then adjust the circuit to the transistor instead.