Yes, but its usually not worth the time to include all parasitics in a model until you get to very high frequency work.
Professional circuit/PCB designers already know roughly what the issues are going to be and can order of magnitude approximate well enough to know if its worth fully modeling or not. For novices, just understanding what the parasitics are is hard enough, much less adding them to a circuit that is often already fairly complicated for them. Most lower frequency stuff that novices will be building should not have an issue with parasitics, but pushin breadboards are just awful and the most common hobbyist op amps have plenty high enough gain-bandwidth-products to bring them into play.
mbell is right -- rather than just adding parasitic capacitance and inductance estimates to every node, it's more helpful for the engineer to be able to evaluate and discover which nodes are particularly sensitive and which aren't. Start with some back-of-the-envelope order-of-magnitude estimates (maybe guess ~1nH/mm inductance for a wire, ~1pF capacitance between adjacent pins), and an experienced engineer will already be able to eyeball likely trouble spots in your circuit. The novice can certainly use the same concepts with simulation to do quite a bit of "debugging" in just a few minutes, for example dragging around a 1pF cap between a bunch of pins, re-running the simulation each time, and seeing where it has the most detrimental effect on an analog circuit.
Just to add, if you want to 'fail safe' a breadboard design, your better off assuming ~25pF of stray capacitance per breadboard insertion point. You should also make sure your circuit bandwidth is less than ~8-10Mhz, keeping in mind that if you have an opamp with GBP of 20Mhz and you're using it with a gain of 2, you may have a problem. Stray inductance can also play a part, but it's far less likely.
Professional circuit/PCB designers already know roughly what the issues are going to be and can order of magnitude approximate well enough to know if its worth fully modeling or not. For novices, just understanding what the parasitics are is hard enough, much less adding them to a circuit that is often already fairly complicated for them. Most lower frequency stuff that novices will be building should not have an issue with parasitics, but pushin breadboards are just awful and the most common hobbyist op amps have plenty high enough gain-bandwidth-products to bring them into play.