That's a good question, but the short answer is no.
Fictitious forces relate to particular choices of coordinate systems (and their origins). For example, the centrifugal force is an easy way to think about the tendency to be pulled "down" by an astronaut aboard a spinning space station; that astronaut can think of a set of cylindrical coordinates with the origin at the centre of rotation of the station, or of a set of Cartesian coordinates with the origin at some point on the "floor" and centrifugal force is simply natural-seeming. However, if the astronaut uses a non-rotating set of Cartesian coordinates whose origin is outside the entire station, for example, centrifugal force no longer seems very natural as an explanation. Alternatively, close inspection of the path traced by a dropped tablet would also conflict with expectations from a real centrifugal force.
Careful study of the movement of stars in the outer reaches of certain types of rotating galaxies threw up a surprise: the linear velocities of stars orbiting far from the centre should be much faster in order to maintain their roughly circular orbits than observational evidence of their speed allows. This difference does not change with a change of coordinates, so it is not an artifact of a choice of coordinate systems. Thus it is not really fixable with a fictitious force; so far the only "fix" we know is to either use known real forces that are generated by the non-gravitational content of the universe (possibly adding not-previously-known matter) or to keep the matter content constant but modify one or more forces. (Hybrid approaches are also possible). The space for introducing truly new long-range forces has been heavily constrained by experiment on Earth, and a "fifth force" is essentially ruled out. We have not yet ruled out many viable forms of previously undetected matter, however some forms are no longer plausible.
Dark Matter introduces invisible mass far from the centres of galaxies that help to suspend these surprisingly slow-moving stars. Modifications of gravity have also been proposed that bend the trajectories of such stars less towards the centres of their galaxies.
Dark Matter also explains the peculiar velocities of galaxies within several clusters; they move as if attracted to unseen mass in the cluster. Previously mentioned modifications of gravity have to be further modified to incorporate these observational results.
Collisionless Dark Matter also explains the behaviour of several known (past) galactic collisions where gravitational lensing preceeds the visible matter and especially the energetic gas and dust that collided as the galaxies passed through one another. This so far has not been fixable by yet more modifications of gravity, however people are trying that approach too (e.g. https://arxiv.org/abs/1606.09128).
Fictitious forces relate to particular choices of coordinate systems (and their origins). For example, the centrifugal force is an easy way to think about the tendency to be pulled "down" by an astronaut aboard a spinning space station; that astronaut can think of a set of cylindrical coordinates with the origin at the centre of rotation of the station, or of a set of Cartesian coordinates with the origin at some point on the "floor" and centrifugal force is simply natural-seeming. However, if the astronaut uses a non-rotating set of Cartesian coordinates whose origin is outside the entire station, for example, centrifugal force no longer seems very natural as an explanation. Alternatively, close inspection of the path traced by a dropped tablet would also conflict with expectations from a real centrifugal force.
Careful study of the movement of stars in the outer reaches of certain types of rotating galaxies threw up a surprise: the linear velocities of stars orbiting far from the centre should be much faster in order to maintain their roughly circular orbits than observational evidence of their speed allows. This difference does not change with a change of coordinates, so it is not an artifact of a choice of coordinate systems. Thus it is not really fixable with a fictitious force; so far the only "fix" we know is to either use known real forces that are generated by the non-gravitational content of the universe (possibly adding not-previously-known matter) or to keep the matter content constant but modify one or more forces. (Hybrid approaches are also possible). The space for introducing truly new long-range forces has been heavily constrained by experiment on Earth, and a "fifth force" is essentially ruled out. We have not yet ruled out many viable forms of previously undetected matter, however some forms are no longer plausible.
Dark Matter introduces invisible mass far from the centres of galaxies that help to suspend these surprisingly slow-moving stars. Modifications of gravity have also been proposed that bend the trajectories of such stars less towards the centres of their galaxies.
Dark Matter also explains the peculiar velocities of galaxies within several clusters; they move as if attracted to unseen mass in the cluster. Previously mentioned modifications of gravity have to be further modified to incorporate these observational results.
Collisionless Dark Matter also explains the behaviour of several known (past) galactic collisions where gravitational lensing preceeds the visible matter and especially the energetic gas and dust that collided as the galaxies passed through one another. This so far has not been fixable by yet more modifications of gravity, however people are trying that approach too (e.g. https://arxiv.org/abs/1606.09128).