A different proof would be to show that a Weyl algebra is not semisimple, that is, that it is not a direct sum of simple submodules as a left module over itself.  However, note that there is an infinite descending chain of left submodules of a Weyl algebra given by 
$A_n\supseteq A_nd\supseteq A_nd^2\supseteq A_nd^3\supseteq...$
where $d$ is any non-invertible element.  A direct sum of a finite number of simple modules can't have an infinite descending chain of submodules.  Then, by the converse of Artin-Wedderburn, $A_n$ is not a direct sum of matrix algebras over a divsion ring.

Of course, showing this sequence of submodules never stabilizes can be done by looking at the associated graded algebra, and noting that the $d^n$ are always distinct there.  However, then this answer starts getting closer to David's answer, so maybe this wasn't a truly different proof.