Given a geodesic metric space $X$ together with a choice of midpoints 
$m:X\times X\rightarrow X$ (i.e. $d(m(x,y),x)=d(m(x,y),y)=d(x,y)/2$). 
Assume furthermore, that the following negative curvature condition is satisfied:

$d(m(x,y),m(x,z))\le \frac{d(y,z)}{2}$ for all $x,y,z\in X$ .
This is just a special case of the CAT(0) inequality for the "triangle" $x,y,z$.
Lets call such a space a M-space.

Such a space needn't be [CAT(0)][1], as the example $(\mathbb{R}^n,d^1)$ shows, where $d^1$ is the $l^1$ metric. The choice of midpoints is given by $m(x,y)=\frac{x+y}{2}$. It also needn't be unique geodesic.

But this space can be equipped with another metric, that makes it a CAT(0) space.

So my question is: Is every group, that acts properly, isometrically and cocompactly on a M-space already a CAT(0)-group?


  [1]: http://en.wikipedia.org/wiki/CAT%2528k%2529_space