Let $(X,d)$ be a compact metric space, $m$ be a metric outer-measure on $X$.  Are there 'mild conditions' on $X$ ensuring the existence of a positive integer $N\geq 3$ such that *there exist $x_1,\dots,x_N\in X$ satisfying*
$$
m(\left\{
x\in X:\, \exists x_0\in X-\{x\}\, (\forall i=1,\dots,N)\quad d(x,x_i)=d(x_0,x_i)
\right\})=0.
$$
In other words, the Kuraotwski-esque map $X:x\mapsto (d(x,x_n))_{n=1}^N\in \mathbb{R}^N$ is injective outside a set of metric outer-measure $0$