Hall & Meyer, 1976, J. Approx. Theory, show for $f \in C^4[a,b]$ and a mesh $a = x_1, \ldots x_n = b$ with $h = \max x_{j+1} - x_j$ then for $\pi f$ a cubic spline interporlant over the mesh then for some constants $C_k$ $$ \| (f - \pi f)^{(r)} \|_\infty \leq C_r \|f^{(4)}\|_{\infty}h^{4-r} \quad 0 \leq r \leq 3$$ In the same work, Theorem 6 states that for $f\in C^{2m}[a,b]$ the type II $2m-1$ degree spline interpolant (in a uniform mesh) satisfices $$ \| f -\pi f \|_\infty \leq C_m \|f^{(2m)}\|_\infty h^{2m}$$ They also say (eq 86) that seems pausible that the inequality $$ \| (f -\pi f)^{(r)} \|_\infty \leq C_{m,r} \|f^{(2m)}\|_\infty h^{2m-r} \quad 0 \leq r \leq m$$ Has this result been established in the literature for a uniform mesh?