So I managed to come up with a way of not having to redraw the scene every time and it massively improved performance.

http://jsfiddle.net/x00xsdrt/4/

This is how I did it:

Created a "template geometry" with `ExtrudeGeometry`

using a dummy
10 sided polygon.

As before, created a bunch of "points", this time assigning each
point one of these template geometries.

On each frame, iterated through each geometry, updating each vertex
to that of the new one (using the voronoi alg as before).

If there are extra vertices left over, "bunch" them up into a single point. (see http://github.com/mrdoob/three.js/wiki/Updates.)

Looking at it now, it's quite a simple process. Before, the thought of manipulating each vertex seemed otherworldly to me, but it's not actually too tricky with simple shapes!

Here's how I did the iteration, `polycColumn`

is just a 2 item array with the same polygon in each item:

```
// Set the vertex index
var v = 0;
// Iterate over both top and bottom of poly
for (var p=0;p<polyColumn.length;p++) {
// Iterate over half the vertices
for (var j=0;j<verts.length/2;j++) {
// create correct z-index depending on top/bottom
if (p == 1) {
var z = point.extrudeAmount;
} else {
var z = 0;
}
// If there are still legitimate verts
if (j < poly.length) {
verts[v].x = poly[j][0];
verts[v].y = poly[j][1];
verts[v].z = z;
// If we've got extra verts, bunch them up in the same place
} else {
verts[v].x = verts[v - 1].x;
verts[v].y = verts[v - 1].y;
verts[v].z = z;
}
v++;
}
}
point.mesh.geometry.verticesNeedUpdate = true;
```