I agree with the suggestion that the data ought to be normalized, but then you have a different problem for answering the question, one that I'm not sure how you'd do it in SQL (since it is based on the order of the records). That is, you'd have to walk a recordset to do it. I guess a correlated subquery could do the trick, but it would have to based on something that can be ordered.

My SQL skills are not fabulous, so in the abstract I won't suggest a SQL solution, but maybe somebody else will.

Instead, I'll suggest a function that could return the answer in the original unnormalized data structure. I base this on my existing iMax() function, which goes like this:

```
Public Function iMax(ParamArray p()) As Variant
' Idea from Trevor Best in Usenet MessageID
' rib5dv45ko62adf2v0d1cot4kiu5t8mbdp@4ax.com
Dim i As Long
Dim lngUBound As Long
Dim v As Variant
v = p(LBound(p))
lngUBound = UBound(p)
For i = LBound(p) + 1 To lngUBound
If v < p(i) Then
v = p(i)
End If
Next
iMax = v
End Function
```

The idea is using a parameter array to pass the values to the function, and then walking the array to get the information you need. In this case, you'd want to walk the array and count the number of times it changes, something like this:

```
Public Function CountChange(ParamArray varInput()) As Long
Dim varValue As Variant
Dim varPrevious As Variant
Dim lngCount As Long
varPrevious = varInput(0)
For Each varValue In varInput()
If varValue <> varPrevious Then
lngCount = lngCount + 1
End If
varPrevious = varValue
Next varValue
CountChange = lngCount
End Function
```

I haven't tested that very thoroughly, and it doesn't deal with Nulls at all, but that's the idea -- it's very useful concept for comparing data from fields within a single row.