If we can assume your saved settings are simply a set of name/value pairs without a two-level hierarchy requirement (i.e. INI "Keys" within "Sections") you might just persist them as such:
For writing the persistence format this is a case where you might consider the FSO, since the access volume is low anyway. The FSO can handle read/writing Unicode text files.
I think I'd do something like read lines and parse them using a Split() on "=" specifying just 2 parts (thus allowing "=" within values as well). For loading these I'd store them into a simple Class instance where the Class has two properties (Name and Value) and add each one to a Collection using Name as the Key. Make Value the default property if desired.
Maybe even implement some form of comment text line too using a generated sequence-numbered special Name value stored as say Name="%1" Value="comment text" with generated unique Names to avoid Collection Key collisions. Blank lines might be similarly preserved.
Then persisting as necessary means simply using a For Each on the Collection and using the FSO to write Name=Value out to disk.
To simulate a hierarchy you could simply use Names like:
%Comment: somAppPart settings
The parsing is cheap, so any probing of the Collection might be preceded by a full reparse (as the INI API calls do). Any changing of values in the program might do a full rewrite to disk (like the INI API calls do).
Some of this can be automated by just wrapping the Collection with some logic in another Class. The result could be syntax like:
Settings("someOtherAppPart", "ForegroundColor") = "Red"
Settings.Value("someOtherAppPart", "ForegroundColor") = "Red"
This would reload the Collection, then probe the Collection for an Item keyed "someOtherAppPart.ForegroundColor" and create it or set its Value to "Red" and then flush the Collection to disk. Or you might eschew frequent rewriting and use distinct Load and Save methods.
Make it as simple or fancy as desired.
In any case, the result is a text file users can hack at with Notepad. The only reason for the FSO is to have an easy way of read/writing Unicode text. One could also screw around with Byte array I/O and explicit conversions (array to String) and line level parsing as required to avoid the FSO. If so just don't forget about the UTF-16LE BOM.