One technique I have seen used is to use a sort of 'hard-coded' EAV pattern. Don't hang up! It worked well with the dataset sizes you were talking about and didn't actually use EAV - it was only EAV-esque.
The idea is to have a set of tables to store these custom attributes within it, with some triggers (described below) on them. The custom attributes tablesets store metadata about the attribute (what table it goes with, data type, constraints, etc). You can get very fancy with this but I did not haev the need.
The triggers on your meta-tables are there to re-generate views that rollup base+extension into first class objects within the DB. So instead of table person + employee extension table, you have an employee view that includes both. When you drop a new value into the custom attributes tables, the triggers will re-roll the views and include the new stuff. If you wanted to go nuts, you could also have the triggers re-write stored procedures as well. Depending on how your mid-tier code is structured, you would still be forced to re-code some, however this would be the case anyway should you be applying rules that read the data.
In testing, I found that for the relatively small # of records you're talking about, performance was somewhat slower but followed roughly the same pattern of degradation (2x the number of records, ~2x as slow).
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How I saw it done, you had a table that represented your first class objects, so a row for 'person' and a row for 'employee,' etc. We'll call that FCO. Then you had a secondary table that stored what tables represented the FCO. We'll call that Srcs.. For person, there would be one row, which is the person table. For Employee, there would be two rows, the person table and the Employee extension. There is a third table, called Attribs, which stores the columns from the tables that constitute the FCO. For simplicity, we'll say Employee has ID, Name and Address, and Employee has Hire Date and Department, and obviously PersonID referring back to Person table. So, 2 rows in FCO table (person and employee), 3 rows in Src table, 8 rows in Attribs.
The view, we'll call it vw_Employee, selects PersonID, Name, Address, Hire Date, Department from the two tables. It is built by a SQL stored procedure we'll call OnMetadataChange.
This SP is fired (by trigger or batch process), and its purpose is to generate the CREATE VIEW statements. It will iterate through every First Class Object, collect which fields from which tables constitute the view, and will issue a CREATE statement based on that. So OnMetadataChange produces a DROP and CREATE for each view, it generates a dynamic SQL statement that is executed once per entry in FCO table. It is preferable to do this with Triggers but not necessary. Hopefully your FCO definitions won't change too often, and when they do, there will probably be a code release as well. You can run your OnMetadataChange SP at that time.
The end result is a 2-layer database. The views constitute the First Class Object layer, which is meaningful to the application. The application only uses views. The tables constitute the 'physical' layer, which the application shouldn't care about. The meta-tables are essentially your mapping between the FCO layer and the physical layer. It takes some time to set it up, but it's quite effective, and gives you many of the benefits of EAV, while at the same time giving you the concrete benefits of 3nf tables (indexability, etc).
If you'd like I can throw some sample SQL out there.