As per MSDN
If an ntext, text, and image data value is no longer than a Unicode, 4,000 characters; character, 8,000 characters; or binary string, 8,000 bytes, the value can be referenced in SELECT, UPDATE, and INSERT statements much the same way as the smaller data types. For example, an ntext column with a short value can be referenced in a SELECT statement select list the same way an nvarchar column is referenced. Some restrictions that must be observed, such as not being able to directly reference an ntext, text, or image column in a WHERE clause. These columns can be included in a WHERE clause as parameters of a function that returns another data type, such as ISNULL, SUBSTRING or PATINDEX, or in an IS NULL, IS NOT NULL, or LIKE expression.
Handling Larger Data Values
When the ntext, text, and image data values get larger, however, they must be handled on a block-by-block basis. Both Transact-SQL and the database APIs contain functions that allow applications to work with ntext, text, and image data block by block.
The database APIs follow a common pattern in the ways they handle long ntext, text, and image columns:
To read a long column, the application simply includes the ntext, text, or image column in a select list, and then binds the column to a program variable large enough to hold a reasonable block of the data. The application then executes the statement and uses an API function or method to retrieve the data into the bound variable one block at a time.
To write a long column, the application executes an INSERT or UPDATE statement with a parameter marker (?) in the place of the value to be placed in the ntext, text, or image column. The parameter marker (or parameter in the case of ADO) is bound to a program variable large enough to hold the blocks of data. The application goes into a loop where it first moves the next set of data into the bound variable, and then calls an API function or method to write that block of data. This is repeated until the entire data value has been sent.