Solid State Analysis

Microscopy is a useful tool for form discovery and understanding.  Different forms have different optical crystallographic, thermal, and infrared properties.  These differences can be used help understand the relationships of different forms and, most importantly, aid in selecting the optimum form for development. The following examples illustrate how microscopy aids with solid state analysis.

Example 1 Ammonium Nitrate Thermal Microscopy

Ammonium nitrate has 5 forms and phase transitions are easily observed using thermal and polarized light microscopy.  This example illustrates the power of microscopy in both solid-state form discovery and understanding.

Example 2 Triamcinolone Acetonide Optical Crystallography

Triamcinolone acetonide (TAA) known as anhydrate.

Thermal tests showed a new form which only appeared at high temperatures.

Optical crystallography demonstrated distinct differences between the two forms.

Thermal microscopy of TAA showing growth of anhydrate form.
Optical Crystallography of two forms of TAA
Further studies demonstrated that this new form is an anhydrate and that the common form was actually a hemihydrate not an anhydrate as was assumed.

Polarized light and thermal microscopy crucial to the discovery and understanding of the two forms of TAA.

RG12525 Stable Form

A key element in the choice of solid-state form for pharmaceutical development is the determination of the stable form at ambient conditions.  Microscopy is a useful tool for this determination.  Particles of both forms can be introduced into a saturated solution.  Over time the stable form will grow at the expense of the unstable one.  In this example, Form 1 of RG12525 was determined to be the stable form at ambient conditions.

Mixture of RG12525 Form 1 (needles) and Form II (blocks).
RG12525 Form II particles have dissolved indicating that Form 1 is the stable form.

Summary

These are just a few brief examples of the ways that polarized light microscopy can aid in the development and understanding of solid state forms.