Low-molecular-weight heparins (LMWHs) are obtained by fractionation or depolymerization of
natural heparins. They are defined as having a mass-average molecular weight of less than 8000 and for which at least 60%
total weight has a molecular mass less than 8000.
Size-exclusion chromatography (SEC) has been the most common way of measuring the molecular
weight and molecular weight distributions of LMWHs by using the two most common detection technologies: ultraviolet (UV) coupled
with refractive index (RI) detection. However, these detectors embody a relative method in order to determine molecular weights,
requiring calibration standards. A newer, absolute method involves the use of multi-angle light scattering (MALS), which does
require any standards. The European Pharmacopeia (EP) monograph for LMWH specifies the use of the UV–RI detection method and
provides a known calibration standard. Many laboratories around the world have adopted this method.
Figure 1: Examples of UV and RI traces for an LMWH sample.
We previously developed an SEC–MALS method and found it to be very suitable for the
analysis of LMWHs. We have recently adopted the UV–RI method described in the EP monograph and compared the molecular weight
results generated for LMWH using each detection type. The adopted method uses an Agilent LC-1200 series HPLC, 0.2 M sodium
pH 5.0 mobile phase, Tosoh TSK-gel G2000 SWxl column with Tosoh TSK-gel Guard SWxl, Waters 2487 dual wavelength UV detector,
Wyatt Optilab rEX refractive index detector. For MALS analysis, the UV detector was replaced with a Wyatt miniDAWN TREOS detector;
all other method aspects remained the same.
Figure 2: Examples of LS and RI traces for an LMWH sample.
The results indicated that both detection types are suitable and acceptable for the analysis of
LMWHs. The molecular weight and distribution results generated using each detection type are comparable. This indicates that
SEC–MALS method could be adopted in place of the SEC–UV–RI method currently required by the EP monograph, and that
it would result in less time because it obviates the need for calibration standards.
This note was graciously submitted by Lin Rao and John Beirne of Scientific Protein Laboratories
Wyatt Technology Corporation
6300 Hollister Avenue, Santa Barbara, California 93117, USA
Tel: +1 (805) 681
9009 fax: + 1 (805) 681 0123