- Please refer to the various manufacturers data sheets to select an appropriate syringe filter with: (1) a low hold-up volume; (2) large enough size for the volume of sample; (3) which is chemically compatible with the solution and material you are going to inject through it and (4) lowest protein binding affinity (if applicable).
- To reduce the hold-up volume, use a post-filtration air purge to empty the filter.
- Minimize contamination from extractables (in the plastic) by pre-rinsing the filter membrane with some of the clean solution. This can reduce the amount of detectable extractables in your sample. PTFE based membranes have some of the lowest extractable levels so consider their use if this is an issue.
- If analyte binding is a concern, select one of the membranes which has the lowest binding affinity such as PVDF or PTFE.
Saturday, November 15, 2014
Syringe Filter Selection for HPLC or LC/MS samples
This article will address the use of disposable female, Luer-compatible, syringe filters without built-in pre-filters for the filtration of individual samples into vials for HPLC or LC/MS analysis. - Note: 96 or 384 multi-well filtering plates provide for a better solution when large quantities of samples need to be filtered.
The choice of syringe filter depends on the size (volume) of your sample and the chemical compatibility of the housing and membrane. Selection of the wrong filter size can result in too much sample holdup volume (loss of sample on filter) or overloading of the filter (allowing unfiltered material to pass through). If a membrane or housing is chosen which is not chemically compatible with your solution, then contamination of the sample or rupture of the assembly can result. Protein binding affinity is another characteristic of filter membranes and if you are filtering samples of biological interest, then you will also want to consider this specification in your selection criteria too (though it will not be discussed in this article).
Syringe Filter Size:
Filters are available in a variety of sizes which are generally in a disc shape and described by their diameter. Common sizes available for chromatography samples include: 3mm, 13mm and 25mm (~25-30mm) diameter discs. The larger the diameter of the disc, the larger the sample capacity, cross sectional surface area and potential hold-up volume of the sample on the filter.
Hold-up volume is important because some of the sample will be retained inside the membrane and/or filter housing. If too large a filter is selected, samples with small volumes could be lost entirely in the hold-up volume on the membrane. Smaller filters have lower hold-up volumes. To extract as much sample as possible, be sure and use a post-filtration air purge to reduce the total hold-up volume.
If the volume of the sample you wish to filter is under 1ml, then a 3mm filter may provide the lowest hold-up volume and require the smallest amount of solution. To filter samples between 1ml and 10ml, the 13mm diameter filter provides a good balance between hold-up volume and large filter surface area. Larger sample volumes from 5ml to 50ml are often filtered through the more common 25mm diameter filters (~4 times the filtration area as a 13mm disc).
Housing Materials: Most chromatography grade syringe filters are constructed of either HDPE or PP. These materials are compatible with a wide range of solvents and both offer low levels of extractables. HDPE has been reported to be more chemically compatible with aqueous basic solutions of NH4OH than PP.
Membrane Material: This is where you really must consult the manufacturer’s own documentation for the most compatible filter membrane for both your sample and the solution that will flow through the filter. To simplify the selection criteria, we can make some generalizations about some of the different types available:
Cellulose Acetate (CA): Use with aqueous solutions and a few hydrocarbons only. Low protein binding so good for many biological samples. Not compatible with ACN or DMSO. Can be autoclaved.
Nylon: Great general purpose material and compatible with many HPLC solvents (including THF, alcohols, ACN), but not strong acids. Nylon has a high affinity to bind proteins. Can be autoclaved.
Polysulfone / Polyethersulfone Variants (PS / PES): Commonly used with tissue culture and ion chromatography samples. Stable with many strong bases and alcohols, but few HPLC solvents (as it is hydrophilic). Low backpressure and low protein binding. Not compatible with ACN. Can be autoclaved.
Polypropylene (PP): General purpose hydrophilic material with resistance to most acids, bases, DMF, DMSO and alcohols. Not recommended for use with hydrocarbons, esters or solvents such as ACN. Can be autoclaved.
Polyvinylidene difluoride (PVDF): Hydrophilic material with broad compatibility. Often a good choice for use with alcohols, hydrocarbons, biomolecules, ether and ACN. Low protein binding. Can be autoclaved.
Polytetrafluoroethylene (PTFE): Reported in most brochures to be chemically resistant to almost all solvents, strong acids and bases. Hydrophobic membrane should be pre-wetted when used with aqueous solutions. Low protein binding and very strong. Can be autoclaved.