Each ampoule contains the residue after freeze-drying of 1 ml of phosphate buffered saline containing: Nominally, 160 ng TGF b-1 0.6%; human serum albumin. The ampoules do not contain bacteriostat.

The assigned potency is 3,000 reference units (RU) per ampoule.

The preparation contains material of human origin which has been tested and found negative for HBsAg and HIV antibody. However, as with all materials of biological origin, this preparation should be regarded as potentially hazardous to health. It should be used and discarded according to your own laboratory's safety procedures. Such safety procedures probably will include the wearing of protective gloves and avoiding the generation of aerosols. Care should be exercised in opening ampoules or vials, to avoid cuts. This preparation is not for administration to humans.

For all practical purposes, each ampoule contain the same quantity of the substances listed above. Dissolve the total contents of the ampoule with 0.5 ml of sterile distilled water. Rinse the ampoule with 0.4 ml of distilled water and make up the total volume to 1 ml with distilled water. This solution should be now at a concentration of 3,000 units/ml. Use carrier protein where extensive dilution is required. No attempt should be made to weigh out any portion of tex freeze-dried material.

Unopened ampoules should be stored at -20oC. For economy use, it is recommended that the solution be sub-divided into several small aliquots an stored at -40oC or below.

In all publications in which this preparation is used as an assay calibrant, it is important that the title of the preparation and ampoule code be cited correctly.

This reagent is available in small amounts (approximately 0.16 microgram/sample) for use in the calibration of in vitro bioassays and in-house standards only and are not to be used for experimental purposes. Reference reagents are available to investigators with peer-reviewed support, at institutions or at commercial establishments and are limited to one sample of each reagent per year.