Abstract
This article discusses the results of studies that utilized Electron Spectroscopy for Chemical Analysis (ESCA), a surface analytical technique, in conjunction with Ar− ion milling, a method of depth profiling, to examine some borosilicate glass containers. The ESCA depth profiling experiments invoiced several elemental analyses (Na, Ba, O, B, Si, Al, and C) for both the product-contact surface and various depths (0.01–0.30 μm) beneath the surface. Untreated vials. (NH4)2SO4 treated vials, and (NH4)2SO4 treated ampoules were analyzed in this study. The experiments included both unprocessed and processed containers as well as vials and ampoules that were exposed to various aqueous media (H20. pH = 8 buffer, and pH = 10 buffer) for ≃ 6 months at room temperature. Assuming the samples were representative of most (NH4)2SO4 treated and untreated containers, the results indicate that ESCA depth profiling studies can distinguish an (NH4)2SO4 treated container from an untreated one for unprocessed and processed containers as well as containers that are exposed to aqueous media. In general, treated samples were unaffected by processing and long-term, room-temperature exposure to H20 or a pH = 8 buffer. In contrast, washing and sterilizing operations led to significant changes in the surface and near surface composition of untreated containers, and six-month, room-temperature exposure to H20 or a pH = 8 buffer resulted in some additional changes. Also, the data indicated glass dissolution had occurred for both treated and untreated containers that had been processed and exposed to pH = 10 media. Finally, the results suggested that significant differences in the surface/near surface composition can lead to significant differences in the extractable behavior of borosilicate glass containers.
- Received April 24, 1989.
- Accepted December 15, 1989.
- Copyright © Parenteral Drug Association. All rights reserved.
PDA members receive access to all articles published in the current year and previous volume year. Institutional subscribers received access to all content. Log in below to receive access to this article if you are either of these.
If you are neither or you are a PDA member trying to access an article outside of your membership license, then you must purchase access to this article (below). If you do not have a username or password for JPST, you will be required to create an account prior to purchasing.
Full issue PDFs are for PDA members only.
Note to pda.org users
The PDA and PDA bookstore websites (www.pda.org and www.pda.org/bookstore) are separate websites from the PDA JPST website. When you first join PDA, your initial UserID and Password are sent to HighWirePress to create your PDA JPST account. Subsequent UserrID and Password changes required at the PDA websites will not pass on to PDA JPST and vice versa. If you forget your PDA JPST UserID and/or Password, you can request help to retrieve UserID and reset Password below.