A rare late complication after concomitant chemoradiation of an oropharyngeal tumor: cervical necrotizing fasciitis.

Chemoradiation is increasingly being used to treat locally advanced head and neck carcinomas. Possible rare complications of this treatment modality have begun to appear, as the number of treated patients increase. In this report, we present a case who underwent chemoradiation due to T3N3M0 tonsil cancer and developed necrotizing fasciitis of the neck at seven months following treatment.

Serum proteomic patterns for ovarian cancer monitoring.

We set out to discover ovarian cancer biomarkers useful for monitoring progression during and after chemotherapy and possibly for diagnosis. Surface-enhanced laser desorption/ionization time-of-flight mass spectrometry was used to create serum protein profiles of ovarian cancer patients before chemotherapy or at progression (n = 51) (trial initiated by the Gynecological Cancer Cooperative Group of the European Organization for Research and Treatment of Cancer trial) that were compared with those of healthy individuals (n = 31). In addition, sera profiles from ovarian cancer patients after chemotherapy (n = 12) were compared with those of ovarian cancer patients at progression (n = 24).

Protein oxidation in aging: endoplasmic reticulum as a target.

Oxidatively modified proteins have been shown to correlate with the age of an organism or its tissues. An increase in tissue-susceptibility to experimentally induced protein oxidation not only depends on tissue type and age, but also on the maximum lifespan potential of the species. A general, although tissue dependent, decline in anti-oxidative defenses during aging may very well be responsible for this difference in vulnerability.

Oxidation of ER resident proteins upon oxidative stress: effects of altering cellular redox/antioxidant status and implications for protein maturation.

Previous work showed that from all cellular proteins, the endoplasmic reticulum (ER) resident proteins are most sensitive to oxidative stress [hydrogen peroxide (H(2)O(2))], as determined using the oxidation-sensitive, membrane-permeable, acetylTyrFluo probe. Because of the importance of these proteins in proper cellular functioning, we studied (a) whether modifying the cellular redox state/antioxidant status alters the susceptibility of those proteins toward H(2)O(2) oxidative stress and (b) whether H(2)O(2) affects ER function with regard to protein folding. The cellular redox and/or antioxidative capacity was modified in several ways.