Determination of lipid peroxides in invertebrates tissues using the Fe(III) xylenol orange complex formation.

Reactive oxygen species (ROS) are subproducts of the oxidative metabolism known to initiate chain reactions with polyunsaturated fatty acids that generate lipid peroxides (LPO). The objective of this work was to adapt the ferrous oxidation/xylenol orange (FOX) assay to measure LPO in invertebrate tissues i.e.: from polychaeta (Laeonereis acuta) and crab (Chasmagnathus granulata) species. Whole polychaetes were homogenized in methanol 100%, being determined the optimal sample volume and the time required for color development. It was tested five sample volumes (8-30 microl), following color development up to 215 min. Absorbance stabilization was observed after 90 min, being linearly related with sample volume. A similar procedure was adopted for crab tissues (anterior gills, posterior gills, and hepatopancreas). Differences between species and between organs of the same species were observed when analyzed nonspecific absorbance increments after adding the standard cumene hydroperoxide (CHP). In polychaeta and crab anterior gills tissue, absorbance increments were lower (21-25%) than samples without tissue extracts (blanks) that received CHP. In crab posterior gills and hepatopancreas, the nonspecific increment was almost negligible. Correction formulae are given to account for these differences and simplified protocols for each tissue and species are also included. Great differences in the lipid peroxides content was detected between worms (127.05 +/- 19.32 nmoles CHP/g of wet tissue) respect to anterior gills, posterior gills, and hepatopancreas from the crab species (52.65 +/- 3.59, 30.54 +/- 4.73, and 48.51 +/- 8.78 nmoles CHP/g of wet tissue, respectively).

[Importance of the stapedial reflex in the diagnosis of several pathologies]. / L'importance du réflexe stapédien dans le diagnostic de plusieurs pathologies.

The stapedius muscle plays an important role in auditory physiology. Its function may be assessed using a test named impedancemetry, where its reflex is measured. For the stapedial reflex to function, it is necessary that the middle ear and the afferent and efferent pathways are intact. Several pathologies of the middle and internal ear, as well as other otoneurological disorders and systemic illnesses, may change the physiology of the stapedius muscle. This review has incorporated various bibliographic sources with the objective to show the modifications of the stapedial reflex in several types of pathology. It reveals that the research of the stapedial reflex as well as its interpretation constitute a very important diagnostic supplement in the clinical audiology.