Complex histopathologic response in rat kidney to oral ß-myrcene: an unusual dose-related nephrosis and low-dose alpha2u-globulin nephropathy.

Oral gavage studies with ß-myrcene in male F344 rats showed a complex renal pathology comprising both alpha2u-globulin (α2u-g) nephropathy, an unusual nephrosis involving the outer stripe of outer medulla (OSOM), and an increased incidence of renal tubule tumors by 2 years. In the 90-day and 2-year studies, respectively, α2u-g nephropathy and linear papillary mineralization were observed in males at the two lower doses but were absent from the high dose. Nephrosis was characterized by dilation of the S3 tubules, nuclear enlargement (including karyomegaly), and luminal pyknotic cells, all in the outermost OSOM. Nephrosis was minimal at the higher doses in the 90-day study, but progressed to a severe grade in males dosed with 1,000 mg/kg for 2 years. Renal tubule tumors developed in treated groups with incidences up to 30% in the 250 and 500 mg/kg male dose groups. Tumors at the lower doses in males may have been associated with α2u-g nephropathy, while those at higher doses in both sexes may have been due to the nephrosis. Because ß-myrcene induced a complex spectrum of renal pathology, the α2u-g nephropathy mechanism cannot be the sole mechanism of carcinogenesis in these rats.

Modern pathology methods for neural investigations.

This session at the 2010 joint symposium of the Society of Toxicologic Pathology (STP) and the International Federation of Societies of Toxicologic Pathologists (IFSTP) explored modern neuropathology methods for assessing the neurotoxicologic potential of xenobiotics. Conventional techniques to optimally prepare and evaluate the central and peripheral neural tissues while minimizing artifact were reviewed, and optimal schemes were set forth for evaluation of the nervous system during both routine (i.e., general toxicity) studies and enhanced (i.e., specialized neurotoxicity) studies. Stereology was introduced as the most appropriate means of examining the possible impact of toxicants on neural cell numbers. A focused discussion on brain sampling took place among a panel of expert neuroscientists (anatomists and pathologists) and the audience regarding the proper balance between sufficient sampling and cost- and time-effectiveness of the analysis. No consensus was reached on section orientation (coronal sections of both sides vs. a parasagittal longitudinal section with several unilateral hemisections from the contralateral side), but most panelists favored sampling at least 8 sections (or approximately double to triple the current complement) in routine toxicity studies.

Choice of morphometric methods and consequences in the regulatory environment.

In certain cases, quantitative tissue structural data derived from tissue sections may be required to make critical decisions in the drug development or risk assessment process. Most frequently, these questions center on test article-related effects on cell number. In this opinion article, the limitations of estimating cell number by standard cell or nuclear profile counts from sections/blocks collected for routine histopathology are discussed from both a scientific and regulatory perspective and contrasted with the robust, sensitive, statistically based methods of design-based stereology. Specific existing industry practices are reviewed. Recent advances in stereological theory, software, hardware, and automated immunohistochemical staining now make it feasible to implement unbiased stereological methods to assess test article-related effects on cell number in a regulatory toxicology setting. These design-based stereological methods for counting cells are recommended when the quantification of small changes in cell number is critical to the risk assessment or decision-making process. These methods provide levels of sensitivity and statistical guarantees of accuracy that no other currently available tissue section-based methodology can provide.