Two-generation reproductive toxicity study of resorcinol administered via drinking water to Crl:CD(SD) Rats.

The potential adverse effects of resorcinol, delivered via drinking water at 0, 120, 360, 1000, and 3000 mg/L (palatability limit), were assessed in a regulatory guideline compliant two-generation reproduction study in Crl:CD(SD) rats. Expanded end points of thyroid gland (TG) function were added because of clinical case reports indicating human TG toxicity. Average daily resorcinol intake (mg/kg) at the 3000 mg/L concentration was 233 in F0 and F1 males, whereas in females it was 304 (premating/gestation) and 660 (lactation). No resorcinol ingestion-related clinical signs of toxicity were observed. Furthermore, neither gross morphologic anomalies nor effects on reproductive function or thyroid hormone levels were detectable. Body weight reductions occurred in 3000 mg/L F0 and F1 animals and were more pronounced in males. However, there was no evidence of either cumulative toxicity in the second generation or of enhanced sensitivity to resorcinol in pregnant/lactating females. Water intake was lower in 3000 mg/L rats of both generations and intermittently, to a lesser extent, at 1000 mg/L; however, concurrent feed intake and utilization were unaffected. Decreased TG follicular colloid content (conventional histopathology; confirmed by quantitative stereomicroscopy) in the 3000 mg/L F0 males was attributed to resorcinol but not considered adverse. The 3000 mg/L intake level appeared to have caused an adaptive thyroid response to a new homeostatic level with no adverse physiological consequences in either males (the more susceptible gender) or females. There were no differences in TG histology in F0 rats of either sex at 1000 mg/L. Thus, resorcinol intake at maximum palatability via a route and mode relevant to potential human exposures via contaminated drinking water at presently unknown environmental concentrations caused no detectable adverse effects on any reproduction or TG end points. The 3000 mg/L resorcinol exposure level was the no-observed-adverse-effect level (NOAEL) for parental systemic and offspring toxicity, while 1000 mg/L was the no-observed-effect level (NOEL).

Pathology of experimental inhalation anthrax in the rhesus monkey.

BACKGROUND: The inhalation form of anthrax, although rare, is nearly always fatal because of the rapid progression of the disease with little host response until the terminal stages of the disease. The Gulf War heightened the concern that anthrax could be used as a biologic weapon. Past studies modeling pathologic changes in human inhalation anthrax have used the rhesus monkey. EXPERIMENTAL DESIGN: We studied pathologic changes in the rhesus monkey model of inhalation anthrax. Gross examination as well as light and electron microscopy were used to define pathologic alterations. Immunolabeling techniques were used to identify the anthrax bacillus by light and electron microscopy. RESULTS: Gross changes included hemorrhage in mesenteric (54%) and tracheobronchial (46%) lymph nodes, meninges (38%), lungs (31%), and small intestinal serosa (31%). Histopathologic changes included suppurative meningitis (77%); hemorrhages in the meninges (54%), neuropil (31%), and pulmonary alveoli (31%); and pneumonia (15%). Spleens and various lymph nodes from all monkeys had one or more of the following changes: hemorrhage, acute inflammation, extracellular bacilli, lymphocytic depletion, and histiocytosis. Spleens of two monkeys were devoid of extracellular bacilli, but degraded intrahistiocytic bacilli reacted with Ab to Bacillus anthracis cell wall polysaccharide. CONCLUSIONS: In our study, compared with previous reports, meningitis and mesenteric lymph node hemorrhages were more common, whereas mediastinal and tracheobronchial lymph node hemorrhages were less common. Immunostaining highlighted intracellular bacilli that would have been otherwise missed by light microscopic examination.

Tissue distribution, excretion and hepatic biotransformation of microcystin-LR in mice.

The distribution, excretion and hepatic metabolism of [3H]microcystin-LR (sublethal i.v.) were measured in mice. Plasma elimination was biexponential with alpha- and beta-phase half-lives of 0.8 and 6.9 min, respectively. At 60 min, liver contained 67 +/- 4% of dose. Through the 6-day study the amount of hepatic radioactivity did not change whereas 23.7 +/- 1.7% of the dose was excreted; 9.2 +/- 1.0% in urine and 14.5 +/- 1.1% in feces. Approximately 60% of the urine and fecal radiolabel 6 and 12 hr postinjection was the parent toxin. Hepatic cytosol, which contained 70 +/- 2% of the hepatic radiolabel (1 hr through 6 days), was prepared for high-performance liquid chromatography analysis by heat denaturation, pronase digestion and C18 Sep Pak extraction. At 1 hr, 35 +/- 2% of the radiolabel was insoluble or C18 Sep Pak-bound; 43 +/- 3% was associated with a peak of retention time (rt) 6.6 min, and 16 +/- 3% with the parent toxin (rt 9.4 min). After 6 days, 8 +/- 1% was C18 Sep Pak-bound or insoluble; 5 +/- 0% occurred at rt 6.6 min, 17 +/- 1% with parent and 60 +/- 2% was associated with rt 8.1 min. Two other peaks, rt 4.9 and 5.6 min, appeared transiently. Analysis of hepatic cytosol by desalting chromatography under nondenaturing and denaturing conditions revealed that all of the radiolabel was associated with cytosolic components, and 83 +/- 5% was bound covalently through 1 day. By day 6 the amount of covalently bound isotope decreased to 42 +/- 11%. This is the first study to describe the long-term hepatic retention of microcystin toxin and documents putative detoxication products.

Hepatotoxicity of microcystin-LR in fed and fasted rats.

The LD50 (25 hr, i.p.) for microcystin-LR in fed rats (122 micrograms/kg) was significantly higher than that in fasted rats (72 micrograms/kg). At doses of 100, 150 and 200 micrograms of microcystin-LR per kg, the median times to death were 31.9, 18.2 and 11.2 hr for fed rats, and 1.8, 1.7 and 1.5 hr for fasted rats. A sublethal dose of microcystin (50 micrograms/kg) afforded protection to fasted, but not fed, rats against a subsequent lethal dose (200 micrograms/kg) challenge given 72 hr later. Biochemical and ultrastructural changes resulting from microcystin-LR (100 micrograms/kg, i.p.) were compared in fed and fasted rats 1 hr after injection. In both groups, liver weight and serum levels of sorbitol dehydrogenase and glucose significantly increased. Plasma membranes, isolated from livers of fed or fasted rats, exhibited similar toxin-induced changes in associated cytoskeletal elements. Liver mitochondria from toxin-treated, fasted rats exhibited complete inhibition of state 3 respiration, while those from toxin-treated, fed rats had ADP/O ratios and respiratory control indices comparable to control values. The primary event responsible for enhanced microcystin hepatotoxicity in the fasted state has not yet been identified. Depletion of glycogen stores and a decreased respiratory capacity may, however, play significant roles in this degenerative process.

No effect of modulators of reactive oxygen-induced pathology on microcystin-LR intoxication.

Because reactive oxygen species are formed during the metabolism of several toxins that cause similar pathologic changes, we hypothesized that compounds that alter the concentration of reactive oxygen species would alter the toxic effects of the peptide-hepatotoxin produced principally by Microcystis aeruginosa. Pretreatment with alloxan, butylated hydroxyanisole or desferrioxamine did not alter the severity of microcystin-LR intoxication in fed mice. Furthermore, fasting mice for 24 hr before testing, which unmasks lipid peroxidation in paracetamol intoxication, did not alter the effect of butylated hydroxyanisole pretreatment.

Epidemiology of human rabies post-exposure prophylaxis at the US Naval Facility, Subic Bay, Philippines.

Data collected during 1984 from an active animal rabies surveillance system and human rabies post-exposure prophylaxis program at the US Naval Hospital, Subic Bay Naval Facility, Philippines revealed that potential rabies exposure, most commonly from dog bites or scratches, was reported for 311 US military and civilian personnel and four Filipino employees working on the facility. Seventy-nine persons (25 per cent) required complete post-exposure prophylaxis. Brain tissue from two captured dogs implicated in attacks was subsequently found to be positive for rabies antigen on fluorescent antibody testing.