Identification of nonlipophilic corynebacteria isolated from dairy cows with mastitis.
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Nonlipophilic corynebacteria associated with clinical and subclinical mastitis in dairy cows were found to belong to four species: Corynebacterium amycolatum, Corynebacterium ulcerans, Corynebacterium pseudotuberculosis, and Corynebacterium minutissimum. These species may easily be confused. However, clear-cut differences between C. ulcerans and C. pseudotuberculosis were found in their acid production from maltotriose and ethylene glycol, susceptibility to vibriostatic agent O129, and alkaline phosphatase. Absence of growth at 20 degrees C and lack of alpha-glucosidase and 4MU-alpha-D-glycoside hydrolysis activity differentiated C. amycolatum from C. pseudotuberculosis and C. ulcerans. The mastitis C. pseudotuberculosis strains differed from the biovar equi and ovis reference strains and from caprine field strains in their colony morphologies and in their reduced inhibitory activity on staphylococcal beta-hemolysin. C. amycolatum was the most frequently isolated nonlipophilic corynebacterium. (+info)
Fomepizole for the treatment of ethylene glycol poisoning. Methylpyrazole for Toxic Alcohols Study Group.
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BACKGROUND: Ethylene glycol poisoning causes metabolic acidosis and renal failure and may cause death. The standard treatment is inhibition of alcohol dehydrogenase with ethanol, given in intoxicating doses, and adjunctive hemodialysis. We studied the efficacy of fomepizole, a new inhibitor of alcohol dehydrogenase, in the treatment of ethylene glycol poisoning. METHODS: We administered intravenous fomepizole to 19 patients with ethylene glycol poisoning (plasma ethylene glycol concentration, > or =20 mg per deciliter [3.2 mmol per liter]). Patients who met specific criteria also underwent hemodialysis. Treatment was continued until plasma ethylene glycol concentrations were less than 20 mg per deciliter. Acid-base status, renal function, the kinetics of fomepizole, and ethylene glycol metabolism were assessed at predetermined intervals. RESULTS: Fifteen of the patients initially had acidosis (mean serum bicarbonate concentration, 12.9 mmol per liter). Acid-base status tended to normalize within hours after the initiation of treatment with fomepizole. One patient with extreme acidosis died. In nine patients, renal function decreased during therapy; at enrollment, all nine had high serum creatinine concentrations and markedly elevated plasma glycolate concentrations (> or =97.7 mg per deciliter [12.9 mmol per liter]). None of the 10 patients with normal serum creatinine concentrations at enrollment had renal injury during treatment; all 10 had plasma glycolate concentrations at or below 76.8 mg per deciliter (10.1 mmol per liter). Renal injury was independent of the initial plasma ethylene glycol concentration. The plasma concentration of glycolate and the urinary excretion of oxalate, the major metabolites of ethylene glycol, uniformly fell after the initiation of fomepizole therapy. Few adverse effects were attributable to fomepizole. CONCLUSIONS: In patients with ethylene glycol poisoning, fomepizole administered early in the course of intoxication prevents renal injury by inhibiting the formation of toxic metabolites. (+info)
Vitrification of mouse germinal vesicle oocytes: effect of treatment temperature and egg yolk on chromatin and spindle normality and cumulus integrity.
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The success rates for cryopreservation of immature oocytes from several species including human remain low, in contrast to major improvements with mature oocytes. In this study, a new approach has been developed using a short exposure ultra-rapid freezing protocol, examining the effect of temperature and egg yolk (two factors which may be expected to influence membrane flexibility) on the cryostability of immature mouse oocytes and cumulus complexes. These two factors were tested in various patterns for their cryoprotective effect using ethylene glycol as the principal cryoprotectant. The results showed that 37 degrees C pre- and post-freeze exposure significantly improved both survival and normal spindle configuration after in-vitro maturation. Egg yolk was found to produce further beneficial effects on both the oocyte and cumulus cell integrity, with the best effects being obtained at 37 degrees C with inclusion of egg yolk both before and after the freezing. This protocol produced > 80% normal survival post-thaw with intact and attached cumulus complex, 84% maturation rate and 45% normal metaphase configuration. In summary, a unique combination of high survival and meiotic normality together with good preservation of the attached cumulus cell mass has been achieved using a simple new vitrification procedure. (+info)
Effects of cryoprotectants and ice-seeding temperature on intracellular freezing and survival of human oocytes.
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The accurate determination of the freezing conditions that promote intracellular ice formation (IIF) is crucial for designing cryopreservation protocols for cells. In this paper, the range of temperatures at which IIF occurs in human oocytes was determined. Fresh oocytes with a germinal vesicle, failed-to-fertilize (metaphase I and metaphase II stages) and polyspermic eggs were used for this study. The occurrence of IIF was first visualized at a cooling rate of 120 degrees C/min using a programmable thermal microscope stage connected to a videomicroscope. Then, with a cooling rate of 0.2 degrees C/min, the seeding temperature of the extracellular ice was modified to decrease the incidence of IIF and increase the survival rate of frozen-thawed human oocytes. After adding different cryoprotectants, the median temperature of IIF (TMED) was decreased by approximately 23 degrees C in mouse and only by approximately 6.5 degrees C in human oocytes. Using 1.5 M propylene glycol and seeding temperatures of -8.0, -6.0 and -4.5 degrees C, the incidence of IIF was 22/28 (78%), 8/24 (33%) and 0/33 (0%) and the 24 h post-thaw survival rate was 10/31(32%), 19/34 (56%) and 52/56 (93%) respectively. The results show that IIF occurs more readily in human oocytes, and that ice seeding between -6 degrees C and -8 degrees C triggers IIF in a large number of human oocytes. Undesirable IIF can be prevented and survival rates maximized by raising the seeding temperature as close as possible to the melting point of the solution, which in our instrument was -4.5 degrees C. (+info)
Effects of cryopreservation procedures on the cytology and fertilization rate of in vitro-matured bovine oocytes.
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The survival and developmental capacity of bovine oocytes after cryopreservation are greatly impaired, possibly due to organelle damage caused by freezing procedures. Distributions of chromosomes, microtubules, and microfilaments in bovine oocytes matured in vitro were examined after cooling, ethylene glycol (EG) exposure, or freezing. Oocytes were incubated after treatment for 20 min or 1 or 3 h, fixed, and evaluated using specific fluorescent probes. Abnormal cytological features increased over control levels after cooling or EG exposure and rewarming. Changes observed in oocytes during prefreezing manipulations included chromosome dispersal and clumping, microtubule depolymerization and alteration of spindle structure, and formation of craters and discontinuity in cytoskeletal actin staining. Freezing also led to an increase in the occurrence of cytological abnormalities. Less than 31% of frozen-thawed oocytes contained a normal chromosome arrangement 3 h postthaw (versus 90% of controls). Only 7-14% of frozen-thawed oocytes had normal spindles (versus 59-71% of controls). Normal distribution of filamentous actin was observed in less than 30% of oocytes postthaw (versus 62-89% of controls). These results indicate that the steps in a conventional freezing procedure cause irreversible alterations in multiple cytological components of bovine oocytes, demonstrating the need for improved strategies for preventing cellular damage during cryopreservation procedures. (+info)
Inhibitory effects of female sex hormones on urinary stone formation in rats.
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BACKGROUND: The effects of female sex hormones on urinary stone formation are not known. This study was conducted to investigate the effects of these hormones on stone formation by using an ethylene glycol (EG) and vitamin D-induced rat urolithiasis model. METHODS: Adult female Wistar rats were fed the same diet for four weeks and were then divided into four groups (N = 10 each). One group was administered 0.5 ml of olive oil three times per week for four weeks as a control. The other three groups were administered 0. 5 microg of vitamin D3 and 0.5 ml of 5% EG three times per week for four weeks. The rats in two of these three groups were oophorectomized, and the rats of the remaining group underwent a sham operation on the day before the start of the four-week treatment period. One of the two oophorectomized groups was then administered a supplementation of female sex hormones (0.1 mg of estrogen and 2.5 mg of progesterone 3 times per week for 4 weeks). On the first day of the fifth week of the experimental period, the degree of crystal deposition was determined histologically, and the calcium content in renal tissue was measured. We also investigated the level of osteopontin (OPN) mRNA in renal tissues by Northern blot analysis. OPN is a matrix protein thought to be a promoter of stone formation. RESULTS: The urinary oxalate excretion, crystal deposition and calcium content in renal tissue and the expression of OPN-mRNA were greater in the oophorectomized rats compared with the controls, and the same parameters were inhibited by the female sex hormone supplementation. CONCLUSIONS: These results suggest that female sex hormones can inhibit renal crystal deposition in EG-treated rats by suppressing the urinary oxalate excretion and the expression of OPN. (+info)
Ethylene glycol developmental toxicity: unraveling the roles of glycolic acid and metabolic acidosis.
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This study sought to determine the relative roles of glycolic acid (GA), a toxicologically important metabolite of ethylene glycol (EG), and metabolic acidosis in causing developmental toxicity in Sprague-Dawley rats. To tease apart these two interrelated factors, we developed an experimental approach in which high blood glycolate levels could be achieved, in either the presence or absence of metabolic acidosis. Initially, rats previously implanted with a carotid artery cannula were given, on gestation day (gd) 10, 40.3 mmol/kg (2500 mg/kg) of EG via gavage, 8.5 mmol/kg (650 mg/kg) of GA via gavage, 8.5 mmol/kg (833 mg/kg) of sodium glycolate (NaG; pH 7.4) via subcutaneous (sc) injection, or distilled water via gavage (control). Peak serum glycolate was nearly identical (8.4-8.8 mM) in the EG, GA, and NaG groups and, as expected, EG and GA caused a metabolic acidosis, but acid base balance was normal with NaG. Subsequently, these treatments were given on gd 6-15 to groups of 25 time-mated rats, followed by fetal evaluation on gd 21. EG and GA decreased fetal body weights and caused a similar spectrum of developmental effects, including numerous axial skeleton malformations. NaG treatment also caused slight decreases in fetal body weight, increases in skeletal variations, and totally malformed fetuses. These results indicate that glycolate, in the absence of metabolic acidosis, can cause the most sensitive of EG's developmental effects, whereas metabolic acidosis appears to interact with glycolate at very high doses to markedly enhance teratogenesis. These results support previous studies, which indicated that glycolate is the proximate developmental toxicant for EG, and that GA toxicokinetic parameters can be used to define a quantitative, physiologically based threshold for EG-induced developmental effects. (+info)
Therapeutic drug monitoring in drug overdose.
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The treatment of poisoned patients is still largely defined by history, clinical assessment and interpretation of ancillary investigations. Measurement of drug concentrations is clinically important for relatively few compounds. Most measurements form an adjunct to and should not be considered a substitute for clinical assessment. Drug concentrations are particularly important for those compounds where the concentration is predictive of serious toxicity in an otherwise asymptomatic patient. (+info)