Volcanic glass from the 1.8 ka Taupo eruption (New Zealand) detected in Antarctic ice at ~ 230 CE.

Chemical anomalies in polar ice core records are frequently linked to volcanism; however, without the presence of (crypto)tephra particles, links to specific eruptions remain speculative. Correlating tephras yields estimates of eruption timing and potential source volcano, offers refinement of ice core chronologies, and provides insights into volcanic impacts. Here, we report on sparse rhyolitic glass shards detected in the Roosevelt Island Climate Evolution (RICE) ice core (West Antarctica), attributed to the 1.8 ka Taupo eruption (New Zealand)-one of the largest and most energetic Holocene eruptions globally. Six shards of a distinctive geochemical composition, identical within analytical uncertainties to proximal Taupo glass, are accompanied by a single shard indistinguishable from glass of the ~25.5 ka Oruanui supereruption, also from Taupo volcano. This double fingerprint uniquely identifies the source volcano and helps link the shards to the climactic phase of the Taupo eruption. The englacial Taupo-derived glass shards coincide with a particle spike and conductivity anomaly at 278.84 m core depth, along with trachytic glass from a local Antarctic eruption of Mt. Melbourne. The assessed age of the sampled ice is 230 ± 19 CE (95% confidence), confirming that the published radiocarbon wiggle-match date of 232 ± 10 CE (2 SD) for the Taupo eruption is robust.

Survival of presolar p-nuclide carriers in the nebula revealed by stepwise leaching of Allende refractory inclusions.

The 87Rb-87Sr radiochronometer provides key insights into the timing of volatile element depletion in planetary bodies, yet the unknown nucleosynthetic origin of Sr anomalies in Ca-Al-rich inclusions (CAIs, the oldest dated solar system solids) challenges the reliability of resulting chronological interpretations. To identify the nature of these Sr anomalies, we performed step-leaching experiments on nine unmelted CAIs from Allende. In six CAIs, the chemically resistant residues (0.06 to 9.7% total CAI Sr) show extreme positive µ84Sr (up to +80,655) and 87Sr variations that cannot be explained by decay of 87Rb. The extreme 84Sr but more subdued 87Sr anomalies are best explained by the presence of a presolar carrier enriched in the p-nuclide 84Sr. We argue that this unidentified carrier controls the isotopic anomalies in bulk CAIs and outer solar system materials, which reinstates the chronological significance of differences in initial 87Sr/86Sr between CAIs and volatile-depleted inner solar system materials.

Comment on "Rapid cooling and cold storage in a silicic magma reservoir recorded in individual crystals".

Rubin et al (Reports, 16 June 2017, p. 1154) proposed that gradients in lithium abundance in zircons from a rhyolitic eruption in New Zealand reflected short-lived residence at magmatic temperatures interleaved with long-term "cold" (<650°C) storage. Important issues arise with the interpretation of these lithium gradients and consequent crystal thermal histories that raise concerns about the validity of this conclusion.

New Zealand supereruption provides time marker for the Last Glacial Maximum in Antarctica.

Multiple, independent time markers are essential to correlate sediment and ice cores from the terrestrial, marine and glacial realms. These records constrain global paleoclimate reconstructions and inform future climate change scenarios. In the Northern Hemisphere, sub-visible layers of volcanic ash (cryptotephra) are valuable time markers due to their widespread dispersal and unique geochemical fingerprints. However, cryptotephra are not as widely identified in the Southern Hemisphere, leaving a gap in the climate record, particularly during the Last Glacial Maximum (LGM). Here we report the first identification of New Zealand volcanic ash in Antarctic ice. The Oruanui supereruption from Taupo volcano (25,580 ± 258 cal. a BP) provides a key time marker for the LGM in the New Zealand sector of the SW Pacific. This finding provides a high-precision chronological link to mid-latitude terrestrial and marine sites, and sheds light on the long-distance transport of tephra in the Southern Hemisphere. As occurred after identification of the Alaskan White River Ash in northern Europe, recognition of ash from the Oruanui eruption in Antarctica dramatically increases the reach and value of tephrochronology, providing links among climate records in widely different geographic areas and depositional environments.

Bupropion: a review of its mechanism of antidepressant activity.

BACKGROUND: The mechanism of action of the novel antidepressant bupropion remains unclear after many years of study. A review of the relevant biochemical, in vivo brain microdialysis, electrophysiologic, behavioral, and clinical data clarifies what is known about this unique compound and suggests possible modes of action. METHOD: A panel of 11 experts was convened for a conference to discuss bupropion's mechanism of antidepressant activity. Four of the panelists presented current research findings, followed by a discussion. RESULTS: (1) Biochemical studies suggest down-regulation of postsynaptic beta-adrenoceptors and desensitization of the norepinephrine-stimulated adenylate cyclase in the rat cortex occur only after chronic administration of very high doses of bupropion. (2) In vivo brain microdialysis studies demonstrate that, after chronic administration, there is an enhancement of bupropion-induced increases in extracellular dopamine in the nucleus accumbens. (3) Electrophysiologic data show that with acute dosing, bupropion reduces the firing rates of noradrenergic neurons in the locus ceruleus. The firing rates of dopaminergic neurons are reduced by bupropion in the A9 and A10 areas of the brain, but only at very high doses, and bupropion does not alter the firing rates of serotonergic neurons in the dorsal raphe. (4) Behavioral studies show that the most active metabolite of bupropion, hydroxybupropion (306U73), appears to be responsible for a large part of the compound's effects in animal models of antidepressant activity. (5) Clinical studies indicate that bupropion enhances noradrenergic functional activity as reflected by an increased excretion of the hydroxy metabolite of melatonin, while at the same time producing a presumably compensatory decrease in norepinephrine turnover. In one study, bupropion elevated plasma levels of the dopamine metabolite homovanillic acid in nonresponders, but not in responders. CONCLUSION: The mechanism of action of bupropion appears to have an unusual, not fully understood, noradrenergic link. The bupropion metabolite hydroxybupropion probably plays a critical role in bupropion's antidepressant activity, which appears to be predominantly associated with long-term noradrenergic effects. The mild central nervous system activating effects of bupropion appear to be due to weak dopaminergic mechanisms. There is some evidence that dopamine may contribute to bupropion's antidepressant properties. Antidepressant effects of bupropion are not serotonergically mediated.

Effects of acrivastine and terfenadine on skin reactivity to histamine.

The response to the histamine hydrochloride prick skin test was studied in 24 healthy volunteers who received, in random order and at least four days apart, acrivastine (8 mg), terfenadine (120 mg), and placebo. The tests were performed on either side of the back before and at the time of administration (single dose), then every 30 minutes for two hours, and every hour for the following four hours. Evaluation was based on the mean of two measurements of the surface area of the wheal-and-flare reaction accompanied by assessment of topical pruritus. The response to histamine was decreased markedly in the two active treatment groups. Although within one hour of injection, the activity of both antihistamines was consistently greater than that of placebo, the kinetics of action of the two products nevertheless differed; indeed acrivastine was active against flare and wheal earlier (within 30 minutes); terfenadine proved to be more active than acrivastine only on flare and only at the later times (four, five, and six hours). The safety study primarily demonstrated drowsiness in one-fourth of the patients receiving placebo and active treatment.

Occurrence and characterization of acyclovir-resistant herpes simplex virus isolates: report on a two-year sensitivity screening survey.

For the past 2 years, a survey network was established for the screening of acyclovir (ACV)-resistant clinical isolates of herpes simplex virus (HSV). Among 889 strains tested for in vitro ACV sensitivity, 14 HSV-1 and 6 HSV-2 were resistant to ACV concentrations exceeding 3 micrograms/ml. These resistant isolates were most often obtained after prolonged ACV treatment of severely immunocompromised patients. For five patients, the emergence of ACV-resistant virus correlated with treatment failure. In particular, a decrease in the in vitro sensitivity to ACV was observed for eight successive HSV-1 isolates from one immunodeficient patient undergoing therapy. All ACV-resistant isolates were studied for their sensitivity to different antiherpetic compounds and showed various cross-sensitive and -resistant patterns. The examination of viral populations by plaque autoradiography procedures frequently revealed their heterogeneity in terms of thymidine kinase (TK) phenotype and allowed the detection of various proportions of TK-positive (TK+), TK-deficient (TKD), or TK-altered (TKA) viruses. Our data underline the importance of monitoring the emergence of drug-resistant virus during the course of antiviral therapy, and the need for the detection and characterization of TK mutants in clinical specimens. The routine examination of drug sensitivity of HSV isolates provides useful information to clinicians for the management of ACV treatment in the hope of preventing ACV-resistant mutants from becoming predominant in mixed viral populations.

Efficacy of continuous zidovudine infusion at early stages of retroviral infection in mice.

We studied the pharmacokinetics of zidovudine (ZDV) in mice after twice-daily s.c. bolus injections and during continuous infusion with s.c. ALZET mini-osmotic pumps. We also compared the antiretroviral efficacy of these two modes of administration against Friend leukemia virus (FLV) infection. Mice were infected by retro-orbital inoculation of about 50 focus-forming units (ffu) of FLV, and treatment was started 1 or 4 h later with ZDV at 40 mg/kg/day for 5 days. Efficacy was evaluated in terms of spleen weight and/or virus titer (spleen focus assay) on day 21 in comparison with untreated infected mice. In a separate experiment, survival time after infection was also monitored over a 140-day period. Plasma concentrations of ZDV were determined by means of high-performance liquid chromatography. Following bolus administration, the peak plasma ZDV concentration (30.5 mg/ml) was reached within 10 min, and elimination was rapid (mean half-life, 0.7 h). During the continuous infusion, the mean concentration was constant at about 1.2 mg/ml. After 5 days of treatment, continuous ZDV infusion consistently inhibited virus-induced splenomegaly by more than 97%; bolus injections were less effective with inhibition ranging from 13 to 98%. These results suggest that moderate constant levels of ZDV have greater antiretroviral efficacy than intermittent high concentrations.

Factors influencing zidovudine efficacy when administered at early stages of Friend virus infection in mice.

Strategies for zidovudine (AZT) administration in retrovirus infection may greatly influence treatment efficacy, especially in the case of early intervention. Antiretroviral activity of AZT in mice infected with Friend leukemia virus (FLV) has been investigated using various experimental protocols. Mice were inoculated with FLV and treated with AZT either 1 or 4 h after inoculation. A dose/effect relationship of AZT therapy was established for two different loads of virus inoculum. The effects of treatment duration (5 or 14 days) and route of administration (b.i.d. subcutaneous injection or administration in drinking water) were also evaluated. In all cases AZT therapy suppressed or reduced virus-induced splenomegaly and increased survival time. AZT therapy was more effective when started 1 h rather than 4 h after virus inoculation. A mutual influence between the dosage of the antiviral drug and the virus inoculum size was observed. A 5-day therapy was inadequate to suppress infection. AZT therapy led to similar results whether administered subcutaneously or in drinking water. The present results suggest that AZT efficacy declines when the inoculum size is increased, when the initiation of treatment is delayed and when treatment duration is shortened.

Phenobarbital inducible UDP-glucuronosyltransferase is responsible for glucuronidation of 3'-azido-3'-deoxythymidine: characterization of the enzyme in human and rat liver microsomes.

Glucuronidation by liver microsomes of 3'-azido-3'-deoxythymidine (AZT) was characterized in human and in various animal species. The glucuronide isolated by HPLC, was identified by mass spectrometry (fast atom bombardment, desorption in chemical ionization), and beta-glucuronidase hydrolysis. AZT glucuronidation reaction in liver microsomes of human and monkey proceeded similarly with an apparent Vmax of 0.98 nmol/min/mg protein and apparent Km of 13 mM. Oleoyl lysophosphatidylcholine activated more than twofold the formation of the glucuronide. Human kidney microsomes could also biosynthesize AZT glucuronide, although to a lower extent (six times less than the corresponding liver). Probenecid, which is administered to AIDS patients, decreased hepatic AZT glucuronidation in vitro (I50 = 1.5 mM), whereas paracetamol did not exert any effect at concentrations up to 21.5 mM. Morphine also inhibited the reaction (I50 = 2.7 mM). AZT glucuronidation presented the highest rate in human and in monkey (0.50 nmol/min/mg protein); pig and rat glucuronidated the drug two and three times less, respectively. In Gunn rat, the specific activity in liver microsomes was similar (0.18 nmol/min/mg protein) to that of the congenic normal strain; this suggests that an isozyme other than bilirubin UDP-glucuronosyltransferase catalyzed the reaction. In rats, AZT glucuronidation was stimulated fourfold by phenobarbital; 3-methylcholanthrene or clofibrate failed to increase this activity. This result was consistent with the bulkiness of the AZT molecule (thickness 6.7 A), which is a critical structural factor for glucuronidation of the drug by phenobarbital-induced isozymes. Altogether, the results strongly indicate that UDP-glucuronosyltransferase (phenobarbital inducible forms) is responsible for AZT glucuronidation.

Antidepressant profile of bupropion and three metabolites in mice.

Bupropion is a novel antidepressant, distinct from tricyclic antidepressants both neurochemically and behaviorally. Bupropion forms several metabolites in both rodents and humans. Three chemically different molecules - BW 306, BW 494, and BW 287 - were selected. Comparative assessment of antidepressant activity of bupropion and its metabolites in mice, and pharmacological analysis of possible mechanisms of action of the parent drug and its metabolites (using interaction studies with pimozide, D,L-propranolol, and prazosin) were carried out. The results obtained show that: bupropion has a pharmacological spectrum in various animal models which predicts both antidepressant and stimulatory activity in man. BW 306 is the most active of the metabolites studied and, compared to bupropion, seems more "antidepressant" and less stimulant. BW 494, compared to bupropion or BW 306, has a lower degree of activity in various tests used to evaluate antidepressants. BW 287 has no effect in any of the tests used in this study. The interaction studies with pimozide, D,L-propranolol, and prazosin in the various tests have shown that: the stimulatory effect of bupropion, BW 306, and BW 494 is antagonized by both pimozide and prazosin. in the behavioral despair test, the reduction in the duration of immobility by bupropion and BW 494 is antagonized by pimozide, but not by prazosin or D,L-propranolol. the antagonism of reserpine-induced hypothermia by bupropion and BW 306 is significantly decreased by prazosin and D,L-propranolol, but not by pimozide. These data suggest that the clinical antidepressant profile (without a major stimulatory effect) observed in man after administration of bupropion is related to metabolite BW 306 and possibly to BW 494, rather than to bupropion itself.

Pharmacokinetics of zidovudine in patients with liver cirrhosis.

The pharmacokinetics of zidovudine (azidothymidine, AZT) was investigated after oral administration (200 mg) in 14 human immunodeficiency virus seronegative patients with liver cirrhosis. They were divided in three groups according to the severity of the liver disease quantitated by the Child-Pugh score. Plasma and urine concentrations of zidovudine and its glucuronidated metabolite (GAZT) were measured simultaneously by HPLC assay. Findings were compared with those previously measured in six healthy volunteers. As a consequence of a marked drop in oral clearance (10 +/- 4 versus 38 +/- 15 ml/min/kg), zidovudine concentrations, half-life, and mean residence time were increased in patients with cirrhosis. No difference could be established between the three groups. The reason for such a decrease in oral clearance of zidovudine was the reduction in the GAZT formation clearance (236 +/- 73 versus 1540 +/- 540 ml/min); this led to a decrease in the AUC ratio of GAZT and zidovudine (1.3 +/- 0.6 versus 4.6 +/- 0.7), which was directly related to the severity of the cirrhosis. In patients, as in volunteers, formation of GAZT rate limits its elimination. To avoid important cumulation of zidovudine after repeated dosing in patients with acquired immunodeficiency syndrome who have hepatic impairment, a dosage adjustment could be proposed.

[Pharmacokinetics of zidovudine (AZT) and its metabolite (G-AZT) in healthy subjects and in patients with kidney failure]. / Pharmacocinétique de la zidovudine (AZT) et de son métabolite (G.AZT) chez le sujet sain et l'insuffisant rénal.

Pharmacokinetics of zidovudine was investigated after oral administration (200 mg) in 25 HIV seronegative subjects: 14 patients with severe renal impairment (creatinine clearance 6 to 31 ml/min), 5 hemodialyzed anuric patients, and 6 healthy subjects. In healthy subjects, G. AZT concentrations are higher than those of AZT; AUC were 23.7 +/- 1.9 and 5.2 +/- 0.6 mumol.h/l respectively. Formation of G. AZT rate-limits its elimination: G. AZT half-life parallels that of AZT which is around 1 hour. In uremic patients AZT concentrations are moderately increased (AUC = 11.7 +/- 1.1 mumol.h/l), whereas half-life and MRT remains unchanged, despite the decreased renal clearance (16 +/- 2 vs 220 +/- 58 ml/min). In contrast G. AZT concentrations are markedly increased (AUC = 403 +/- 89 mumol.h/l). As a consequence of the decreased renal clearance (27 +/- 3 vs 331 +/- 42 ml/min), elimination is the rate limiting step and half-life is increased (8 +/- 2 vs 0.9 +/- 0.1 h). Contribution of a 4-hour hemodialysis session to AZT elimination appears negligible whereas elimination of G. AZT is enhanced.

Zidovudine disposition in patients with severe renal impairment: influence of hemodialysis.

Pharmacokinetics of zidovudine (azidothymidine, AZT) was investigated after oral administration (200 mg) in 25 HIV seronegative subjects: 14 patients with severe renal impairment (creatinine clearance 6 to 31 ml/min), five hemodialyzed anuric patients, and six healthy subjects. Plasma and urine concentrations of zidovudine and its glucuronidated metabolite (GAZT) were measured simultaneously by HPLC assay. In healthy subjects, GAZT concentrations were higher than those of AZT; AUC values were 23.7 +/- 1.9 and 5.2 +/- 0.6 mumol.hr/L, respectively. Formation of GAZT rate-limits its elimination: GAZT half-life (t 1/2) parallels that of AZT, which is around 1 hour. In uremic patients, AZT concentrations were moderately increased (AUC = 11.7 +/- 1.1 mumol.hr/L), whereas t 1/2 and mean residence time (MRT) remain unchanged despite the decreased renal clearance (16 +/- 2 versus 220 +/- 58 ml/min) and decreased urinary excretion (1.6 +/- 0.3 versus 8.1 +/- 1.0% of the dose). In contrast, GAZT concentrations are markedly increased (AUC = 402.9 +/- 88.6 mumol.hr/L). As a consequence of the decreased renal clearance (27 +/- 3 versus 331 +/- 42 ml/min), elimination is the rate-limiting step and t 1/2 is increased (8 +/- 2 versus 0.9 +/- 0.1 hr). Contribution of a 4-hour hemodialysis session to AZT elimination appears to be negligible, whereas elimination of GAZT is enhanced. On the sole basis of AZT pharmacokinetic data, no particular dose adjustment appears to be necessary in patients who have severe renal impairment (creatinine clearance between 10 and 30 ml/min). However, high levels of GAZT should be anticipated with the usual dosage regimen.

Kinetics of allopurinol and oxipurinol after chronic oral administration. Interaction with benzbromarone.

Previous studies have described a pharmacokinetic interaction between probenecid, a uricosuric drug, and oxipurinol, the major metabolite of allopurinol. In single dose studies, no interaction was found to occur between benzbromarone, another uricosuric agent, and oxipurinol. A cross over study was conducted in 12 volunteers to compare the kinetics of allopurinol and oxipurinol following treatment for 7 days with allopurinol alone or combined with benzbromarone 20 or 100 mg. The pharmacokinetic parameters of allopurinol were not modified by the uricosuric therapy, but those of oxipurinol were markedly altered by concurrent administration even of the lower dose of benzbromarone; the average plasma level fell by 30% and the renal elimination rate was increased by 50%. A parallel increase in the renal elimination rate of uric acid was observed (significant only with the higher dose of benzbromarone) and a positive linear correlation between the fractional excretion of uric acid and that of oxipurinol was established.

[Metabolism and pharmacokinetics of atracurium]. / Métabolisme et pharmacocinétique de l'atracurium.

Atracurium is a new neuromuscular blocking agent which has an unique mode of elimination by spontaneous degradation in slightly alkali solution, according to the Hofmann elimination. The Hofmann elimination is completed in plasma (in vitro or in vivo) by an ester hydrolysis. The major degradation product is laudanosine. Metabolites can be considered as pharmacologically inactive with the usual doses of atracurium. Spontaneous degradation of atracurium in plasma is the major route of elimination in man and contributes to a short elimination half-life (approximatively 20 min). Distribution half-life is short and central and peripheral volumes are small when compared with the usual neuromuscular blocking agents. The pharmacokinetic parameters give a rapid dynamic equilibrium so that incremental doses will not lead to accumulation phenomenon. Because of spontaneous degradation of atracurium in plasma, its kinetics are theoretically independent of renal and liver functions. Only a slight increase of distribution volumes can be seen in very severe renal/hepatic failure. Atracurium pharmacokinetics could theoretically be modified by some modifications of acid-base equilibrium or alterations of thermoregulation. Pharmacokinetic studies are not yet available in these areas.

Pharmacokinetic studies of nifedipine tablet. Correlation with antihypertensive effects.

A tablet form of nifedipine was given to eight hypertensive hospitalized men (Stage I or II WHO, 45 +/- 10 years old). After an initial placebo test, 20, 40, and 60 mg of nifedipine were given at 8.00 a.m. in random order at 72-hour intervals in a single administration double-blind crossover study. Blood pressure and heart rate were measured twice by the same observer every 20 minutes from 7.00 a.m. to 8.00 a.m. and then hourly until 8.00 p.m., first with the patients recumbent and again after 1 minute of standing. Plasma nifedipine levels were assayed in samples drawn hourly from 8.00 a.m. to noon, every 2 hours from noon to 8.00 p.m., and at 24 and 48 hours after drug ingestion. The three doses all lowered blood pressure significantly. The reduction during recumbency was significantly larger (-18%) and lasted longer (12 hours) after 60 mg than after 20 mg (-11% at 7 hours). The three doses caused similar increases in heart rate (+29% to +38%), the maximum occurring at the second hour and lasting for 5 hours. The peak plasma concentrations and areas under the plasma concentration time curve were dose-dependent; kinetics were linear between 20 and 60 mg, and the half-life of nifedipine tablets was close to 10 hours. The decrease in mean arterial blood pressure correlated strongly with plasma nifedipine levels (r = 0.61; n = 190; p less than 0.001). Four patients experienced mild side effects (headaches, flushes, drowsiness, or weakness). The tablet form of nifedipine had a potent antihypertensive action that lasted longer than that of the capsule formulation.