The cynomolgus monkey as a model for developmental toxicity studies: variability of pregnancy losses,statistical power estimates,and group size considerations

BACKGROUND: This work evaluates pregnancy and infant loss in 1,069 vehicle‐treated cynomolgus monkeys from 78 embryo‐fetal development (EFD) studies and 14 pre‐postnatal development (PPND) studies accrued during 1981–2007. METHODS: Losses were analysed by survival function and hazard ratio using logistic regression for influence of year, study type (e.g., dose duration), and test item route of administration (ig, im, iv, sc). RESULTS: Neither study type nor route of dosing affected pregnancy outcome. Losses were higher pre‐1990 (104 losses/347 pregnancies) compared to 1990 onwards (94 losses/722 pregnancies). Losses were greatest before gestation day 50 and at parturition. Using post‐1989 data, Monte‐Carlo simulations of pregnancy outcomes were created. The power associated with the comparison of vehicle survival curves and simulated adverse survival curves was examined. This showed that EFD studies with initial vehicle group sizes of 16 and 20 have an 80% probability of having 13 and 16 ongoing pregnancies at gestational day 100, respectively. For PPND studies with initial vehicle group sizes of 16, 20, or 28, there is an 80% likelihood of having 9, 11, or 16 infants at day 7 post‐partum, respectively. A PPND study initiated with group size 20 could detect a threefold increase of test item–related pregnancy or infant loss. CONCLUSIONS: For designing and managing primate developmental toxicity studies, this type of analysis provides an objective tool to facilitate decisions either by supplementing groups with additional pregnant animals or stopping a group because an adverse effect on offspring survival has already been adequately revealed. Birth Defects Res (Part B) 89:175–187, 2010.© 2010 Wiley‐Liss, Inc.     

Development in the cynomolgus macaque following administration of ustekinumab,a human anti‐il‐12/23p40 monoclonal antibody,during pregnancy and lactation

BACKGROUND: Ustekinumab is a human monoclonal antibody that binds to the p40 subunit of interleukin (IL) 12 and IL‐23 and inhibits their pharmacological activity. To evaluate potential effects of ustekinumab treatment during pregnancy, developmental studies were conducted in cynomolgus macaques. METHODS: Ustekinumab was tested in two embryo/fetal development (EFD) studies and in a combined EFD/pre and postnatal development (PPND) study. In the EFD studies, pregnant macaques (12/group) were dosed with saline or ustekinumab (9 mg/kg IV, 22.5 mg/kg SC, or 45 mg/kg IV or SC during the period of major organogenesis, gestation day [GD] 20–50). Fetuses were harvested on GD100–102 and examined for any effects on development. In the EFD/PPND study, pregnant macaques were injected with saline or ustekinumab (22.5 or 45 mg/kg SC) from GD20 through lactation day 33. Infants were examined from birth through 6 months of age for morphological and functional development. Potential effects on the immune system were evaluated by immunophenotyping of peripheral blood lymphocytes and immunohistopathology of lymphoid tissues in fetuses and infants and by T‐dependent antibody response (TDAR) to KLH and TTX and by DTH response in infants. Ustekinumab concentrations were measured in serum from dams, fetus, and infants and in breast milk. RESULTS: Ustekinumab treatment produced no maternal toxicity and no toxicity in the fetuses or infants, including no effects on the TDAR or DTH responses. Ustekinumab was present in serum from GD100 fetuses and was present in infant serum through day 120 post‐birth. Low levels of ustekinumab were present in breast milk. CONCLUSIONS: Exposure of macaque fetuses and infants to ustekinumab had no adverse effects on pre‐ and postnatal development. Birth Defects Res (Part B) 89:351–363, 2010. © 2010 Wiley‐Liss, Inc.     

Sample size determination in clinical trials with multiple co‐primary endpoints including mixed continuous and binary variables

In the field of pharmaceutical drug development, there have been extensive discussions on the establishment of statistically significant results that demonstrate the efficacy of a new treatment with multiple co‐primary endpoints. When designing a clinical trial with such multiple co‐primary endpoints, it is critical to determine the appropriate sample size for indicating the statistical significance of all the co‐primary endpoints with preserving the desired overall power because the type II error rate increases with the number of co‐primary endpoints. We consider overall power functions and sample size determinations with multiple co‐primary endpoints that consist of mixed continuous and binary variables, and provide numerical examples to illustrate the behavior of the overall power functions and sample sizes. In formulating the problem, we assume that response variables follow a multivariate normal distribution, where binary variables are observed in a dichotomized normal distribution with a certain point of dichotomy. Numerical examples show that the sample size decreases as the correlation increases when the individual powers of each endpoint are approximately and mutually equal.     

Bayesian Variable Selection with Joint Modeling of Categorical and Survival Outcomes: An Application to Individualizing Chemotherapy Treatment in Advanced Colorectal Cancer

Summary Colorectal cancer is the second leading cause of cancer related deaths in the United States, with more than 130,000 new cases of colorectal cancer diagnosed each year. Clinical studies have shown that genetic alterations lead to different responses to the same treatment, despite the morphologic similarities of tumors. A molecular test prior to treatment could help in determining an optimal treatment for a patient with regard to both toxicity and efficacy. This article introduces a statistical method appropriate for predicting and comparing multiple endpoints given different treatment options and molecular profiles of an individual. A latent variable‐based multivariate regression model with structured variance covariance matrix is considered here. The latent variables account for the correlated nature of multiple endpoints and accommodate the fact that some clinical endpoints are categorical variables and others are censored variables. The mixture normal hierarchical structure admits a natural variable selection rule. Inference was conducted using the posterior distribution sampling Markov chain Monte Carlo method. We analyzed the finite‐sample properties of the proposed method using simulation studies. The application to the advanced colorectal cancer study revealed associations between multiple endpoints and particular biomarkers, demonstrating the potential of individualizing treatment based on genetic profiles.     

Toxicity study in juvenile rats with the α4β2 nicotinic acetylcholine receptor partial agonist CP-601,927

BACKGROUND: CP‐601927 is a selective α₄β₂ nicotinic acetylcholine receptor (nAChR) partial agonist. The objective of this study was to assess the potential effects persisting into adulthood when CP‐601,927 was administered to neonatal/juvenile rats. Since the juvenile toxicity study was being performed early in the development program and this study would represent the longest dosing period yet evaluated, the study design incorporated standard endpoints typically evaluated in a general toxicity screening study. METHODS: CP‐601,927 was administered to Sprague‐Dawley rats from postnatal day (PND) 7–70 by oral gavage at doses of 0.3, 1, or 3 mg/kg. During treatment animals were evaluated for growth, development, and sexual maturation. At the end of the treatment period general toxicity screening endpoints were collected (e.g., organ weights, histology, clinical chemistry). Following a 2‐week latency period, animals were evaluated for CNS function in a comprehensive behavioral training battery consisting of a functional observational battery, motor activity, acoustic startle response, and learning and memory evaluations. Reproductive competency was evaluated by mating treated rats and allowing pregnant dams to deliver and rear their litters until PND 10. RESULTS AND CONCLUSIONS: Treatment‐related findings included the death of 2 males receiving 3 mg/kg CP‐601,927, and transient reductions in body weight for both males and females during the third week of dosing which quickly recovered to control levels. The only treatment‐related alteration in behavior was decreased motor activity, which occurred only in females at the highest dose tested. CP‐601,927 had no effect on acoustic startle response, learning and memory, sexual maturation, reproductive capacity, or general toxicity endpoints. Birth Defects Res (Part B) 92:323–332, 2011. © 2011 Wiley‐Liss, Inc.     

Using physiology and behaviour to understand the responses of fish early life stages to toxicants

The use of early life stages of fishes (embryos and larvae) in toxicity testing has been in existence for a long time, generally utilizing endpoints such as morphological defects and mortality. Behavioural endpoints, however, may represent a more insightful evaluation of the ecological effects of toxicants. Indeed, recent years have seen a considerable increase in the use of behavioural measurements in early life stages reflecting a substantial rise in zebrafish Danio rerio early life‐stage toxicity testing and the development of automated behavioural monitoring systems. Current behavioural endpoints identified for early life stages in response to toxicant exposure include spontaneous activity, predator avoidance, capture of live food, shoaling ability and interaction with other individuals. Less frequently used endpoints include measurement of anxiogenic behaviours and cognitive ability, both of which are suggested here as future indicators of toxicant disruption. For many simple behavioural endpoints, there is still a need to link behavioural effects with ecological relevance; currently, only a limited number of studies have addressed this issue. Understanding the physiological mechanisms that underlie toxicant effects on behaviour so early in life has received far less attention, perhaps because physiological measurements can be difficult to carry out on individuals of this size. The most commonly established physiological links with behavioural disruption in early life stages are similar to those seen in juveniles and adults including sensory deprivation (olfaction, lateral line and vision), altered neurogenesis and neurotransmitter concentrations. This review highlights the importance of understanding the integrated behavioural and physiological response of early life stages to toxicants and identifies knowledge gaps which present exciting areas for future research.     

Comparative effects of prenatal and postnatal undernutrition on learning and memory in rats.

Effects of pre- and post-natal undernutrition on learning and memory parameters were studied in albino rats. Prenatal undernutrition was induced in rat pups by restricting the mother's diet by 50% during the entire gestation period, whereas postnatal undernutrition was induced in rat pups by restriction of their diet by rotating them between lactating and non-lactating maternalised females for 12 hr each day during suckling period from 2nd day to 18th day after birth. At 2.5 to 3 months of age all the rat offsprings were subjected to (i) original and reversal discrimination learning, (ii) passive avoidance, and (iii) active avoidance and its retention tests. The results indicate that both pre- and post-natal undernutrition in rat pups caused significant deficits in original and reversal discrimination learning, retention of passive avoidance after one week retention interval, and retention of active of avoidance learning. However, both pre- and post-natal undernutrition did not show significant effect on acquisition of active avoidance and retention of passive avoidance after 24 hr retention interval.     

Immigration prevents inbreeding in a growing colony of a long‐lived and philopatric seabird

Mating between close relatives can have deleterious effects on reproductive success or offspring fitness, which should favour the evolution of active or passive inbreeding avoidance mechanisms. In birds, evidence for active inbreeding avoidance by kin‐discriminative mate choice is scarce; many studies describe random mating in relation to kinship and thus support passive inbreeding avoidance by natal dispersal. However, most studies were conducted in island populations of short‐lived passerines with fast alternation of generations. In this study, we present inbreeding estimates based on pedigree data from a 16‐year study in a coastal colony of Common Terns Sterna hirundo, a long‐lived seabird with delayed sexual maturation and low rates of extra‐pair paternity. Incestuous mating was rare (four of 2387 pairs), even if partially accounting for incomplete pedigrees. Although the average relatedness of observed pairs was lower than would be expected from random pairing, the inbreeding coefficient did not differ from random mating. Hence, we found no clear evidence for active inbreeding avoidance by kin‐discriminative mate choice, and the low level of inbreeding seems to be related to the high immigration rate in the colony and thus to be maintained passively by dispersal.     

Vasopressin deficiency and blood glucose interactions on passive avoidance behavior

The performance of a passive avoidance task (measured for two trials based upon number of complete step-downs and latency to respond) and blood glucose levels were examined in five groups of animals. The groups included vasopressin-deficient (DI) and vasopressin-containing (LE) rats under ad lib (AL) and food-restricted (FR) conditions, as well as DI-FR animals provided with access to an 8% sucrose solution (SUC). In the AL condition, no significant differences were found between DI and LE animals in either step-down occurrences or blood glucose levels. However, the DI animals were significantly slower in latency to respond in trial 1. With FR, the LE animals resembled the LE-AL animals in both passive avoidance behavior and blood glucose levels. The DI-FR animals that were not provided with SUC showed an impairment in passive avoidance behavior and low blood glucose levels, whereas DI-FR animals provided with SUC showed an amelioration of passive avoidance deficiencies and had blood glucose levels comparable to AL animals and LE-FR animals. On trial 2, a significant negative correlation was found between number of step-down occurrences and blood glucose levels, and a significant positive correlation was found between latency to respond and blood glucose levels. The experiment demonstrates that: 1) because DI rats have a different responsiveness in novel situations, caution must be exercised in using response latency as a measure of passive avoidance performance in the AL condition; 2) AL and FR conditions produce different responses in DI, but not LE, animals; 3) deficiencies in passive avoidance behavior in DI-FR rats can be ameliorated by the consumption of exogenous carbohydrate; and 4) there is a significant correlation between blood glucose levels and passive avoidance behavior.     

Review of reproductive and developmental toxicity studies with isopropanol

Published studies for reproductive and developmental toxicity conducted with isopropanol have been conducted by the inhalation and oral gavage routes of administration. Interpretation of the data from these studies has resulted in discussions regarding NOAELs and additional benchmark dose modeling publications. Unpublished reproductive and developmental toxicity studies administered in the drinking water were also conducted by BIBRA, and the results of those studies are presented here. In addition, all of the reproductive and developmental toxicity studies conducted with isopropanol are summarized and evaluated for concordance of effects and NOAELs. Endpoints of concern for regulatory agencies were decreases in male mating index and reductions in postnatal pup survival. Original study reports were evaluated and data collated to address these two endpoints, and the data summarized. Data are presented suggesting that there were technical problems in the study that implied a decrease in male mating index, and based on the results from the drinking water studies, the weight of evidence suggests that isopropanol does not affect male mating or fertility at dose levels of up to 1000 mg/kg/day. The weight of evidence suggests that isopropanol can cause decreases in postnatal pup survival following oral gavage administration of 1000-1200 mg/kg/day to the dams. The NOAEL for this endpoint with oral gavage administration was 700 mg/kg/day. Indications of maternal toxicity were also an important predictor for decreased postnatal survival. Decreased postnatal pup survival was also noted in the drinking water studies with isopropanol with a LOAEL of 2278 mg/kg/day and a NOAEL of 1947 mg/kg/day.     

Assessment of Male Rodent Fertility in General Toxicology 6‐Month Studies

An outcome and statistical review of male reproductive performance assessed by including a mating phase within 6‐month general toxicity studies in the Han Wistar rat was undertaken. The basic study design was 16–20 animals per group dosed for approximately 9 weeks before pairing the male rats with undosed females. This design provides opportunity for remating and automatically includes general toxicity parameters. The dose levels used in the 1‐ and 6‐month studies show that male reproduction was assessed at generally similar doses. The majority of males (compound‐dosed and controls) mated within 7 days. All vehicle‐dosed males mated and 98.5% of these females were pregnant. Modeling shows that a pregnancy rate of less than 14 out of 16 pregnant animals is very unlikely to occur due to biological variability. Power calculations based on vehicle control data show that group sizes of >10 males have a >80% power of detecting a decrease in median of three embryos per group compared with the control group. Even if the number of pregnancies decreased by a third, a group size of ≥12 would still detect a decrement in the median of three embryos with >80% power. Based on the statistical modeling and inherent strengths of the study design, this review indicates that decrements in male reproductive function can be successfully detected by incorporating a mating phase into a 6‐month rat study and that a group size of 12–16 is generally adequate rather than the 16–20 group size indicated as a generic default within ICHS5(R2).     

The Monosaccharide Composition of Cell Wall Material in Cassava Tuber (Manihot utilissima)

The monosaccharide composition of cell wall material (CWM) in the cassava tuber and the contents of the other constituents were determined for more advanced industrial utilization. Starch, 80% ethanol–soluble sugar, uronic acid, lignin, ash, and CWM contents in the cassava tuber 86.1, 2.4, 3.4, 0.5, 0.9, and 4.5%, respectively. Rhamnose, fucose, arabinose, xylose, mannose, galactose, and glucose contents in CWM were 1.9, 1.2, 2.6, 4.2, 2.0, 12.8, and 52.7%, respectively. Then, the degradation pattern of CWM by enzymatic and sequential acid hydrolysis was studied. Aspergillus niger cellulase preparation was the most effective, and 57.1 % of CWM was degraded by the enzyme preparation. On the other hand, about 50% of the hemicellulose part was extracted from CWM by hot water only.     

Isolation and analysis of cell wall material from beeswing wheat bran (Triticum aestivum)

Cell wall material (CWM) isolated from beeswing wheat bran contains 66% carbohydrate, 12% Klason lignin, 6% protein and 4% ash. The relative proportions of sugars in the CWM are arabinose 34%, xylose 26%, galactose 2%, glucose 32% and uronic acid 6%. The uronic acid was shown to consist of glucuronic acid and its 4-O-Me analogue in the ratio 1.8:1. Partial acid hydrolysis of the CWM yielded neutral sugars and a uronic acid fraction. The latter was shown to contain Glc p A-(1→2)-Xyl p and Glc p A-(1→2)-O-Xyl p-(1→4)-Xyl p and their 4-O-Me substituted uronic acid analogues. Methylation analysis of the whole CWM and partially degraded methylated CWM revealed the nature of the constituent glycosidic linkages. From the combined evidence we infer that the major structural features of the non-cellulosic polysaccharides are a linear chain of xylopyranose units joined by (1→4)-linkages, and arabinofuranose, xylose, galactose (and uronic acid) end groups, which in at least some of the polysaccharides, are attached directly by (1→2)- and/or (1→3)-linkages to the xylan chain. The CWM has been fractionated by successive extractions with water at 80°, 0.2 M (NH₄)₂C₂O₄ at 80°, Na chlorite/HOAc at 70°, 0.2 M (NH₄)₂C₂O₄ at 80°, 1 M and 4 M KOH, and the neutral sugar composition of the fractions determined. It is concluded from these and other experiments that the CWM contains two main types of polysaccharides, the arabinoxylans and cellulosic polymers, and that phenolic ester linkages play a role in holding them together.     

Functional traits composition predict macrophytes community productivity along a water depth gradient in a freshwater lake

Functional trait composition of plant communities has been proposed as a helpful key for understanding the mechanisms of biodiversity effects on ecosystem functioning. In this study, we applied a step‐wise modeling procedure to test the relative effects of taxonomic diversity, functional identity, and functional diversity on macrophytes community productivity along water depth gradient. We sampled 42 plots and 1513 individual plants and measured 16 functional traits and abundance of 17 macrophyte species. Results showed that there was a significant decrease in taxonomic diversity, functional identity (i.e., stem dry mass content, leaf [C] and leaf [N]), and functional diversity (i.e., floating leaf, mean Julian flowering date and rooting depth) with increasing water depth. For the multiple‐trait functional diversity (FD) indices, functional richness decreased, while functional divergence increased with water depth gradient. Macrophyte community productivity was strongly determined by functional trait composition within community, but not significantly affected by taxonomic diversity. Community‐weighted means (CWM) showed a two times higher explanatory power relative to FD indices in determining variations in community productivity. For nine of sixteen traits, CWM and FD showed significant correlations with community productivity, although the strength and direction of those relations depended on selected trait. Furthermore, functional composition in a community affected productivity through either additive or opposite effects of CWM and FD, depending on the particular traits being considered. Our results suggested both mechanisms of mass ratio and niche complementarity can operate simultaneously on variations in community productivity, and considering both CWM and FD would lead to a more profound understanding of traits–productivity relationships.     

Bacterial transformation and biodegradation processes simulation in horizontal subsurface flow constructed wetlands using CWM1-RETRASO

The performance and reliability of the CWM1-RETRASO model for simulating processes in horizontal subsurface flow constructed wetlands (HSSF CWs) and the relative contribution of different microbial reactions to organic matter (COD) removal in a HSSF CW treating urban wastewater were evaluated. Various different approaches with diverse influent configurations were simulated. According to the simulations, anaerobic processes were more widespread in the simulated wetland and contributed to a higher COD removal rate [72-79%] than anoxic [0-1%] and aerobic reactions [20-27%] did. In all the cases tested, the reaction that most contributed to COD removal was methanogenesis [58-73%]. All results provided by the model were in consonance with literature and experimental field observations, suggesting a good performance and reliability of CWM1-RETRASO. According to the good simulation predictions, CWM1-RETRASO is the first mechanistic model able to successfully simulate the processes described by the CWM1 model in HSSF CWs.     

Potential trajectories of old‐growth Neotropical forest functional composition under climate change

Quantifying relationships between plant functional traits and abiotic gradients is valuable for evaluating potential responses of forest communities to climate change. However, the trajectories of change expected to occur in tropical forest functional characteristics as a function of future climate variation are largely unknown. We modeled community level trait values of Costa Rican rain forests as a function of current and future climate, and quantified potential changes in functional composition. We calculated per‐plot community weighted mean (CWM) trait values for leaf area (LA), specific leaf area (SLA), leaf dry matter content (LDMC), leaf nitrogen (N) and phosphorus (P) content, and wood basic specific gravity (WSG), for tree and palm species in 127 0.25 ha plots. We modeled the response of CWM traits to current temperature and precipitation gradients using generalized additive modeling. We then predicted and mapped CWM traits values under current and future climate, and quantified potential changes under a global warming scenario (RCP8.5, year 2050). We calculated the area within the multi trait functional space occupied by forest plots under both current and future climate, and determined potential changes in functional space occupied by forest plots. Overall, precipitation predicted CWM traits better than temperature. Models indicated increases in CWM SLA, N and P, and a decrease in CWM LDMC under climate change. Lowland forest communities converged on a single direction of change towards more acquisitive CWM trait values, indicating a change in forest functional composition resulting from a changed climate. Functional space occupied by forest plots was reduced by 50% under the future climate. Functional composition changes may have further effects on forests ecosystem services. Assessing functional trait spatial‐gradients can help bridge the gap between species‐based biogeography and biogeochemical approaches to strengthen biodiversity and ecosystem services conservation efforts.     

Sample size/power calculation for case-cohort studies

In epidemiologic studies and disease prevention trials, interest often involves estimation of the relationship between some disease endpoints and individual exposure. In some studies, due to the rarity of the disease and the cost in collecting the exposure information for the entire cohort, a case-cohort design, which consists of a small random sample of the whole cohort and all the diseased subjects, is often used. Previous work has focused on analyzing data from the case-cohort design and few have discussed the sample size issues. In this article, we describe two tests for the case-cohort design, which can be treated as a natural generalization of log-rank test in the full cohort design. We derive an explicit form for power/sample size calculation based on these two tests. A number of simulation studies have been used to illustrate the efficiency of the tests for the case-cohort design. An example is provided on how to use the formula.     

Ethyl t‐butyl ether: review of reproductive and developmental toxicity

Ethyl t‐butyl ether (ETBE) is a motor fuel oxygenate used in reformulated gasoline. Knowledge of developmental and reproductive toxicity potential of ETBE is critical for making informed decisions about acceptance and regulations. This review discusses toxicology studies providing information about effects on reproduction and the conceptus. Seven GLP‐compliant studies following widely accepted protocols have focused specifically on developmental and reproductive toxicity (DART) in rats and rabbits exposed to ETBE by gavage with doses up to 1,000 mg/kg body weight/day, the limit specified in standardized test guidelines. Other repeat‐dose general toxicology studies have administered ETBE to rodents for up to 180 days, and included reproductive organ weights, histology, or other indications of reproductive system structure or function. DART potential of the main ETBE metabolite t‐butyl alcohol and class‐related MTBE has also been studied. More GLP‐compliant studies exist for evaluating ETBE using well‐established, currently recommended protocols than are available for many other chemicals used today. The database for determining ETBE DART potential is adequate, although not all study details are currently easily accessible for peer‐review. ETBE does not appear to be selectively toxic to reproduction or embryofetal development in the absence of other manifestations of general toxicity. Studies using recommended methods for sample preservation and analysis have shown no targeted effect on the reproductive system. No embryofetal effects were observed in rabbits. Early postnatal rat pup deaths show no clear dose‐response and have largely been attributed to total litter losses with accompanying evidence of maternal neglect or frank maternal morbidity. Birth Defects Res (Part B) 89:239–263, 2010. © 2010 Wiley‐Liss, Inc.     

Juvenile toxicity assessment of anidulafungin in rats: an example of navigating case-by-case study design through scientific and regulatory challenges

BACKGROUND: Anidulafungin, an echinocandin antifungal marketed for adult use, is being considered for use in pediatric populations, including neonates. The evolution of the nonclinical pediatric safety strategy for anidulafungin serves as an example of case‐by‐case negotiation through the European Medicines Agency pediatric investigation plan process, resulting in an acceptable juvenile rat toxicity study. METHODS: Study design challenges included animal selection, route, dose, age, and duration of dosing in relation to brain maturity, and appropriate study endpoints. The definitive study consisted of subcutaneous dosing at 0, 3, 10, and 30 mg/kg/day from postnatal day 4 to 62 (preterm infant to adulthood) with a 5‐week recovery period. Study endpoints evaluated the potential for increased juvenile sensitivity to liver toxicity (seen in adults) and for novel toxicities in the central nervous system. RESULTS: Anidulafungin‐related effects included slightly reduced body weight, increased liver weight, and a mild decrease in red blood cell mass with increased reticulocyte count. There was no liver pathology and in the posttreatment phase there were no effects on neurological function. Following recovery, effects on body weight, hematology, and liver weight were reversing or reversed. CONCLUSIONS: Therefore, the juvenile rat no‐adverse‐effect‐level was 30 mg/kg/day. Exposures at this dose are similar to those achieved at the adult rat no‐adverse‐effect‐level, suggesting that the juvenile rat is no more sensitive to anidulafungin than the adult rat. In conclusion, dialog and negotiation between the sponsor and the European Medicines Agency allowed for successful execution of a nonclinical safety strategy that enabled further clinical investigation of anidulafungin in pediatric populations. Birth Defects Res (Part B) 92:333–344, 2011. © 2011 Wiley‐Liss, Inc.     

Disentangling community functional components in a litter‐macrodetritivore model system reveals the predominance of the mass ratio hypothesis

Recent investigations have shown that two components of community trait composition are important for key ecosystem processes: (i) the community‐weighted mean trait value (CWM), related to the mass ratio hypothesis and dominant trait values in the community, and (ii) functional diversity (FD), related to the complementarity hypothesis and the divergence of trait values. However, no experiments controlling for the inherent dependence between CWM and FD have been conducted so far. We used a novel experimental framework to disentangle the unique and shared effects of CWM and FD in a leaf litter‐macrodetritivore model system. We manipulated isopod assemblages varying in species number, CWM and FD of litter consumption rate to test the relative contribution of these community parameters in the decomposition process. We showed that CWM, but also the combination of CWM and FD, is a main factor controlling litter decomposition. When we tested individual biodiversity components separately, CWM of litter consumption rate showed a significant effect on decomposition, while FD and species richness alone did not. Our study demonstrated that (i) trait composition rather than species diversity drives litter decomposition, (ii) dominant trait values in the community (CWM) play a chief role in driving ecosystem processes, corroborating the mass ratio hypothesis, and (iii) trait dissimilarity can contribute in modulating the overall biodiversity effects. Future challenge is to assess whether the generality of our finding, that is, that dominant trait values (CWM) predominate over trait dissimilarity (FD), holds for other ecosystem processes, environmental conditions and different spatial and temporal scales.