C. Vyvyan Howard scite author profile

Objective To investigate the effect of Type II (asymmetrical) intrauterine growth retardation (IUGR) on renal development. Design A prospective descriptive study. Setting Department of Fetal and Infant Pathology, Liverpool Children's Hospital. Subjects Six (severely) affected IUGR stillbirths of known gestational age with a control group of stillbirths with birthweight > 10th centile, and eight liveborn IUGR infants who died within a year of birth with a control group of appropriately grown infants who died within a year of birth (postnatal groups). Techniques The kidneys from all the groups studied were analysed using unbiased, reproducible and objective design‐based stereological techniques. Main outcome measures Total renal nephron (glomerular) numbers and average volumes of total nephron and cortical and medullary nephron segments. Results Nephron number estimates lay below the control group's 5% prediction limit in five out of the six growth‐retarded stillbirths, and were significantly (P<0.005, IUGR at 65% of the control mean) reduced in the postnatal group. Estimates of nephron (segment) volume did not differ between control and IUGR groups. Conclusions Type II intrauterine growth retardation may exert a profound effect on renal development. The reduced nephron number at birth, together with the lack of any early postnatal compensation in either nephron number or nephron size, emphasizes the need for vigorous antenatal surveillance for IUGR and consideration of elective preterm delivery of affected fetuses. A systematic review of other organs, which develop in a similarly rapid fashion during the late intrauterine period, is indicated by this work. With one exception, all birthweights in the growth‐retarded groups were below the third centile, thus the precise quantitative relation between progressive IUGR and renal function requires further assessment.

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Fate and Effects of CeO₂ Nanoparticles in Aquatic Ecotoxicity Tests

Hoecke

Quik

Mankiewicz-Boczek

et al. 2009

Environ. Sci. Technol.

341

208

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Cerium dioxide nanoparticles (CeO2 NPs) are increasingly being used as a catalyst in the automotive industry. Consequently, increasing amounts of CeO2 NPs are expected to enter the environment where their fate in and potential impacts are unknown. In this paper we describe the fate and effects of CeO2 NPs of three different sizes (14, 20, and 29 nm) in aquatic toxicity tests. In each standard test medium (pH 7.4) the CeO2 nanoparticles aggregated (mean aggregate size approximately 400 nm). Four test organisms covering three different trophic levels were investigated, i.e., the unicellular green alga Pseudokirchneriella subcapitata, two crustaceans: Daphnia magna and Thamnocephalus platyurus, and embryos of Danio rerio. No acute toxicity was observed for the two crustaceans and D. rerio embryos, up to test concentrations of 1000, 5000, and 200 mg/L, respectively. In contrast, significant chronic toxicity to P. subcapitata with 10% effect concentrations (EC10s) between 2.6 and 5.4 mg/L was observed. Food shortage resulted in chronic toxicity to D. magna, for wich EC10s of > or = 8.8 and < or = 20.0 mg/L were established. Chronic toxicity was found to increase with decreasing nominal particle diameter and the difference in toxicity could be explained by the difference in surface area. Using the data set, PNEC(aquatic)S > or = 0.052 and < or = 0.108 mg/L were derived. Further experiments were performed to explain the observed toxicity to the most sensitive organism, i.e., P. subcapitata. Toxicity could not be related to a direct effect of dissolved Ce or CeO2 NP uptake or adsorption, nor to an indirect effect of nutrient depletion (by sorption to NPs) or physical light restriction (through shading by the NPs). However, observed clustering of NPs around algal cells may locally cause a direct or indirect effect.

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The total number of neurons in the human neocortex unbiasedly estimated using optical disectors

Brændgaard

Evans

Howard

et al. 1990

Journal of Microscopy

277

164

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An efficient method is presented for obtaining, in under 4 h, an unbiased estimate of the total number of neurons in the human neocortex, with a coefficient of error on the estimate of N 5 yo. The novel sampling scheme used in this study is unbiased and was designed so that only a small amount of neocortical grey matter had to be removed. Hence, the majority of the cerebral grey matter and all the internal grey matter was left intact for further resampling and analysis. Each cerebral hemisphere was subdivided into the four major neocortical regions, sliced coronally at 7-mm intervals and the volume of the neocortex determined using Cavalieri's principle. Uniform sampling of neocortex was performed in the hemisphere followed by regional subsampling with a varying sampling fraction being taken from each region. Neuronal density estimates were made in thick plastic sections using optical disectors. Shrinkage estimates were made in parallel with the number estimates and found to be negligible. The total number of neocortical neurons in the right hemisphere of five normal 80-year-old men was found to be 13.7 x lo9 with an inter-individual coefficient of variation of 12%. I N T R O D U C T I O NMany methods have been developed for estimating neuronal numbers in the neocortex and all have required that thousands of cells be counted. Of these previous methods only a few estimate actual number (for a review see Haug, 1986), the rest solely estimate packing densities. Biological conclusions based on density measurements are very difficult to interpret because it will never be known if any changes in the density are-due to an alteration of total number and/or an alteration in the reference volume. Besides being very expensive in time and effort the estimates produced relied heavily on the use of unjustifiable model-based assumptions and were therefore biased. For England.

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C. Vyvyan Howard

Toxicology of nanoparticles

The effect of intrauterine growth retardation on the development of renal nephrons

Fate and Effects of CeO₂ Nanoparticles in Aquatic Ecotoxicity Tests

The total number of neurons in the human neocortex unbiasedly estimated using optical disectors

Contact Info

Product

Resources

About

C. Vyvyan Howard

Toxicology of nanoparticles

The effect of intrauterine growth retardation on the development of renal nephrons

Fate and Effects of CeO2 Nanoparticles in Aquatic Ecotoxicity Tests

The total number of neurons in the human neocortex unbiasedly estimated using optical disectors

Contact Info

Product

Resources

About

Fate and Effects of CeO₂ Nanoparticles in Aquatic Ecotoxicity Tests