1. Cheslack-Postava K, Liu K, Bearman PS. {{Closely Spaced Pregnancies Are Associated With Increased Odds of Autism in California Sibling Births}}. {Pediatrics}. 2011 Jan 10.

Objective: To determine whether the interpregnancy interval (IPI) is associated with the risk of autism in subsequent births. Methods: Pairs of first- and second-born singleton full siblings were identified from all California births that occurred from 1992 to 2002 using birth records, and autism diagnoses were identified by using linked records of the California Department of Developmental Services. IPI was calculated as the time interval between birth dates minus the gestational age of the second sibling. In the primary analysis, logistic regression models were used to determine whether odds of autism in second-born children varied according to IPI. To address potential confounding by unmeasured family-level factors, a case-sibling control analysis determined whether affected sibling (first versus second) varied with IPI. Results: An inverse association between IPI and odds of autism among 662 730 second-born children was observed. In particular, IPIs of <12, 12 to 23, and 24 to 35 months were associated with odds ratios (95% confidence intervals) for autism of 3.39 (3.00-3.82), 1.86 (1.65-2.10), and 1.26 (1.10-1.45) relative to IPIs of >/=36 months. The association was not mediated by preterm birth or low birth weight and persisted across categories of sociodemographic characteristics, with some attenuation in the oldest and youngest parents. Second-born children were at increased risk of autism relative to their firstborn siblings only in pairs with short IPIs. Conclusions: These results suggest that children born after shorter intervals between pregnancies are at increased risk of developing autism; the highest risk was associated with pregnancies spaced <1 year apart.

2. Conson M, Salzano S, Grossi D. {{Neuropsychological functioning of an Asperger child with exceptional skill in arranging picture stories}}. {Neurocase}. 2011 Jan 10:1-7.

A striking special ability in arranging picture stories was reported in an Asperger child (C.M.) showing an exceptional performance on Wechsler picture arrangement subtest. Neuropsychological examination did not disclose visuoperceptual and spatial defects, or working memory, attention and executive disorders, but revealed an attentional bias towards local details of complex structures. A specific assessment of C.M.’s understanding of picture stories demonstrated that, with respect to normal controls, he showed an enhanced ability to detect causal links among elements of a story. These findings provide support to the hypothesis that savantism can be related to strong systemizing in autism.

3. Holdnack J, Goldstein G, Drozdick L. {{Social Perception and WAIS-IV Performance in Adolescents and Adults Diagnosed With Asperger’s Syndrome and Autism}}. {Assessment}. 2011 Jan 10.

Previous research using the Wechsler scales has identified areas of cognitive weaknesses in children, adolescents, and adults diagnosed with Autism or Asperger’s syndrome. The current study evaluates cognitive functioning in adolescents and adults diagnosed with Autism or Asperger’s syndrome using the Wechsler Adult Intelligence Scale-Fourth Edition (WAIS-IV) and the Social Perception subtest from the Advanced Clinical Solutions. Deficits in social perception, verbal comprehension, and processing speed were found in the Autism sample. Additionally, they exhibited inconsistent performance on auditory working memory and perceptual reasoning tasks. The Asperger’s syndrome group had better overall cognitive skills than the Autism group, but compared with controls, they had weaknesses in processing speed, social perception, and components of auditory working memory. Both groups had relatively low scores on the WAIS-IV Comprehension subtest compared with the other verbal comprehension subtests. Clinical application and utility of the WAIS-IV and Social Perception in Autism Spectrum Disorders are discussed.

4. Mironov SL, Skorova EY, Kugler S. {{Epac-mediated cAMP-signalling in the mouse model of Rett Syndrome}}. {Neuropharmacology}. 2011 Jan 10.

Rett Syndrome (RTT) is a neurodevelopmental disease thought to be caused by deficits in synaptogenesis and neuronal circuitry. cAMP is one of the key factors for neuronal outgrowth, plasticity and regeneration. We examined its homeostasis in RTT during early postnatal development of the essential part of the respiratory network, pre-Botzinger complex. Using targeted expression of Epac1-camps sensor in neurons we quantified cAMP levels and their fluctuations in MeCP2-/y mice, an established model of RTT. Resting cAMP levels in the mutant were smaller than in the wild-type. cAMP transients elicited by depolarisation and stimulation of adenylate cyclase had also smaller amplitudes and faster time-courses. The anomalies in MeCP2 -/y mice were removed after inhibition of phosphodiesterase PDE4 with rolipram. Brief cAMP elevations triggered elongation of neuronal processes that was significantly bigger in the wild-type. The effects were observed after inhibition of protein kinase A and mimicked by activation of a guanine nucleotide exchange factor, Epac, with 8-(4-Chlorophenylthio)-2′-O-methyladenosine-3′,5′-cyclic monophosphate (8-pCPT). The agonist reinforced bursting in preBotC neurons in the mutant and converted it to the wild-type. All actions of 8-pCPT were not reproduced by its non-active analogue and abolished by Epac signalling inhibitor Brefeldin A. We propose that disturbances in cAMP homeostasis in MeCP2 -/y mice can lead to inadequate Epac signalling. Concomitant defective development of respiratory circuits may be responsible for irregular breathing activity in RTT.