Intercomparison of the northern hemisphere winter mid-latitude atmospheric variability of the IPCC models

We compare, for the overlapping time frame 1962-2000, the estimate of the northern hemisphere (NH) mid-latitude winter atmospheric variability within the XX century simulations of 17 global climate models (GCMs) included in the IPCC-4AR with the NCEP and ECMWF reanalyses. We compute the Hayashi spectra of the 500hPa geopotential height fields and introduce an integral measure of the variability observed in the NH on different spectral sub-domains. Only two high-resolution GCMs have a good agreement with reanalyses. Large biases, in most cases larger than 20%, are found between the wave climatologies of most GCMs and the reanalyses, with a relative span of around 50%. The travelling baroclinic waves are usually overestimated, while the planetary waves are usually underestimated, in agreement with previous studies performed on global weather forecasting models. When comparing the results of various versions of similar GCMs, it is clear that in some cases the vertical resolution of the atmosphere and, somewhat unexpectedly, of the adopted ocean model seem to be critical in determining the agreement with the reanalyses. The GCMs ensemble is biased with respect to the reanalyses but is comparable to the best 5 GCMs. This study suggests serious caveats with respect to the ability of most of the presently available GCMs in representing the statistics of the global scale atmospheric dynamics of the present climate and, a fortiori, in the perspective of modelling climate change.Comment: 39 pages, 8 figures, 2 table

Dental calculus and isotopes provide direct evidence of fish and plant consumption in Mesolithic Mediterranean

In this contribution we dismantle the perceived role of marine resources and plant foods in the subsistence economy of Holocene foragers of the Central Mediterranean using a combination of dental calculus and stable isotope analyses. The discovery of fish scales and flesh fragments, starch granules and other plant and animal micro-debris in the dental calculus of a Mesolithic forager dated to the end of the 8th millenium BC and buried in the Vlakno Cave on Dugi Otok Island in the Croatian Archipelago demonstrates that marine resources were regularly consumed by the individual together with a variety of plant foods. Since previous stable isotope data in the Eastern Adriatic and the Mediterranean region emphasises that terrestrial-based resources contributed mainly to Mesolithic diets in the Mediterranean Basin, our results provide an alternative view of the dietary habits of Mesolithic foragers in the Mediterranean region based on a combination of novel methodologies and data

Humoral effects of metoclopramide and domperidone in normal subjects and in hypertensive patients

To evaluate whether, in humans, metoclopramide (MCP), a DA2 antagonist which readily crosses the brain-blood barrier, can stimulate plasma aldosterone (ALD) through hypophyseal-adrenal axis activation in addition to its direct adrenal antidopaminergic activity, we have investigated the effects of MCP and domperidone (DMP), a specific antagonist of peripheral DA2 receptors, on plasma ALD, adrenocorticotropin (ACTH), cortisol and prolactin (PRL) in 15 subjects. Ten controls and 5 uncomplicated essential hypertensive patients, in whom the dopaminergic tone is hypothesized to be reduced, received, according to a single-blind randomized procedure, MCP (10 mg iv) or DMP (10 mg iv) and, after an interval of at least 1 week, the reverse treatment. MCP and DMP similarly increased PRL (p<0.001), while only MCP significantly increased plasma ALD (p<0.01), ACTH (p<0.02) and cortisol (p<0.02) both in normotensives and in hypertensives, without any difference between them. These data confirm that, in spite of similar DA2 antagonistic potency of the two drugs, only MCP is able to increase plasma ALD. Since MP significantly increased also ACTH levels we cannot exclude an involvement of this hormone on MCP-induced ALD release. Finally, the similar PRL and ALD response in normotensives and hypertensives does not support the hypothesis of a reduced dopaminergic system activity in essential hypertensives

Increased myocardial ultrasonic reflectivity is associated with extreme hypertensive left ventricular hypertrophy - A tissue characterization study in humans

We assessed myocardial reflectivity pattern in a large spectrum of left ventricular mass values, covering the extremes from absent to severe myocardial hypertensive hypertrophy. Quantitatively assessed ultrasonic backscatter is an index of ultrasonic tissue characterization directly related to the morphometrically evaluated collagen content in humans. We enrolled 88 essential hypertensives. With an echo prototype implemented in our Institute, integrated values of the radiofrequency signal of myocardial walls were obtained and normalized for those of the pericardium (Integrated Backscatter Index, IBI, %). Left ventricular mass index (LVMI) was measured by Devereux formula. There was a weak correlation between septal IBI and LVMI (r = 0.35; P 175 g/m2) left ventricular hypertrophy. The Integrated Backscatter Index in the septum was lower in patients of Group I (IBI = 23.3% +/- 3.6%) and II (IBI = 26.5 +/- 7.6; P = NS v Group I), in comparison with patients of Group III (IBI = 31.1 +/- 5.9; P < .02 v II; P < .0001 v I). An increased myocardial wall reflectivity is detectable only in the presence of extreme forms of hypertensive left ventricular hypertrophy

REGRESSION OF HYPERTENSIVE MYOCARDIAL HYPERTROPHY DOES NOT AFFECT ULTRASONIC MYOCARDIAL REFLECTIVITY - A TISSUE CHARACTERIZATION STUDY

Objective: Ultrasonic backscatter from the myocardial walls is directly related to the morphometrically or biochemically evaluated collagen content in man, and shows a normal pattern of quantitatively assessed ultrasonic backscatter in hypertensive patients, even in the presence of left ventricular hypertrophy. Whether the pharmacologically induced regression of left ventricular hypertrophy in hypertensive patients is accompanied by a disproportionate increase in relative connective tissue content is not yet known. The objective of the present study was to assess the effects of regression of left ventricular hypertrophy on the quantitatively evaluated myocardial reflectivity in essential hypertensives. Design: We evaluated 19 mild-to-moderate essential hypertensives with echocardiographically assessed left ventricular hypertrophy, before and after 8 months' effective antihypertensive therapy with 20-40 mg enalapril once a day, associated with diuretics or calcium antagonists, or both, in six patients to achieve optimal blood pressure control. Using a modified echo machine developed in the Institute of Clinical Physiology, Pisa, an on-line radio-frequency analysis was performed to obtain quantitative operator-independent measurements of the integrated backscatter signal of the ventricular septum and the posterior wall. The integrated values of the radio-frequency signal from the myocardial walls were normalized for those from the pericardial interface and were expressed as percentages (integrated backscatter index). Results: In comparison with baseline, the treated hypertensives showed significant decreases in mean blood pressure, left ventricular mass index, and septal and posterior wall thickness. However, integrated backscatter index values were similar at baseline and after therapy for both the septum and the posterior wall. Conclusion: Antihypertensive therapy with enalapril does not increase myocardial reflectivity, although it does induce regression of left ventricular hypertrophy. This suggests that, in accord with experimental data, regression of hypertrophy is achieved by enalapril through a proportionate regression of the myocyte and connective tissue components of the myocardium

Lack of correlation between cardiac mass and arteriolar structural changes in mild-to-moderate hypertension.

A morphological restructuring of cardiac and arteriolar tissue is common in hypertension. The parallel evolution of these two processes as a compensatory response to pressure overload is a frequently assumed but unsubstantiated hypothesis. To evaluate this possibility, we have concomitantly measured left ventricular mass (LVM; two-dimensional echo) and minimal forearm vascular resistance (FVR; derived from the ratio of intra-arterial blood pressure: forearm blood flow by venous plethysmography) at maximal postischemic (13 min ischemia + 1 min hand exercise) reactive hyperemia. The study was performed on 29 essential hypertensive patients (15 males, 14 females, aged 50 +/- 10 years) who had not been undergoing treatment for hypertension for at least 15 days at the time of study. Minimum FVR was taken as a hemodynamic index of the integrated arteriolar lumen at the forearm level. LVM index and minimum FVR ranged from normal to clearly altered values. In spite of a wide spread of values, no correlation existed between the individual values of the two variables. Systemic mean blood pressure correlated with minimum FVR and tended to correlate with LVMI. Thus, morphological restructing of cardiac and arteriolar tissue does not seem to evolve in parallel in human hypertension. Pressure overload may contribute to cardiovascular hypertrophy, but other unrelated mechanisms may also underlie the development of cardiac and arteriolar abnormalities of human hypertensio