8 research outputs found

    Image post-processing techniques of 64-slice CT in the diagnosis of external cardiac malformations

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    Abstract: Objective To discuss the value of Image post-processing techniques of 64-slice CT in the diagnosis of external cardiac malformations.Materials and methods Retrospective reviews of imaging data base were done which consisted of 59 patients with congenital cardiovascular malformations who presented to our hospital. The scanning data were carried on multiple planar reformation (MPR), maximum intensity projection (MIP) and volume rendering (VR) as needed. The operation results were taken as diagnostic standard to evaluate the diagnostic accuracy of 64-slice spiral CT. Results 69 external cardiac malformations (cardiovascular connection department and peripheral vascular malformations) were confirmed by operation in all 59 patients. 67 malformations correctly diagnosed and 2 malformations were incorrecty diagnos in 64-slice spiral CT. The accuracy in diagnosing cardiovascular connection department and peripheral vascular malformations were 97.10% (67/69). There was no significant difference in image scores compared with the three image post-processing techniques (P value were 0.612, 0.902 and 0.815, respectively). Conclusions 64-slice spiral CT may be used as a primary technique and as a substitute for the diagnosis imaging portion of cardiovascular connection and peripheral vascular malformations

    Variation of the winter monsoon in South China Sea over the past 183 years: Evidence from oxygen isotopes in coral

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    Oxygen isotope (&delta;18O) data in winter months in living coral Porites lutea collected from the Xisha Islands, South China Sea is significantly correlated to the measured winter monsoon velocity (WMV) with a correlation coefficient of 0.63. Based on 40-year (1961&ndash;2000) instrumental data, a transfer function between the WMV and the winter &delta;18O is established: WMV = 2.819 &delta;18O + 19.615 (N = 40, p &lt; 0.0001). Based on the calculated WMV from &delta;18O over the past 183 years, the sequence of winter monsoon velocity (WMV) from year 1818 to 2000 in the South China Sea is re-constructed. The sequence can be divided into three stages: the first stage shows a decreasing trend of 0.009 m/s&middot;yr from 1818 to 1954, the second stage indicates an increasing trend of 0.011 m/s&middot;yr from 1955 to 1976, and the last stage shows a decreasing trend of 0.026 m/s&middot;yr from 1977 to 2000. The maximum reduction in winter monsoon velocity over the last 24 years (1977&ndash;2000) is approximately 20% of the average over the last 183 years (1918&ndash;2000). The variation of wind velocity shows two complete cycles over the past 183 years. In particular, the strongest and weakest winter monsoon velocities in the last two centuries occurred in the 1830s and 1940s, respectively. The variation in winter monsoon velocity in the 20th century is closely linked to the surface temperature of the South China Sea, as well as air temperature over continental China. In addition, the winter monsoon was weak during two warm periods, i.e. the 1940s and 1980s. Statistical analysis of the winter monsoon velocity anomaly as well as the El Ni&ntilde;o (warm event) and La Ni&ntilde;a (cold event) phenomena indicates that 70% of El Ni&ntilde;o events correspond to the weakness of the winter monsoon.</p

    Usage of 64-slice CT in the diagnosis of congenital cardiovascular malformations

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    Abstract: Objective To study the value of the 64-slice CT used in the diagnosis of congenital cardiovascular malformations. Material and methods the CT images of 59 patients with congenital cardiovascular malformations were analyzed using imaging reconstructive techniques which included the volume rendering (VR), multiply plane reformation (MPR), maximum intensity projection (MIP) and curved planar reformation (CPR). The results were compared with those of the surgery. There were two groups according to the type of cardiovascular malformation, one group included intracardiac malformation and another extracardiac malformation (included cardiovascular department and peripheral vascular malformation). Results 59 patients with congenital heart disease were all confirmed by the operation. In all of them, intracardiac malformations were 129 places , CT diagnosis correctly 114 places, misdiagnosis 15 places, diagnostic accuracy was 88.37% (114/129); Extracardiac malformation in 69 places, compared with surgical results, CT inspection correct diagnosis 67 places, missing 2 places, diagnostic accuracy was 97.10% (67/69). Conclusion 64-slice spiral CT can be used as an effective method for evaluation of congenital cardiovascular disease,especially for extracardiac malformation diagnosis

    Recent 121-year variability of western boundary upwelling in the northern South China Sea

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    Coastal upwelling is typically related to the eastern boundary upwelling system, whereas the powerful southwest Asian summer monsoon can also generate significant cold, nutrient-rich deep water in western coastal zones. Here we present a sea surface temperature record (A.D. 1876-1996) derived from coral Porites Sr/Ca for an upwelling zone in the northern South China Sea. The upwelling-induced sea surface temperature anomaly record reveals prominent multidecadal variability driven by Asian summer monsoon dynamics with an abrupt transition from warmer to colder conditions in 1930, and a return to warmer conditions after 1960. Previous studies suggest the expected increase in atmospheric CO2 for the coming decades may result in intensification in the eastern boundary upwelling system, which could enhance upwelling of CO2-rich deep water thus exacerbating the impact of acidification in these productive zones. In contrast, the weakening trend since 1961 in the upwelling time series from the northern South China Sea suggests moderate regional ocean acidification from upwelling thus a stress relief for marine life in this region.</p

    Acceleration of modern acidification in the South China Sea driven by anthropogenic CO2

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    Modern acidification by the uptake of anthropogenic CO2 can profoundly affect the physiology of marine organisms and the structure of ocean ecosystems. Centennial-scale global and regional influences of anthropogenic CO2 remain largely unknown due to limited instrumental pH records. Here we present coral boron isotope-inferred pH records for two periods from the South China Sea: AD 1048-1079 and AD 1838-2001. There are no significant pH differences between the first period at the Medieval Warm Period and AD 1830-1870. However, we find anomalous and unprecedented acidification during the 20th century, pacing the observed increase in atmospheric CO2. Moreover, pH value also varies in phase with inter-decadal changes in Asian Winter Monsoon intensity. As the level of atmospheric CO2 keeps rising, the coupling global warming via weakening the winter monsoon intensity could exacerbate acidification of the South China Sea and threaten this expansive shallow water marine ecosystem.</p
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