Severe maternal and perinatal outcomes from uterine rupture among women at term with a trial of labor.

OBJECTIVE: To describe maternal and perinatal morbidity and mortality associated with uterine rupture (UR) among women with prior cesarean/s, singleton term pregnancies and a trial of labor after cesarean (TOLAC). STUDY DESIGN: Linked hospital discharge files and birth/fetal death certificates identified potential cases of UR in Massachusetts from 1990 to 1998 with definitive identification by medical record abstraction. RESULT: Among the 347 identified URs, severe outcomes occurred in 86 cases (25%), in 49 (14%) of mothers and 49 (14%) of infants. Of the infants, 25 were discharged with a good prognosis. Maternal age and interdelivery interval <18 months (relative risk (RR)=1.55; 95% confidence interval (CI): 1.05, 2.31) were associated with a severe outcome. The type of hospital and labor were not associated with the increased risk of a severe outcome. CONCLUSION: Assuming a 0.7% UR rate among women at term with a TOLAC, the increased rate of severe outcomes related to UR above the baseline risk of elective cesarean is estimated to be 1.3 per 1000 TOLACs.

Giant dipole resonance in the hot and thermalized 132Ce nucleus: damping of collective modes at finite temperature.

The gamma decay of the giant dipole resonance (GDR) in the 132Ce compound nucleus with temperature up to approximately 4 MeV has been measured, using the reaction 64Ni + 68Zn at E(beam) = 300, 400, and 500 MeV. The gamma and charged particles measured in coincidence with recoils are consistent with a fully equilibrated compound nucleus emission. The GDR width, obtained with the statistical model analysis, is found to increase almost linearly with temperature. This increase is rather well reproduced within a model including thermal shape fluctuations and the lifetime of the compound nucleus.

Nuclear detecting systems at LNL and LNS: foreseen experiments to provide basic data for heavy-ion risk assessment.

The use of existing detecting systems developed for nuclear physics studies allows collecting data on particle and ion production cross-sections in reactions induced by Oxygen and Carbon beams, of interest for hadrontherapy and heavy-ion risk assessment. The MULTICS and GARFIELD apparatus, together with the foreseen experiments, are reviewed.