Maternal and fetal complications are increased when pregnancy is complicated by diabetes, and this may be further influenced by racial and cultural differences. We examined fetal and maternal outcomes in Indo-Asian and Caucasian women attending the same antenatal diabetes service to see if there were any differences. Women with diabetes mellitus (type 1, type 2 and gestationally-acquired disease) complicating pregnancy, registered at the combined diabetes/antenatal clinic of this University teaching hospital over the period 1990-1998 were included. Fetal outcomes examined were miscarriage <24 weeks, stillbirths, neonatal deaths up to 28 days of life, perinatal mortality, congenital malformations and size for gestational age. Maternal outcomes examined were rates of caesarean section and vaginal deliveries, and number of pre-term deliveries <37 completed weeks of gestation. Outcomes for Indo-Asian and Caucasian women were similar, with a take-home baby rate of 96% and 92%, respectively. There was no perinatal mortality in Indo-Asian women, who were more likely to have a vaginal delivery and less likely to have a baby large for gestational age. Pregnancies complicated by type 2 diabetes in both groups pose the greatest threat to a successful pregnancy outcome. Indo-Asian and Caucasian women attending the same antenatal diabetes service have comparable outcomes. Attendance for pre-pregnancy care needs to be encouraged to combat the high early pregnancy loss and congenital malformation rate identified, particularly in those with type 2 disease, irrespective of ethnicity.
The 2007 Recommendations of the International Commission on Radiological Protection (ICRP, 2007) introduced changes that affect the calculation of effective dose, and implied a revision of the dose coefficients for internal exposure, published previously in the Publication 30 series (ICRP, 1979, 1980, 1981, 1988b) and Publication 68 (ICRP, 1994b). In addition, new data are available that support an update of the radionuclide-specific information given in Publications 54 and 78 (ICRP, 1988a, 1997b) for the design of monitoring programmes and retrospective assessment of occupational internal doses. Provision of new biokinetic models, dose coefficients, monitoring methods, and bioassay data was performed by Committee 2, Task Group 21 on Internal Dosimetry, and Task Group 4 on Dose Calculations. A new series, the Occupational Intakes of Radionuclides (OIR) series, will replace the Publication 30 series and Publications 54, 68, and 78. Part 1 of the OIR series has been issued (ICRP, 2015), and describes the assessment of internal occupational exposure to radionuclides, biokinetic and dosimetric models, methods of individual and workplace monitoring, and general aspects of retrospective dose assessment. The following publications in the OIR series (Parts 2–5) will provide data on individual elements and their radioisotopes, including information on chemical forms encountered in the workplace; a list of principal radioisotopes and their physical half-lives and decay modes; the parameter values of the reference biokinetic model; and data on monitoring techniques for the radioisotopes encountered most commonly in workplaces. Reviews of data on inhalation, ingestion, and systemic biokinetics are also provided for most of the elements. Dosimetric data provided in the printed publications of the OIR series include tables of committed effective dose per intake (Sv per Bq intake) for inhalation and ingestion, tables of committed effective dose per content (Sv per Bq measurement) for inhalation, and graphs of retention and excretion data per Bq intake for inhalation. These data are provided for all absorption types and for the most common isotope(s) of each element. The electronic annex that accompanies the OIR series of reports contains a comprehensive set of committed effective and equivalent dose coefficients, committed effective dose per content functions, and reference bioassay functions. Data are provided for inhalation, ingestion, and direct input to blood. The present publication provides the above data for the following elements: hydrogen (H), carbon (C), phosphorus (P), sulphur (S), calcium (Ca), iron (Fe), cobalt (Co), zinc (Zn), strontium (Sr), yttrium (Y), zirconium (Zr), niobium (Nb), molybdenum (Mo), and technetium (Tc).
BackgroundDespite evidence that motorcycle helmets reduce morbidity and mortality, helmet laws and rates of helmet use vary by state in the U.S.MethodsWe pooled data from eleven states: five with universal laws requiring all motorcyclists to wear a helmet, and six with partial laws requiring only a subset of motorcyclists to wear a helmet. Data were combined in the Crash Outcome Data Evaluation System’s General Use Model and included motorcycle crash records probabilistically linked to emergency department and inpatient discharges for years 2005-2008. Medical outcomes were compared between partial and universal helmet law settings. We estimated adjusted relative risks (RR) and 95 % confidence intervals (CIs) for head, facial, traumatic brain, and moderate to severe head/facial injuries associated with helmet use within each helmet law setting using generalized log-binomial regression.ResultsReported helmet use was higher in universal law states (88 % vs. 42 %). Median charges, adjusted for inflation and differences in state-incomes, were higher in partial law states (emergency department $1987 vs. $1443; inpatient $31,506 vs. $25,949). Injuries to the head and face, including traumatic brain injuries, were more common in partial law states. Effectiveness estimates of helmet use were higher in partial law states (adjusted-RR (CI) of head injury: 2.1 (1.9-2.2) partial law single vehicle; 1.4 (1.2, 1.6) universal law single vehicle; 1.8 (1.6-2.0) partial law multi-vehicle; 1.2 (1.1-1.4) universal law multi-vehicle).ConclusionsMedical charges and rates of head, facial, and brain injuries among motorcyclists were lower in universal law states. Helmets were effective in reducing injury in both helmet law settings; lower effectiveness estimates were observed in universal law states.
Objective To assess the diagnostic accuracy of a new technique of cervical imaging and to consider its Design A prospective cross-sectional study with each case acting as its own control, comparing video Setting University of Birmingham colposcopy clinics, City Hospital and Birmingham Women's Hospital.Participants Fifty women referred for colposcopy.Interventions The women had a video colpogram recording made prior to colposcopy. Main outcome measuresThe proportion of technically suitable colpograms obtained and the level of agreement between colposcopist and video screener.Results The images were satisfactory or good in 94% cases, and there was a very high level of agreement between colposcopist and video screener (K = 0.79). If the technique had been used in a primary health care setting as a secondary screening method for women with low grade cervical smear abnormalities, 6 1 % would have avoided referral for colposcopy.Conclusions Video colpography is an accurate, portable and quick method of cervical imaging. It combines the simplicity of a video camera with the versatility of computerised digital imaging and has great potential in the fields of teaching, audit and screening of low grade smear abnormalities.potential as a secondary cervical screening method.colpography with colposcopy.
Despite the reductions in teen driver crashes associated with Graduated Driver Licensing (GDL), South Carolina's teen driver crash rates remain substantially higher than those for adult drivers. Established risk factors for fatal teen driver crashes, including restraint nonuse, transporting teen passengers, and speeding also increase the risk of nonfatal injury in single vehicle crashes. As South Carolina examines strategies to further reduce teen driver crashes and associated injuries, the state could consider updating its GDL passenger restriction to either none or one passenger <21years and dropping the passenger restriction exemption for trips to and from school. Surveillance systems such as CODES that link crash data with health outcome data provide needed information to more fully understand the circumstances and consequences of teen driver nonfatal crashes and evaluate the effectiveness of strategies to improve teen driver safety.
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