Prevalence, reasons, and attitude towards abortion among Iranian married women of reproductive age in Qazvin province

Background and aims: Abortion influences the composition and size of population. Estimating the overall and type-specific abortion rates, the reasons to choose the abortion can be helpful in designing and implementing preventive intervention. Therefore, the present study was designed to determine the: (i) prevalence of abortion, (ii) attitude of married women of reproductive age towards abortion, and (iii) reasons for choosing abortion by married women of reproductive age in Qazvin province. Methods: A cross-sectional study was conducted between February and April 2023, and comprised married women of reproductive age (N = 1571) referred to urban and rural comprehensive health centers in five cities of Qazvin province. Utilizing multi-stage proportional sampling process, data for the survey (including demographic and fertility information, reasons for choosing abortion, and attitudes toward abortion) were collected online. Results: The lifetime prevalence of abortion was 18.6% (among the total sample). The past-year prevalence was 22.3% (among those who reported having had an abortion). Of those reporting having had an abortion, 73.6% reported it was their first one, and 65.1% reported it was non-spontaneous . Women’s reasons for choosing abortion fell into one of three main clusters: (i) couple’s behavior, health and relationship problems, (ii) fertility-related stressful experiences, and (iii) family economic situations. The main reported reason to choose abortion was a couple’s behavior (e.g., drug use), health (e.g., physical disease, psychological problems), and relationship problems (e.g., sexual infidelity, divorce) explaining 27% of the variance. Also, pro-abortion attitude was the most important attitude towards non-spontaneous abortion explaining 26.33% of variance. The variables that increased the likelihood of non-spontaneous abortion included choosing a reason for abortion vs. having no reason (OR = 1.77, p = 0.05), having poor vs. good mental health (OR = 1.74, p = 0.03), having a pro-abortion attitude (OR = 1.09, p = 0.09), and having ≥ 3 children vs. having no children (OR = 0.53, p = 0.06). Conclusion: Women in high-risk groups for non-spontaneous abortion (i.e., those aged over 35 years, those married for more than five years, those with an infertility history, those with a lower number of children, those living in rural areas, and those having poor mental health status) should be assessed by primary healthcare services during preconception and have early prenatal counseling to help in decisions regarding abortion

Selective removal of silyl protecting groups from hydroxyl functions with ammonium chloride in aqueous acetonitrile

1972-1974Silyl ethers are efficiently hydrolyzed to their corresponding alcohols with NH4Cl in aqueous acetonitrile. Benzylic, secondary and tert-trimethyl silyl ethers are readily cleaved at room temperature, whereas deproteetion of primary and some crowded secondary trimethyl silyl ethers takes place at 80oC

Phase Change Process in a Zigzag Plate Latent Heat Storage System during Melting and Solidification

Applying a well-performing heat exchanger is an efficient way to fortify the relatively low thermal response of phase-change materials (PCMs), which have broad application prospects in the fields of thermal management and energy storage. In this study, an improved PCM melting and solidification in corrugated (zigzag) plate heat exchanger are numerically examined compared with smooth (flat) plate heat exchanger in both horizontal and vertical positions. The effects of the channel width (0.5 W, W, and 2 W) and the airflow temperature (318 K, 323 K, and 328 K) are exclusively studied and reported. The results reveal the much better performance of the horizontal corrugated configuration compared with the smooth channel during both melting and solidification modes. It is found that the melting rate is about 8% faster, and the average temperature is 4 K higher in the corrugated region compared with the smooth region because of the large heat-exchange surface area, which facilitates higher rates of heat transfer into the PCM channel. In addition to the higher performance, a more compact unit can be achieved using the corrugated system. Moreover, applying the half-width PCM channel accelerates the melting rate by eight times compared to the double-width channel. Meanwhile, applying thicker channels provides faster solidification rates. The melting rate is proportional to the airflow temperature. The PCM melts within 274 s when the airflow temperature is 328 K. However, the melting time increases to 460 s for the airflow temperature of 308 K. Moreover, the PCM solidifies in 250 s and 405 s in the cases of 318 K and 328 K airflow temperatures, respectively