Abstract: Background: postpartum depression is a severe health problem which affects both developing and developed countries. It is one of the diseases which affect women after the delivery of their baby and difficult to manage because of the presence of postpartum blues. Objective: To assess the proportion and factors of postpartum depression following normal vaginal deliveries and cesarean section among postnatal women at Finoteselam Hospital, April 05, 2018–May 20, 2018. Result: The proportion of postpartum depression among postpartum women was 13% of which 9.1% and 3.9% for vaginal and cesarean delivery respectively. In this study; previous history of postpartum depression [AOR=5.498 (1.843-16.405)], no domestic violence [AOR=0.250 (0.065-0.956)], women who faced negative life event [AOR=17.322 (4.753-63.135)], previous history of two abortion [AOR=0.160 (0.034-0.746). Previous history of mental illness, [AOR=.187 (0.053-0.659)], being at the level of secondary education [AOR=8.818 (1.596-48.716)] and husband support during pregnancy [AOR=.048 (.014-.164)] had an association with postpartum depression. All the individual Edinburgh postnatal depression scale score mean values were higher for the cesarean group which was 6.97 when compared to the vaginal delivery group was 5.865. Conclusion: Prevalence of postnatal depression was comparably high in vaginal deliveries compared to cesarean sections. By revealing the prevalence and factors that determine postpartum depression, this study recommended interventions like Integration of mental health service with existing maternal health care and health institutions to prevent Postpartum depression at Finoteselam Hospital.Abstract: Background: postpartum depression is a severe health problem which affects both developing and developed countries. It is one of the diseases which affect women after the delivery of their baby and difficult to manage because of the presence of postpartum blues. Objective: To assess the proportion and factors of postpartum depression following norm...Show More
Abstract: The chemical and physical properties of glass do not allow it to be considered as an inert material. Therefore, it is necessary to discuss the ability of laboratory glassware to influence the state and properties of aqueous solutions, including DNA solutions. As a demonstration of this ability, it is shown here how contact with glass affects the state of salts in aqueous solutions. In terms of the topic under discussion, it is especially important that sodium salts are very sensitive to these contacts. Thus, it is shown here that contact with glass can affect the formation of fibers from sodium salts of DNA, which were mainly used in X-ray studies aimed at determining the molecular structure and parameters of DNA molecules. Special attention is paid to the fact that laboratory glassware is also sensitive to contact with aqueous solutions, including DNA solutions. That such sensitivity may be important to biologists is also shown here. In particular, it was shown how ignoring the sensitivity of silica glass, from which the photometric cells are made, to electrization gave rise to misconceptions about the spectral properties of aqueous solutions, including DNA solutions. The effect of air dissolved in aqueous DNA solutions on the spectral properties of both these solutions and the photometric cells containing them is also shown. In particular, it was shown that UV absorption of aqueous DNA solutions, which does not contain air, is completely insensitive to heating, and UV absorption of aqueous DNA solutions, which are saturated with air, is supersensitive to heating. In other words, it is shown here that our understanding of the thermal denaturation of DNA, which is reflected in the UV absorption of its aqueous solutions, was formed due to these two types of sensitivity. In the end, a conclusion is proposed here about the significant contribution of glass and air to the creation of traditional ideas about the structure and properties of DNA.Abstract: The chemical and physical properties of glass do not allow it to be considered as an inert material. Therefore, it is necessary to discuss the ability of laboratory glassware to influence the state and properties of aqueous solutions, including DNA solutions. As a demonstration of this ability, it is shown here how contact with glass affects the st...Show More