Conectar
To examine how menstruation, contraceptive use and gender-based violence intersect to shape the sexual and reproductive health and autonomy of girls and young women in Kenya.
Qualitative study exploring girls and young women’s experiences with contraceptive use and menstrual management, using in-depth interviews and focus group discussions analysed through a reflexive thematic approach.
Four county-run family planning clinics in Uasin Gishu County, Kenya.
77 girls and young women aged 15–19 years (via 35 in-depth interviews and 7 focus group discussions) and 27 family planning clinic providers (via 5 focus group discussions).
Interviewees’ contributions suggest that covert contraceptive use, when discovered through menstrual monitoring, provoked intimate partner violence. Heavy menstrual bleeding, whether related to contraceptive use or not, was viewed as a sexual restriction and also fuelled intimate partner violence. Furthermore, the inability to afford sanitary pads, combined with the stigma surrounding menstruation, drove some girls and young women into exploitative sexual relationships, often resulting in unwanted or unintended pregnancies.
Menstrual bleeding and contraceptive use, both independently and in combination, affect girls and young women’s reproductive autonomy and overall health and well-being, particularly in relation to gender-based violence. Improving menstrual hygiene management, challenging the stigma and harmful norms tied to menstruation and contraception and ensuring safe contraceptive use are integral to improving sexual and reproductive health and autonomy and are requisite for preventing and eradicating gender-based violence.
by Anthony Nearman, Alriana Buller-Jarrett, Dawn Boncristiani, Eugene Ryabov, Yanping Chen, Jay D. Evans
Efforts to improve honey bee colony health continue due to persistent high loss rates. A major focus in this area is Deformed wing virus (DWV), a key driver of colony loss. The application of modern molecular techniques has characterized the DWV genome and its high mutational rate that enables the formation of diverse quasi-species populations capable of evading host immune responses, while other work has led to the development of DWV clones suitable for sequence-specific tracking of viral dynamics. In this work we combine knowledge of these efforts to track the mutational progression in a DWV clone surrounding an area of low nucleotide diversity and compare it to its wild-type source. We achieve this through amplicon sequencing of the structural viral protein, VP2, after incubation across three generations and multiple host genetic sources. Inocula were injected into pupae, allowed to replicate, then extracted for a further two generations of injections. For the final injection generation, recipient pupae were injected with preparations from either the same genetic source or cross-fostered from other colonies. Overall, we compared the mean number and type of mutations, their proportional abundance in the read pool, and specific locations across strains. Sequencing results indicate a limited number of mutational hotspots, which were driven by silent mutations in the final injection generation of the wild-type strains. No significant differences were found among other mutation types, cross-fostering status, or interactions with host genetics. This work is an initial attempt at examining viral dynamics in a cloned system across multiple generations and treatment groups. The results provide valuable insights, which may further enhance our understanding of viral dynamics and potentially improve future honey bee therapeutics.
FreshRSS 