25 research outputs found
Characterizing physiological and symptomatic variation in menstrual cycles using self-tracked mobile health data
The menstrual cycle is a key indicator of overall health for women of
reproductive age. Previously, menstruation was primarily studied through survey
results; however, as menstrual tracking mobile apps become more widely adopted,
they provide an increasingly large, content-rich source of menstrual health
experiences and behaviors over time. By exploring a database of user-tracked
observations from the Clue app by BioWink of over 378,000 users and 4.9 million
natural cycles, we show that self-reported menstrual tracker data can reveal
statistically significant relationships between per-person cycle length
variability and self-reported qualitative symptoms. A concern for self-tracked
data is that they reflect not only physiological behaviors, but also the
engagement dynamics of app users. To mitigate such potential artifacts, we
develop a procedure to exclude cycles lacking user engagement, thereby allowing
us to better distinguish true menstrual patterns from tracking anomalies. We
uncover that women located at different ends of the menstrual variability
spectrum, based on the consistency of their cycle length statistics, exhibit
statistically significant differences in their cycle characteristics and
symptom tracking patterns. We also find that cycle and period length statistics
are stationary over the app usage timeline across the variability spectrum. The
symptoms that we identify as showing statistically significant association with
timing data can be useful to clinicians and users for predicting cycle
variability from symptoms or as potential health indicators for conditions like
endometriosis. Our findings showcase the potential of longitudinal,
high-resolution self-tracked data to improve understanding of menstruation and
women's health as a whole.Comment: The Supplementary Information for this work, as well as the code
required for data pre-processing and producing results is available in
https://github.com/iurteaga/menstrual_cycle_analysi
Mobile sex-tech apps: How use differs across global areas of high and low gender equality
Digital technologies are increasingly intertwined into people’s sexual lives, with growing scholarly interest in the intersection of sex and technology (sex–tech). However, much of the literature is limited by its over emphasis on negative outcomes and the predominance of work by and about North Americans, creating the impression that sex–tech is largely a Western phenomenon. Based on responses from 130,885 women in 191 countries, we assessed how women around the world interact with mobile technology for sex-related purposes, and whether in areas of greater gender inequality, technological accessibility may be empowering women with knowledge about sexuality. We investigated women’s use of technology to find sexual partners, learn about sex and improve their sexual relationships, and track their own sexual health. About one-fifth reported using mobile apps to find sexual partners. This use varied by region: about one-third in Oceania, one-fourth in Europe and the Americas, and one-fifth in Asia and Africa. Staying connected when apart was the most commonly selected reason for app use with a sexual partner. About one-third had used an app to track their own sexual activity. Very few reported that the app they used to improve their sexual relationships was detrimental (0.2%) or not useful (0.6%). Women in countries with greater gender inequality were less likely to have used mobile apps to find a sexual partner, but nearly four times more likely to have engaged in sending and receiving sexts. To our knowledge, this study provides the most comprehensive global data on sex–tech use thus far, demonstrates significant regional variations in sex-tech use, and is the first to examine women’s engagement in sex-related mobile technology in locations with greater gender disparities. These findings may inform large-scale targeted studies, interventions, and sex education to improve the lives of women around the world
Violència i Identitat
Hi ha concepte que semblen diĂ fans, però que poden tornar-se ambigus quan hi reflexionem amb atenciĂł, com el de la violència. Si bĂ© actualment aquest terme envaeix el nostre espai i sovint el llegim de manera unĂvoca, en el moment en què hi aprofundim hem de reconsiderar-ne el significat. AixĂ mateix, la identitat, que ha estat el tema nuclear de l'art, el pensament i l'art occidental des del Romanticisme fins al jo lĂquid de la Postmodernitat, ha adquirit una dimensiĂł polisèmica al llarg del temps
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Dual Mode Sensing of Binding and Blocking of Cancer Exosomes to Biomimetic Human Primary Stem Cell Surfaces.
Cancer-derived exosomes (cEXOs) facilitate transfer of information between tumor and human primary stromal cells, favoring cancer progression. Although the mechanisms used during this information exchange are still not completely understood, it is known that binding is the initial contact established between cEXOs and cells. Hence, studying binding and finding strategies to block it are of great therapeutic value. However, such studies are challenging for a variety of reasons, including the need for human primary cell culture, the difficulty in decoupling and isolating binding from internalization and cargo delivery, and the lack of techniques to detect these specific interactions. In this work, we created a supported biomimetic stem cell membrane incorporating membrane components from human primary adipose-derived stem cells (ADSCs). We formed the supported membrane on glass and on multielectrode arrays to offer the dual option of optical or electrical detection of cEXO binding to the membrane surface. Using our platform, we show that cEXOs bind to the stem cell membrane and that binding is blocked when an antibody to integrin β1, a component of ADSC surface, is exposed to the membrane surface prior to cEXOs. To test the biological outcome of blocking this interaction, we first confirm that adding cEXOs to cultured ADSCs leads to the upregulation of vascular endothelial growth factor, a measure of proangiogenic activity. Next, when ADSCs are first blocked with anti-integrin β1 and then exposed to cEXOs, the upregulation of proangiogenic activity and cell proliferation are significantly reduced. This biomimetic membrane platform is the first cell-free label-free in vitro platform for the recapitulation and study of cEXO binding to human primary stem cells with potential for therapeutic molecule screening as it is compatible with scale-up and multiplexing.a research grant
from King Abdullah University of Science and Technology
under contract OSR-2018-CRG7-3709 to S.I., R.M.O, and S.D.
W.T. acknowledges funding from the Cambridge Trust