Background/Objective This study examined the role of different psychological coping mechanisms in mental and physical health during the initial phases of the COVID-19 crisis with an emphasis on meaning-centered coping. Method A total of 11,227 people from 30 countries across all continents participated in the study and completed measures of psychological distress (depression, stress, and anxiety), loneliness, well-being, and physical health, together with measures of problem-focused and emotion-focused coping, and a measure called the Meaning-centered Coping Scale (MCCS) that was developed in the present study. Validation analyses of the MCCS were performed in all countries, and data were assessed by multilevel modeling (MLM). Results The MCCS showed a robust one-factor structure in 30 countries with good test-retest, concurrent and divergent validity results. MLM analyses showed mixed results regarding emotion and problem-focused coping strategies. However, the MCCS was the strongest positive predictor of physical and mental health among all coping strategies, independently of demographic characteristics and country-level variables. Conclusions The findings suggest that the MCCS is a valid measure to assess meaning-centered coping. The results also call for policies promoting effective coping to mitigate collective suffering during the pandemic.
Developed countries have shown a time trend towards a younger age at menarche (AAM), which is associated with increased risk of later obesity and non-communicable diseases. We aimed to assess whether a time trend in AAM with associated disease risk is also present in Mexico. For this, we used data of 30,826 women from the Mexican National Health Survey (2000). Linear and log binomial regression was used for nutritional and disease outcomes, whereas Welch-ANOVA was used to test for a time trend. AAM decreased over time (p < 0.001), with a maximal difference of 0.99 years between the 1920s (13.6 years) and 1980s (12.6 years). AAM (in years) was negatively associated with weight (β = -1.01 kg; 95 % CI -1.006, -1,004) and BMI (β = -1.01 kg/m2; -1.007, -1.006), and positively with height (β = 0.18 cm; 0.112, 0.231). AAM was associated with diabetes (RR = 0.95; 0.93, 0.98) and hypercholesterolemia (RR = 0.93; 0.90, 0.95), but not with hypertension, breast cancer or arthritis. In Mexico, AAM decreased significantly during the 20th century. AAM was inversely associated with adult weight and BMI, and positively with height. Women with a later AAM had a lower risk of diabetes and hypercholesterolemia.
Burgeoning research has documented COVID–19's detrimental impacts globally, especially on the lives of adolescents. The present study examined the positive influences of a virtual, cross‐age peer mentoring program on the development of adolescent participants in the face of the hardships created by the pandemic. In particular, this study focuses on the experiences of high school participants who served as both mentors and mentees in the program. Semi‐structured interviews with participating high schoolers (n = 13) were coded and analyzed using the thematic analysis process. The interview data indicated that increased social support, the agency in prosocial pursuits, and greater purpose engagement resulted from their participation in the program. Results are discussed in the context of self‐determination theory: youths' needs for relatedness, competence, and autonomy. The program met these basic needs among participants which in turn supported purpose exploration during the pandemic.
Introduction: Overweight/obesity (OWOB) causes low-grade systemic inflammation which induces hepcidin and a reduces fractional iron absorption (FIA) even when iron stores are low. Pregnancy increases iron needs because of the expansion of maternal blood volume and fetal needs. It is unclear whether and/or to what extent OWOB during pregnancy influences FIA, iron supply of the fetus and risk of iron deficiency in mother and newborn. In this study, we (1) determined the impact of maternal OWOB on FIA in pregnancy and on the transfer of iron to the fetus and newborn iron status; (2) confirmed the relationship between BMI, hepcidin, serum ferritin (SF) and inflammatory markers. Methods: In this prospective experimental multi-center case-control study (normal-weight (NW) n=40; OWOB n=37) we administered labeled [57Fe]- or [58Fe]-FeSO4 to women during the 2nd and 3rd trimester of pregnancy. We measured FIA by determining erythrocyte incorporation of iron stable isotopes 14 days after administration. From pregnancy week (PW) 12 until PW 36, iron-, inflammation and hepcidin were monitored. Iron transfer to the fetus was determined isotopically as the concentration of circulating iron in the infant aged three days. We assessed iron status in infants born to NW (n=29) and OWOB (n=31) at age three days, three months and six months. Results: Subject characteristics in PW 12 for the NW/OWOB were: mean (±SD) age: 29±6/ 30±6 years, median (IQR) pre-pregnancy BMI: 21.6 (20.3-23.7)/ 31.6 (28.4-35.9) kg/m2 (p<0.001), mean (±SD) hemoglobin: 12.3±1.1/ 12.4±0.9 g/dL, median (IQR) SF: 27.7 (17.3-48.2)/ 30.6 (16.6-64.4) µg/L and median (IQR) interleukin-6: 1.41 (1.03-1.95)/ 2.37 (1.91-3.85) pg/ml (p<0.001). Independent sample t-test showed no difference in FIA between NW and OWOB in the 2nd trimester with median FIA (IQR) 12.3 (7.2-20.6) and 10.1 (6.9-17.2) % (p=0.788). Despite the OWOB had ≈30% lower body iron stores (BIS) and comparable hepcidin concentrations to the NW in the 3rd trimester, FIA was significantly higher in the NW compared to the OWOB with median FIA (IQR) 22.3 (10.6-33.8) and 12.7 (10.4-18.1) % (p=0.042). In the NW, FIA was upregulated by 80% in the 3rd trimester compared to the 2nd trimester, whereas in the OWOB FIA, it was only upregulated by 25%. Linear mixed effect model analysis (LMM) showed a significant group-effects on weight, IL-6 and CRP throughout pregnancy (all p<0.05), but surprisingly no group-effect on hepcidin. In multiple regression analysis, the main predictor of hepcidin throughout pregnancy was BIS, not inflammation. Iron transfer to the newborn was non-significantly higher in the NW compared to the OWOB with mean (±SD) circulating iron in the newborn at age three days 136.6 ± 42.7 and 126.3 ± 32.4 mg. LMM on infant BIS and on infant serum transferrin receptor (sTfR) over the first six months showed significant group (p=0.024, p=0.046) and time-effects (both p<0.001) with lower BIS and higher sTfR in infants born to OWOB. Median (IQR) BIS at age six months were 7.7 (6.3-8.8) and 6.6 (4.6-9.2) mg/kg bodyweight in infants born to NW and OWOB. Conclusion: In normal pregnancy, FIA increases over time to support increased iron needs of mother and fetus. Our data show a dramatically reduced increase in FIA in OWOB pregnant women in the 3rd trimester, despite low BIS and low hepcidin, and this results in less iron transfer to the fetus. Future molecular studies are needed to clarify the mechanism of reduced FIA and fetal iron transfer in OWOB. To our knowledge, this is the first study assessing the impact of maternal OWOB on infant iron status at multiple time points over the first six months. Our findings strongly argue for careful monitoring of iron status in OWOB pregnancy and for defining a more effective iron supplementation regimen for this population group. Prevalence of anemia in pregnancy and infancy is high, especially in low and middle income countries and is often associated with severe health consequences. If iron status of OWOB pregnant women and their infants could be improved by optimizing iron supplementation guidelines for OWOB, this could have major benefits. Disclosures No relevant conflicts of interest to declare.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
