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1. Childhood blood lead levels and environmental risk factors in Madagascar

   https://doi.org/10.1007/s11356-022-20586-3  

   Champion, Wyatt M.; Buerck, Adaline M.; Nenninger, Christopher; Yusuf, Korede; Barrett, Luke J.; Rakototarisoa, Lova; Rakotondrazaka, Rinah; Alfredo, Katherine; Cunningham, Jeffrey; Khaliq, Mahmooda; et al (May 2022, Environmental Science and Pollution Research)

   One-third of children globally have blood lead levels (BLLs) exceeding the (former) US CDC reference value of 5 μg/dL; this value may be as high as one-half for children in low- and middle-income countries (LMICs). Lead exposure occurs through a variety of routes (e.g., water, dust, air), and in LMICs specifically, informal economies (e.g., battery recycling) can drive lead exposures due, in part, to absent regulation. Previous work by our team identified a ubiquitous source of lead (Pb), in the form of Pb-containing components used in manually operated pumps, in Toamasina, Madagascar. Characterization of BLLs of children exposed to this drinking water, and identification of additional exposure routes were needed. BLLs were measured for 362 children (aged 6 months to 6 years) in parallel with surveying to assess 14 risk factors related to demographics/socioeconomics, diet, use of pitcher pumps, and parental occupations. BLL data were also compared against a recent meta-review of BLLs for LMICs. Median childhood BLL (7.1 μg/dL) was consistent with those of other Sub-Saharan African LMICs (6.8 μg/dL) and generally higher than LMICs in other continents. Risk factors significantly associated (p < 0.05, univariate logistic regression) with elevated BLL (at ≥ 5 μg/dL) included male gender, living near a railway or major roadway (owing potentially to legacy lead pollution), having lower-cost flooring, daily consumption of foods (beans, vegetables, rice) commonly cooked in recycled aluminum pots (a previously identified lead source for this community), and a maternal occupation (laundry-person) associated with lower socioeconomic status (SES). Findings were similar at the ≥ 10 μg/dL BLL status. Our methods and findings may be appropriate in identifying and reducing lead exposures for children in other urbanizing cities, particularly in Sub-Saharan Africa, where lead exposure routes are complex and varied owing to informal economics and substantial legacy pollution. 

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2. Convergence of Social Marketing and Engineering: A Lead Mitigation Study in Madagascar

   https://doi.org/10.1177/15245004231153951  

   Buerck, Adaline_M; Khaliq, Mahmooda; Rakotondrazaka, Rinah; Rakotoarisoa, Lova; Paul_Barrett, Luke_John; Sommariva, Silvia; Mihelcic, James_R (January 2023, Social Marketing Quarterly)

   Background and Situation AnalysisThe importance of Water Sanitation and Hygiene (WASH) projects for the protection of health is embedded in the sustainable development goals. However, within the development and humanitarian fields sustainability of WASH projects is still a challenge with 30–50% of projects failing within two to five years of implementation. Though failure is not linked to any one source, a common theme speaks to a greater need for community engagement and integration of the wants and needs of the end-user in the design process. Social marketing, with its focus on the consumer and use of commercial marketing strategies to achieve behavior change is a promising approach that can be integrated into ongoing WASH initiatives to meet program outcomes and to achieve long-term sustainability. Priority audiencePrimary audience includes technicians who manufacture and repair pitcher pumps. Secondary audience includes community members in Toamasina, Madagascar, who will experience a decrease in exposure to lead through their water supply. Behavioral objectivesDecrease exposure to lead (Pb) introduced through the use of a decentralized, self-supply water system, the pitcher pump. Specifically, decrease use of leaded components in the manufacturing and repair of pitcher-pumps Strategy/InterventionDevelopment of the intervention followed the social marketing process including conducting a situational analysis, identification and selection of a behavioral focus and priority population, formative research, development of an integrated marketing strategy, pretesting the strategy, followed by campaign implementation, and monitoring and evaluation. An intervention focused on building a sense of community and introducing the element of professionalism for the pump manufacturers was developed, consisting of personalized one-on-one outreach to raise awareness of the health topic, followed by skill building trainings on how to make the switch to non-leaded components. This was coupled with tangible products that created a new professional network, documentation of work, and backing of work by trusted government entities. Evaluation Methods and ResultsUsing the theory of planned behavior, a pre/post-test summative evaluation was developed. Preliminary results indicate that pump technicians no longer use lead in pumps unless specifically requested by the pump owners. These results indicate a positive shift towards the use of lead-free components with project follow-up and analysis ongoing. Recommendations for Social Marketing PracticeUse of social marketing within the WASH sector is lacking. This paper demonstrates the integration of social marketing in an ongoing WASH project. Through a description of each step of the process, our experiences in implementing it and the lessons learned, we hope to guide future integration. Additionally, this paper demonstrates the convergence of engineers and social marketers working collaboratively on an interdisciplinary team and how this served to enhance project understanding, aid in building local partnerships and help with long-term sustainability. 

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3. Positive outcomes from U.S. lead regulations, continued challenges, and lessons learned for regulating emerging contaminants

   https://doi.org/10.1007/s11356-023-26319-4  

   Dietrich, Matthew; Filippelli, Gabriel M. (January 2023, Environmental Science and Pollution Research)

   Albeit slow and not without its challenges, lead (Pb) emissions and sources in the United States (U.S.) have decreased immensely over the past several decades. Despite the prevalence of childhood Pb poisoning throughout the twentieth century, most U.S. children born in the last two decades are significantly better off than their predecessors in regard to Pb exposure. However, this is not equal across demographic groups and challenges remain. Modern atmospheric emissions of Pb in the U.S. are nearly negligible since the banning of leaded gasoline in vehicles and regulatory controls on Pb smelting plants and refineries. This is evident in the rapid decrease of atmospheric Pb concentrations across the U.S. over the last four decades. One of the most significant remaining contributors to air Pb is aviation gasoline (avgas), which is minor compared to former Pb emissions. However, continual exposure risks to Pb exist in older homes and urban centers, where leaded paint and/or historically contaminated soils + dusts can still harm children. Thus, while effective in eliminating nearly all primary sources of Pb in the environment, the slow rate of U.S. Pb regulation has led to legacy sources of Pb in the environment. More proactive planning, communication, and research of commonly used emerging contaminants of concern that can persist in the environment long after their initial use (i.e., PFAS) should be prioritized so that the same mistakes are not made again. 

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4. Studying the impacts of non-routine extended schools' closure on heavy metal release into tap water

   https://doi.org/10.1039/d2ew00149g  

   Ghoochani, Shima; Salehi, Maryam; DeSimone, Dave; Salehi Esfandarani, Mitra; Bhattacharjee, Linkon (June 2022, Environmental Science: Water Research & Technology)

   The extensive school closures due to the unprecedented COVID-19 pandemic resulted in prolonged water stagnation within schools' plumbing for longer durations than routine schools' holidays and summer breaks. With many of the U.S. schools suffering from problems of lead (Pb) in potable water for decades, the extended water stagnation caused by schools' closure has raised significant concerns regarding the schools' water safety. Thus, this research was conducted to evaluate the resiliency of schools' potable water plumbing toward the interruption caused by the COVID-19 pandemic. For this purpose, the impact of extended water stagnation on heavy metal release into water samples collected from fixtures with and without known lead problems in 25 schools within a school district in Tennessee was investigated. The results revealed a significant increase in the median Pb concentration due to the extended water stagnation. Furthermore, elevated levels of Fe, Zn, and Cu were released from both problematic and nonproblematic fixtures into tap water. Estimation of children's blood lead level (BLL), assuming the consumption of prolonged stagnated water, revealed an increased risk of elevated BLLs (>5 μg dL −1 ). To better identify the potential sources of lead release within schools, a combination of plumbing investigation and sequential water sampling was conducted. The lead-containing fixtures, connecting plumbing, and interior plumbing were found as the possible sources contributing to the lead release into water. Implementation of remediation actions reduced the lead release into tap water to less than 3.4 μg L −1 in the target fixtures. 

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5. Getting the Lead Out: A Career-Long Perspective on Leaded Gasoline, Dust, Soil, and Proactive Pediatric Exposure Prevention

   https://doi.org/10.18103/mra.v11i5.3813  

   Mielke, Howard; Egendorf, Sara (January 2023, Medical Research Archives)

   This commentary considers the long arc of lead (Pb) poisoning from antiquity to the 21st century. While Pb exposure is commonly attributed to paint or water, this article aims to discuss the underrecognized impacts of air Pb and soil Pb and to address controversial misconceptions related to these exposure sources. The Roman Aristocracy experienced lead poisoning mainly from the ingestion of foods, lead cookware, and lead-contaminated water and wine, but by the 20th century, lead exposure occurred by ingestion and inhalation. The introduction of tetraethyl lead (TEL) additives in gasoline was approved in 1925 in the US and produced an exponential increase in inhalable air lead exhaust particles through the 1970s. These five decades of widespread lead aerosol exposure were enabled by the Lead Industries Association (LIA), which confounded pediatricians, healthcare providers, and government agencies by promoting lead-based paint as the primary agent of childhood lead exposure. Empirical evidence of lead poisoning, environmental exposures, and proactive lead prevention in the general population was impossible until analytical instruments became commonly available for clinical studies and environmental measurements in the 1960s and 1970s. Soil studies in Baltimore, Maryland, beginning in the mid-1970s, indicated that lead particles exhausted from vehicles fueled by leaded gasoline excessively contaminated urban soils compared with non-urban soils. The invisible lead-contaminated air fouled multiple exposure routes via inhalation and ingestion. In addition to misunderstandings about sources of lead exposure, misinformation currently abounds regarding the timeline of banning lead in gasoline. The US Center for Disease Control (CDC) lists the ban as beginning in 1996. The banning of leaded gasoline first occurred in Japan starting in 1972, and after a 1984 Senate Hearing, the US Congress agreed on a rapid phasedown. A US Environmental Protection Agency (EPA) timeline confirmed that most leaded gasoline was banned by the end of 1986. Banning leaded gasoline was associated with sharp declines in the US population’s blood lead, which prompted global efforts to ban leaded gasoline. The eventual result was a complete global ban on highway use of leaded gasoline achieved in August 2021. Leaded gasoline is still used in piston-engine aircraft and the US EPA is proceeding to complete the ban on lead additives in fuel. Using precautionary principles to recover lead-contaminated urban environments and prevent new toxicant exposures are essential challenges and opportunities for present and future generations. 

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