Care for Staff: A Novel Technical Assistance Approach to Promote Occupational Mental Health Among Healthcare Workers in Lower and Middle Income Country Settings.

BACKGROUND: Healthcare workers (HCWs) in lower- and middle-income countries (LMICs) face unique, intersectional threats to their mental health at work. Despite the existence of recommendations for multi-tiered interventions to promote and protect occupational mental health for HCWs, there remain significant challenges to implementation worldwide. METHODS: FHI 360, a global development organization, developed a novel technical assistance framework to accompany partners, including government and healthcare leaders to design, implement, improve, or evaluate any mental health and psychosocial support intervention. The EpiC Project, implemented by FHI 360, has utilized this framework in four countries (Vietnam, Philippines, Paraguay and Sri Lanka) specifically to guide the development of locally adapted occupational mental health interventions for HCWs. FINDINGS: Each country applied this framework in various project cycle phases and in their unique local contexts; all countries reported positive developments in the advancement of their chosen interventions. CONCLUSIONS/APPLICATION TO PRACTICE: With the application of an adaptable, evidence-based technical assistance framework to guide collaborative consultation for project design, implementation, improvement, and/or evaluation, locally led teams pivoted from a solely "mental health" approach to more comprehensive, evidence-based interventions that framed mental health for HCWs as an occupational health priority. This allowed for teams advising interventions in LMICs to consider unique workplace, structural and policy-level factors rather than focusing solely on individual mental health strategies.

Small-scale land-use variability affects Anopheles spp. distribution and concomitant Plasmodium infection in humans and mosquito vectors in southeastern Madagascar.

BACKGROUND: Deforestation and land-use change have the potential to alter human exposure to malaria. A large percentage of Madagascar's original forest cover has been lost to slash-and-burn agriculture, and malaria is one of the top causes of mortality on the island. In this study, the influence of land-use on the distribution of Plasmodium vectors and concomitant Plasmodium infection in humans and mosquito vectors was examined in the southeastern rainforests of Madagascar. METHODS: From June to August 2013, health assessments were conducted on individuals living in sixty randomly selected households in six villages bordering Ranomafana National Park. Humans were screened for malaria using species-specific rapid diagnostic tests (RDTs), and surveyed about insecticide-treated bed net (ITN) usage. Concurrently, mosquitoes were captured in villages and associated forest and agricultural sites. All captured female Anopheline mosquitoes were screened for Plasmodium spp. using a circumsporozoite enzyme-linked immunosorbent assay (csELISA). RESULTS: Anopheles spp. dominated the mosquito communities of agricultural and village land-use sites, accounting for 41.4 and 31.4 % of mosquitoes captured respectively, whereas Anopheles spp. accounted for only 1.6 % of mosquitoes captured from forest sites. Interestingly, most Anopheles spp. (67.7 %) were captured in agricultural sites in close proximity to animal pens, and 90.8 % of Anopheles mosquitoes captured in agricultural sites were known vectors of malaria. Three Anopheline mosquitoes (0.7 %) were positive for malaria (Plasmodium vivax-210) and all positive mosquitoes were collected from agricultural or village land-use sites. Ten humans (3.7 %) tested were positive for P. falciparum, and 23.3 % of those surveyed reported never sleeping under ITNs. CONCLUSIONS: This study presents the first report of malaria surveillance in humans and the environment in southeastern Madagascar. These findings suggest that even during the winter, malaria species are present in both humans and mosquitoes; with P. falciparum found in humans, and evidence of P. vivax-210 in mosquito vectors. The presence of P. vivax in resident vectors, but not humans may relate to the high incidence of humans lacking the Duffy protein. The majority of mosquito vectors were found in agricultural land-use sites, in particular near livestock pens. These findings have the potential to inform and improve targeted malaria control and prevention strategies in the region.