Key mechanisms of a gender and socially inclusive community engagement and participatory design approach in the RISE program in Makassar, Indonesia and Suva, Fiji

Globally, more than one billion people live in urban informal settlements and experience suboptimal access to safe water, sanitation and hygiene (WASH). Participatory approaches are increasingly being promoted in WASH interventions, but the key elements of these approaches are not well-defined. The Revitalising Informal Settlements and their Environments (RISE) program launched in 2017 uses a participatory approach to co-design water-sensitive infrastructure with residents of 24 urban informal settlements in Makassar, Indonesia and Suva, Fiji. Our objective was to identify key mechanisms of a gender and socially inclusive participatory approach for engaging diverse people in RISE. We conducted and analysed semi-structured in-depth interviews (IDIs) with 49 RISE program staff; IDIs with 29 residents from RISE settlements in Indonesia and Fiji; and 6 focus group discussions (FGDs) with RISE residents in Fiji in 2020–2021, after participatory design activities were complete. Resident participants were purposively selected for representation of women and men; high and low participation in RISE; and different levels of disability/impairment. The question guides were informed by the Consolidated Framework for Implementation Research (CFIR), which defines 39 constructs (grouped into five domains) that describe an intervention. The IDI and FGD transcripts were analysed thematically with deductive codes based on the CFIR. For each of the five CFIR domains, the construct that was most relevant to mechanisms for the engagement of diverse people was used for the final analysis. The findings identified several key mechanisms for engaging diverse residents in programs like RISE. Four of these are recommended for future implementation and scale-ups of RISE and similar programs: engaging with residents at the household level (and potentially the individual level); incorporating flexibility and adaptability throughout the program; having a diverse team; and maintaining regular contact and positive rapport between the staff and participants

Biomechanical, ultrastructural, and electrophysiological characterization of the non-human primate experimental glaucoma model

Abstract Laser-induced experimental glaucoma (ExGl) in non-human primates (NHPs) is a common animal model for ocular drug development. While many features of human hypertensive glaucoma are replicated in this model, structural and functional changes in the unlasered portions of trabecular meshwork (TM) of laser-treated primate eyes are understudied. We studied NHPs with ExGl of several years duration. As expected, ExGl eyes exhibited selective reductions of the retinal nerve fiber layer that correlate with electrophysiologic measures documenting a link between morphologic and elctrophysiologic endpoints. Softening of unlasered TM in ExGl eyes compared to untreated controls was observed. The degree of TM softening was consistent, regardless of pre-mortem clinical findings including severity of IOP elevation, retinal nerve fiber layer thinning, or electrodiagnostic findings. Importantly, this softening is contrary to TM stiffening reported in glaucomatous human eyes. Furthermore, microscopic analysis of unlasered TM from eyes with ExGl demonstrated TM thinning with collapse of Schlemm’s canal; and proteomic analysis confirmed downregulation of metabolic and structural proteins. These data demonstrate unexpected and compensatory changes involving the TM in the NHP model of ExGl. The data suggest that compensatory mechanisms exist in normal animals and respond to elevated IOP through softening of the meshwork to increase outflow