This project applies medical engineering approaches to develop an integrated technological ecosystem addressing healthcare disparities among
vulnerable populations. We combine digital health platforms, biomedical data systems, and engineering methodologies to create a framework for
equitable healthcare delivery across four countries (Brazil, Argentina, Spain, Germany). The technical architecture integrates three core components:
(1) digital implementation of the Articulating Methodology as a structured healthcare engineering framework, (2) interoperable data systems for crossnational network integration, and (3) supportive telemedicine capabilities. This solution enables personalized interventions through quantitative
analysis of health determinants and implementation methodologies. Development follows a four-phase engineering approach: Phase 1 establishes
technical specifications and systems requirements through surveys and user-centered design. Phase 2 develops localized technological adaptations
through implementation workshops and training for healthcare providers. Phase 3 deploys functional systems across three territories using hybrid
technological approaches. Phase 4 involves optimization, validation, and finalization of the Intergenerational Primary Health Care technical framework.
Technical deliverables include: (1) integrated digital platforms for health data collection and analysis with optimized algorithms, (2) technical protocols
for system implementation across diverse healthcare environments, and (3) a validated healthcare delivery architecture with telemedicine as a
complementary component.This medical engineering initiative aims to develop interoperable healthcare systems for vulnerable populations,
overcoming geographical, technological, and social barriers while respecting cultural contexts across participating countries.
