Uso de terapia biológica en el tratamiento de pancreatitis aguda

• Autores: Kevin Oswaldo Pincay Romero, Roberto Eduardo Aguirre Fernández
• Localización: Revista Sanitaria de Investigación, ISSN-e 2660-7085, Vol. 6, Nº. 5, 2025
• Idioma: español
• Enlaces
  • Texto completo
• Resumen
  • español

    La pancreatitis aguda (PA) es una inflamación del páncreas que conlleva una alta morbilidad y mortalidad a nivel mundial. Su fisiopatología implica procesos inmunológicos e inflamatorios mediados por citocinas, estrés oxidativo y daño celular. Los tratamientos tradicionales se centran en el manejo sintomático y el soporte clínico, pero su eficacia para controlar la inflamación sistémica es limitada. La terapia biológica ha surgido como una alternativa prometedora, dirigida a modular vías inflamatorias específicas para mejorar los resultados clínicos.

    Objetivo: Analizar el estado actual de la terapia biológica en el tratamiento de la PA, evaluando la eficacia de los agentes biológicos, sus mecanismos de acción y su impacto terapéutico potencial, mediante el uso de la inteligencia artificial.

    Metodología: Se realizó una revisión sistemática siguiendo las directrices PRISMA 2020. La búsqueda bibliográfica se llevó a cabo en Dimensions AI, incluyendo datos de PubMed, Scopus y Web of Science. Se seleccionaron estudios publicados entre 2020 y 2024, centrándose en terapias biológicas, anticuerpos monoclonales y moduladores de citocinas. Se incluyeron estudios originales sobre terapia biológica en PA y se excluyeron investigaciones en poblaciones pediátricas y sin acceso a texto completo.

    Resultados: La revisión incluyó 19 estudios que evidenciaron una relación positiva entre la terapia biológica y la modulación de la inflamación en modelos experimentales y casos clínicos. Anticuerpos monoclonales como Infliximab, Adalimumab y Tocilizumab demostraron una inhibición significativa de vías inflamatorias clave, reduciendo la expresión de citocinas (TNF-α, IL-1β, IL-6) y el estrés oxidativo. Además, las células madre mesenquimales y compuestos antioxidantes contribuyeron al control de la inflamación. No obstante, los ensayos clínicos siguen siendo limitados.

    Conclusiones: La terapia biológica se presenta como una estrategia prometedora en la PA, con un impacto positivo en la modulación de la respuesta inflamatoria. Sin embargo, se requieren más investigaciones clínicas para confirmar su seguridad, eficacia y aplicación práctica. La inteligencia artificial desempeñó un papel clave en el análisis de datos, agilizando la revisión bibliográfica. Los hallazgos sugieren que la terapia biológica podría convertirse en una opción terapéutica valiosa, aunque se necesitan más estudios antes de su inclusión en las guías clínicas.

  • English

    Acute pancreatitis (AP) is an inflammation of the pancreas associated with high morbidity and mortality worldwide. Its pathophysiology involves immune and inflammatory processes mediated by cytokines, oxidative stress, and cellular damage. Traditional treatments focus on symptomatic management and clinical support, but their effectiveness in controlling systemic inflammation is limited. Biological therapy has emerged as a promising alternative, targeting specific inflammatory pathways to improve clinical outcomes.

    Objective: To analyze the current state of biological therapy in the treatment of AP by evaluating the efficacy of biological agents, their mechanisms of action, and their potential therapeutic impact using artificial intelligence.

    Methodology: A systematic review was conducted following PRISMA 2020 guidelines. The bibliographic search was performed using Dimensions AI, integrating data from PubMed, Scopus, and Web of Science. Studies published between 2020 and 2024 were selected, focusing on biological therapies, monoclonal antibodies, and cytokine modulators. Original studies on biological therapy for AP were included, while studies on pediatric populations and those lacking full-text access were excluded.

    Results: The review included 19 studies demonstrating a positive relationship between biological therapy and inflammation modulation in experimental models and clinical cases. Monoclonal antibodies such as Infliximab, Adalimumab, and Tocilizumab significantly inhibited key inflammatory pathways, reducing cytokine expression (TNF-α, IL-1β, IL-6) and oxidative stress. Additionally, mesenchymal stem cells and antioxidant compounds contributed to inflammation control. However, clinical trials remain limited.

    Conclusions: Biological therapy appears to be a promising strategy for AP, with a positive impact on inflammatory response modulation. However, further clinical research is needed to confirm its safety, efficacy, and practical application. Artificial intelligence played a key role in data analysis, streamlining the literature review. The findings suggest that biological therapy could become a valuable therapeutic option, but more studies are required before its inclusion in clinical guidelines.

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