Trastornos plaquetarios hereditarios poco frecuentes: patología molecular y aspectos diagnósticos / Infrequent hereditary platelets disorders: molecular pathology and diagnostic aspects

Introducción: Las plaquetas tienen una función clave en la hemostasia primaria a través de cuatro mecanismos fundamentales: adhesión, agregación, secreción y actividad procoagulante, todos controlados genéticamente por más de 50 genes asociados que han sido identificados. Las manifestaciones clínicas en las alteraciones hereditarias de las plaquetas suelen ser variables; aunque estas alteraciones de la coagulación suelen presentarse con una trombocitopenia notoria, también pueden exhibir trombocitopatías, en las cuales la capacidad hemostática de las plaquetas resulta afectada sin variar su número. Por tanto, existen gran variedad de manifestaciones fenotípicas y mutaciones en relación con la función plaquetaria, algunas de las cuales se explicarán más adelante. Objetivo: Realizar revisión práctica sobre mutaciones plaquetarias hereditarias de baja incidencia y destacar la importancia de su conocimiento, correcto diagnóstico, y tratamiento precoz. Métodos: Se realizó revisión literaria en inglés y españolen MEDLINE, EMBASE, Lilacs y ScienceDirect desde mayo 2019 hasta abril 2020, con el uso de combinación de palabras clave y términos MeSH relacionados con trombastenia, genética médica, hemostasis, agregación plaquetaria, trombopoyesis. Se efectuó análisis y resumen de la bibliografía revisada. Conclusión: Entre las alteraciones hereditarias de las plaquetas se pueden encontrar defectos en todos los mecanismos en que participan; sin embargo, la confirmación diagnóstica sigue siendo complicada por el tiempo y el costo que representa lo que ocasiona diagnósticos inadecuados que impactan en el manejo clínico y la evolución(AU)

Introduction: Platelets have a key role in primary hemostasis through four main mechanisms: adhesion, aggregation, secretion and procoagulant activity, all of these controlled by over 50 associated genes that have been identified. Clinical signs of hereditary platelets alterations are usually variable; even though these disorders of hemostasis generally course with a notorious thrombocytopenia, they also might have thrombocytopathies, in which the hemostatic capacity of platelets is affected without altering its number. According to this, there's a great variety of phenotypic manifestations and mutations that affect platelet function, some of these will be explained later on. Objective: To make a practical review of hereditary platelets mutations that have low incidence in population and to highlight the importance of knowing about them, how to diagnose them and early treatment. Methods: A review of literature in both Spanish and English, was done based on MEDLINE, EMBASE, Lilacs and ScienceDirect, during May 2019 and April 2020 using key words and MeSH terms such as thrombasthenia, medical genetics, hemostasis, platelets aggregation, thromopoiesis. Then, an analysis and summary of the reviewed bibliography was carried out. Conclusion: Among the hereditary alterations of platelets, many defects can be found in every mechanism involved; however, diagnostic confirmation is still complicated due to time and cost, causing inaccurate diagnoses that impact on clinic management and evolution(AU)

The role of point-of-care assessment of platelet function in predicting postoperative bleeding and transfusion requirements after coronary artery bypass grafting.

Objective: Objective platelet function assessment after cardiac surgery can predict postoperative blood loss, guide transfusion requirements and discriminate the need for surgical re‑exploration. We conducted this study to assess the predictive value of point‑of‑care testing platelet function using the Multiplate® device. Methods: Patients undergoing isolated coronary artery bypass grafting were prospectively recruited (n = 84). Group A (n = 42) patients were on anti‑platelet therapy until surgery; patients in Group B (n = 42) stopped anti‑platelet treatment at least 5 days preoperatively. Multiplate® and thromboelastography (TEG) tests were performed in the perioperative period. Primary end‑point was excessive bleeding (>2.5 ml/kg/h) within first 3 h postoperative. Secondary end‑points included transfusion requirements, re‑exploration rates, intensive care unit and in‑hospital stays. Results: Patients in Group A had excessive bleeding (59% vs. 33%, P = 0.02), higher re‑exploration rates (14% vs. 0%, P < 0.01) and higher rate of blood (41% vs. 14%, P < 0.01) and platelet (14% vs. 2%, P = 0.05) transfusions. On multivariate analysis, preoperative platelet function testing was the most significant predictor of excessive bleeding (odds ratio [OR]: 2.3, P = 0.08), need for blood (OR: 5.5, P < 0.01) and platelet transfusion (OR: 15.1, P < 0.01). Postoperative “ASPI test” best predicted the need for transfusion (sensitivity ‑ 0.86) and excessive blood loss (sensitivity ‑ 0.81). TEG results did not correlate well with any of these outcome measures. Conclusions: Peri‑operative platelet functional assessment with Multiplate® was the strongest predictor for bleeding and transfusion requirements in patients on anti‑platelet therapy until the time of surgery. Study registration: ISRCTN43298975 (http:// www.controlled‑trials.com/ISRCTN43298975/).