RESUMO
BACKGROUND: The demand for blood products sometimes exceeds the available inventory. Blood product inventories are dependent upon the availability of donors, supplies and reagents, and collection staff. During prolonged extreme shortages, blood centers and transfusion services must alter practices to meet the needs of patients. STUDY DESIGN AND METHODS: The Association for the Advancement of Blood and Biotherapies Donor and Blood Component Management Subsection compiled some strategies from its blood center and hospital transfusion service members that could be implemented during blood product shortages. RESULTS: Some strategies that blood centers could use to increase their available inventories include increasing donor recruitment efforts, using alternate types of collection kits, manufacturing low-yield apheresis-derived platelets and/or whole blood-derived platelets, using cold-stored platelets, transferring inventory internally among centers of the same enterprise, using frozen inventory, decreasing standing order quantities, prioritizing allocation to certain patient populations, filling partial orders, and educating customers and blood center staff. Transfusion service strategies that could be implemented to maximize the use of the limited available inventory include increasing patient blood management efforts, using split units, finding alternate blood suppliers, trading blood products with other hospital transfusion services, developing a patient priority list, assembling a hospital committee to decide on triaging priorities, using expired products in extreme situations, and accepting nonconforming products after performing safety checks. DISCUSSION: Blood centers and transfusion services must choose the appropriate strategies to implement based on their needs.
Assuntos
Remoção de Componentes Sanguíneos , Transfusão de Componentes Sanguíneos , Humanos , Transfusão de Sangue , Plaquetas , Doadores de SangueRESUMO
BACKGROUND: Convalescent plasma may reduce mortality in patients with viral respiratory diseases, and is being investigated as a potential therapy for coronavirus disease 2019 (COVID-19). A thorough understanding of the current body of evidence regarding benefits and risks of this intervention is required. OBJECTIVES: To assess the effectiveness and safety of convalescent plasma transfusion in the treatment of people with COVID-19; and to maintain the currency of the evidence using a living systematic review approach. SEARCH METHODS: To identify completed and ongoing studies, we searched the World Health Organization (WHO) COVID-19 Global literature on coronavirus disease Research Database, MEDLINE, Embase, Cochrane COVID-19 Study Register, and the Epistemonikos COVID-19 L*OVE Platform. We searched monthly until 03 March 2022. SELECTION CRITERIA: We included randomised controlled trials (RCTs) evaluating convalescent plasma for COVID-19, irrespective of disease severity, age, gender or ethnicity. We excluded studies that included populations with other coronavirus diseases (severe acute respiratory syndrome (SARS) or Middle East respiratory syndrome (MERS)), as well as studies evaluating standard immunoglobulin. DATA COLLECTION AND ANALYSIS: We followed standard Cochrane methodology. To assess bias in included studies we used RoB 2. We used the GRADE approach to rate the certainty of evidence for the following outcomes: all-cause mortality at up to day 28, worsening and improvement of clinical status (for individuals with moderate to severe disease), hospital admission or death, COVID-19 symptoms resolution (for individuals with mild disease), quality of life, grade 3 or 4 adverse events, and serious adverse events. MAIN RESULTS: In this fourth review update version, we included 33 RCTs with 24,861 participants, of whom 11,432 received convalescent plasma. Of these, nine studies are single-centre studies and 24 are multi-centre studies. Fourteen studies took place in America, eight in Europe, three in South-East Asia, two in Africa, two in western Pacific and three in eastern Mediterranean regions and one in multiple regions. We identified a further 49 ongoing studies evaluating convalescent plasma, and 33 studies reporting as being completed. Individuals with a confirmed diagnosis of COVID-19 and moderate to severe disease 29 RCTs investigated the use of convalescent plasma for 22,728 participants with moderate to severe disease. 23 RCTs with 22,020 participants compared convalescent plasma to placebo or standard care alone, five compared to standard plasma and one compared to human immunoglobulin. We evaluate subgroups on detection of antibodies detection, symptom onset, country income groups and several co-morbidities in the full text. Convalescent plasma versus placebo or standard care alone Convalescent plasma does not reduce all-cause mortality at up to day 28 (risk ratio (RR) 0.98, 95% confidence interval (CI) 0.92 to 1.03; 220 per 1000; 21 RCTs, 19,021 participants; high-certainty evidence). It has little to no impact on need for invasive mechanical ventilation, or death (RR 1.03, 95% CI 0.97 to 1.11; 296 per 1000; 6 RCTs, 14,477 participants; high-certainty evidence) and has no impact on whether participants are discharged from hospital (RR 1.00, 95% CI 0.97 to 1.02; 665 per 1000; 6 RCTs, 12,721 participants; high-certainty evidence). Convalescent plasma may have little to no impact on quality of life (MD 1.00, 95% CI -2.14 to 4.14; 1 RCT, 483 participants; low-certainty evidence). Convalescent plasma may have little to no impact on the risk of grades 3 and 4 adverse events (RR 1.17, 95% CI 0.96 to 1.42; 212 per 1000; 6 RCTs, 2392 participants; low-certainty evidence). It has probably little to no effect on the risk of serious adverse events (RR 1.14, 95% CI 0.91 to 1.44; 135 per 1000; 6 RCTs, 3901 participants; moderate-certainty evidence). Convalescent plasma versus standard plasma We are uncertain whether convalescent plasma reduces or increases all-cause mortality at up to day 28 (RR 0.73, 95% CI 0.45 to 1.19; 129 per 1000; 4 RCTs, 484 participants; very low-certainty evidence). We are uncertain whether convalescent plasma reduces or increases the need for invasive mechanical ventilation, or death (RR 5.59, 95% CI 0.29 to 108.38; 311 per 1000; 1 study, 34 participants; very low-certainty evidence) and whether it reduces or increases the risk of serious adverse events (RR 0.80, 95% CI 0.55 to 1.15; 236 per 1000; 3 RCTs, 327 participants; very low-certainty evidence). We did not identify any study reporting other key outcomes. Convalescent plasma versus human immunoglobulin Convalescent plasma may have little to no effect on all-cause mortality at up to day 28 (RR 1.07, 95% CI 0.76 to 1.50; 464 per 1000; 1 study, 190 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. Individuals with a confirmed diagnosis of SARS-CoV-2 infection and mild disease We identified two RCTs reporting on 536 participants, comparing convalescent plasma to placebo or standard care alone, and two RCTs reporting on 1597 participants with mild disease, comparing convalescent plasma to standard plasma. Convalescent plasma versus placebo or standard care alone We are uncertain whether convalescent plasma reduces all-cause mortality at up to day 28 (odds ratio (OR) 0.36, 95% CI 0.09 to 1.46; 8 per 1000; 2 RCTs, 536 participants; very low-certainty evidence). It may have little to no effect on admission to hospital or death within 28 days (RR 1.05, 95% CI 0.60 to 1.84; 117 per 1000; 1 RCT, 376 participants; low-certainty evidence), on time to COVID-19 symptom resolution (hazard ratio (HR) 1.05, 95% CI 0.85 to 1.30; 483 per 1000; 1 RCT, 376 participants; low-certainty evidence), on the risk of grades 3 and 4 adverse events (RR 1.29, 95% CI 0.75 to 2.19; 144 per 1000; 1 RCT, 376 participants; low-certainty evidence) and the risk of serious adverse events (RR 1.14, 95% CI 0.66 to 1.94; 133 per 1000; 1 RCT, 376 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. Convalescent plasma versus standard plasma We are uncertain whether convalescent plasma reduces all-cause mortality at up to day 28 (OR 0.30, 95% CI 0.05 to 1.75; 2 per 1000; 2 RCTs, 1597 participants; very low-certainty evidence). It probably reduces admission to hospital or death within 28 days (RR 0.49, 95% CI 0.31 to 0.75; 36 per 1000; 2 RCTs, 1595 participants; moderate-certainty evidence). Convalescent plasma may have little to no effect on initial symptom resolution at up to day 28 (RR 1.12, 95% CI 0.98 to 1.27; 1 RCT, 416 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. This is a living systematic review. We search monthly for new evidence and update the review when we identify relevant new evidence. AUTHORS' CONCLUSIONS: For the comparison of convalescent plasma versus placebo or standard care alone, our certainty in the evidence that convalescent plasma for individuals with moderate to severe disease does not reduce mortality and has little to no impact on clinical improvement or worsening is high. It probably has little to no effect on SAEs. For individuals with mild disease, we have low certainty evidence for our primary outcomes. There are 49 ongoing studies, and 33 studies reported as complete in a trials registry. Publication of ongoing studies might resolve some of the uncertainties around convalescent plasma therapy for people with asymptomatic or mild disease.
ANTECEDENTES: El plasma de convaleciente podría reducir la mortalidad en pacientes con enfermedades respiratorias víricas, y se está investigando como posible tratamiento para la enfermedad por coronavirus 2019 (covid19). Se requiere un profundo conocimiento del conjunto de evidencia actual sobre los beneficios y riesgos de esta intervención. OBJETIVOS: Evaluar la efectividad y seguridad de la transfusión de plasma de convaleciente en el tratamiento de las personas con covid19; y mantener la vigencia de la evidencia con un enfoque de revisión sistemática continua. MÉTODOS DE BÚSQUEDA: Para identificar estudios en curso y completados, se realizaron búsquedas en la base de datos COVID19 de la OMS: literatura global sobre la enfermedad por coronavirus, MEDLINE, Embase, el Registro Cochrane de Estudios de covid19 y la Plataforma COVID19 L*OVE de Epistemonikos. Se realizaron búsquedas mensuales hasta el 3 de marzo de 2022. CRITERIOS DE SELECCIÓN: Se incluyeron ensayos controlados aleatorizados (ECA) que evaluaron el plasma de convaleciente para la covid19, independientemente de la gravedad de la enfermedad, la edad, el sexo o el origen étnico. Se excluyeron los estudios que incluyeron poblaciones con otras enfermedades por coronavirus, como el síndrome respiratorio agudo grave (SARS) o el síndrome respiratorio de Oriente Medio (MERS), así como los estudios que evaluaron la inmunoglobulina estándar. OBTENCIÓN Y ANÁLISIS DE LOS DATOS: Se siguió la metodología estándar de Cochrane. Para evaluar el sesgo en los estudios incluidos se utilizó la herramienta RoB 2. Se utilizó el método GRADE para evaluar la certeza de la evidencia para los siguientes desenlaces: mortalidad por todas las causas hasta el día 28, empeoramiento y mejoría del estado clínico (para personas con enfermedad moderada a grave), ingreso hospitalario o muerte, resolución de los síntomas de covid19 (para personas con enfermedad leve), calidad de vida, eventos adversos de grado 3 o 4 y eventos adversos graves. RESULTADOS PRINCIPALES: En esta cuarta versión actualizada de la revisión se incluyeron 33 ECA con 24 861 participantes, de los cuales 11 432 recibieron plasma de convaleciente. De ellos, 9 estudios son unicéntricos y 24 multicéntricos. Se realizaron 14 estudios en América, 8 en Europa, 3 en el Sudeste Asiático, 2 en África, 2 en el Pacífico occidental, 3 en el Mediterráneo oriental y 1 en varias regiones. Se identificaron otros 49 estudios en curso que evaluaron el plasma de convaleciente, y 33 estudios que informaban de que se habían completado. Personas con un diagnóstico confirmado de covid19 y enfermedad de moderada a grave El uso de plasma de convaleciente se investigó en 29 ECA con 22 728 participantes con enfermedad moderada a grave. En 23 ECA con 22 020 participantes se comparó el plasma de convaleciente con el placebo o la atención habitual sola, en 5 se comparó con plasma estándar y en 1, con inmunoglobulina humana. Se evalúan subgrupos sobre detección de anticuerpos, aparición de síntomas, grupos de ingresos de países y varias comorbilidades en el texto completo. Plasma de convaleciente versus placebo o atención habitual sola El plasma de convaleciente no reduce la mortalidad por todas las causas hasta el día 28 (razón de riesgos [RR] 0,98; intervalo de confianza [IC] del 95%: 0,92 a 1,03; 220 por cada 1000; 21 ECA, 19 021 participantes; evidencia de certeza alta). Tiene poca o ninguna repercusión en la necesidad de ventilación mecánica invasiva o la muerte (RR 1,03; IC del 95%: 0,97 a 1,11; 296 por cada 1000; seis ECA, 14 477 participantes; evidencia de certeza alta) y no tiene ningún efecto en si los participantes reciben el alta hospitalaria (RR 1,00; IC de 95%: 0,97 a 1,02; 665 por cada 1000; seis ECA, 12 721 participantes; evidencia de certeza alta). El plasma de convaleciente podría tener poca o ninguna repercusión en la calidad de vida (DM 1,00; IC del 95%: 2,14 a 4,14; un ECA, 483 participantes; evidencia de certeza baja). El plasma de convaleciente podría tener poco o ningún efecto en el riesgo de eventos adversos de grado 3 y 4 (RR 1,17; IC del 95%: 0,96 a 1,42; 212 por cada 1000; seis ECA, 2392 participantes; evidencia de certeza baja). Es probable que tenga poco o ningún efecto sobre el riesgo de eventos adversos graves (RR 1,14; IC del 95%: 0,91 a 1,44; 135 por cada 1000; seis ECA, 3901 participantes; evidencia de certeza moderada). Plasma de convaleciente versus plasma estándar No se sabe si el plasma de convaleciente reduce o aumenta la mortalidad por cualquier causa hasta el día 28 (RR 0,73; IC del 95%: 0,45 a 1,19; 129 por cada 1000; cuatro ECA, 484 participantes; evidencia de certeza muy baja). No se sabe si el plasma de convaleciente reduce o aumenta la necesidad de ventilación mecánica invasiva o la muerte (RR 5,59; IC del 95%: 0,29 a 108,38; 311 por cada 1000; un estudio, 34 participantes; evidencia de certeza muy baja) ni si reduce o aumenta el riesgo de eventos adversos graves (RR 0,80; IC 95%: 0,55 a 1,15; 236 por cada 1000; tres ECA, 327 participantes; evidencia de certeza muy baja). No se identificó ningún estudio que informara sobre otros desenlaces clave. Plasma de convaleciente versus inmunoglobulina humana El plasma de convaleciente podría tener poco o ningún efecto sobre la mortalidad por cualquier causa hasta el día 28 (RR 1,07; IC del 95%: 0,76 a 1,50; 464 por cada 1000; un estudio, 190 participantes; evidencia de certeza baja). No se identificó ningún estudio que informara sobre otros desenlaces clave. Personas con un diagnóstico confirmado de infección por SARSCoV2 y enfermedad leve Se identificaron dos ECA, con 536 participantes, que compararon el plasma de convaleciente con placebo o atención habitual sola y dos ECA, con 1597 participantes con enfermedad leve, que compararon el plasma de convaleciente con plasma estándar. Plasma de convaleciente versus placebo o atención habitual sola No se sabe si el plasma de convaleciente reduce la mortalidad por cualquier causa hasta el día 28 (odds ratio [OR] 0,36; IC del 95%: 0,09 a 1,46; 8 por cada 1000; dos ECA, 536 participantes; evidencia de certeza muy baja). Podría tener poco o ningún efecto en el ingreso hospitalario o la muerte a los 28 días (RR 1,05; IC del 95%: 0,60 a 1,84; 117 por cada 1000; un ECA, 376 participantes; evidencia de certeza baja), en el tiempo hasta la resolución de los síntomas de covid19 (cociente de riesgos instantáneos [CRI] 1,05; IC del 95%: 0,85 a 1,30; 483 por cada 1000; un ECA, 376 participantes; evidencia de certeza baja), en el riesgo de eventos adversos de grados 3 y 4 (RR 1,29; IC del 95%: 0,75 a 2,19; 144 por cada 1000; un ECA, 376 participantes; evidencia de certeza baja) y en el riesgo de eventos adversos graves (RR 1,14; IC del 95%: 0,66 a 1,94; 133 por cada 1000; un ECA, 376 participantes; evidencia de certeza baja). No se identificó ningún estudio que informara sobre otros desenlaces clave. Plasma de convaleciente versus plasma estándar No se sabe si el plasma de convaleciente reduce la mortalidad por cualquier causa hasta el día 28 (OR 0,30; IC del 95%: 0,05 a 1,75; 2 por cada 1000; dos ECA, 1597 participantes; evidencia de certeza muy baja). Es probable que reduzca el ingreso hospitalario o la muerte a los 28 días (RR 0,49; IC del 95%: 0,31 a 0,75; 36 por cada 1000; dos ECA, 1595 participantes; evidencia de certeza moderada). El plasma de convaleciente podría tener poco o ningún efecto sobre la resolución inicial de los síntomas hasta el día 28 (RR 1,12; IC del 95%: 0,98 a 1,27; un ECA, 416 participantes; evidencia de certeza baja). No se identificó ningún estudio que informara sobre otros desenlaces clave. Esta es una revisión sistemática continua. Cada mes se busca nueva evidencia y se actualiza la revisión cuando se identifica evidencia nueva relevante. CONCLUSIONES DE LOS AUTORES: Para la comparación del plasma de convaleciente versus placebo o la atención habitual sola, existe evidencia de certeza alta de que el plasma de convaleciente para personas con enfermedad moderada a grave no reduce la mortalidad y tiene poco o ningún efecto en la mejoría o el empeoramiento clínico. Es probable que tenga poco o ningún efecto en los eventos adversos graves. Para las personas con enfermedad leve, existe evidencia de certeza baja para los desenlaces principales. Hay 49 estudios en curso y 33 estudios que declaran estar completados en un registro de ensayos. La publicación de los estudios en curso podría resolver algunas de las incertidumbres en torno al tratamiento con plasma de convaleciente para personas con enfermedad asintomática o leve.
Assuntos
COVID-19 , Viroses , Humanos , COVID-19/terapia , Soroterapia para COVID-19 , Imunoglobulinas , SARS-CoV-2RESUMO
BACKGROUND: Convalescent plasma may reduce mortality in patients with viral respiratory diseases, and is being investigated as a potential therapy for coronavirus disease 2019 (COVID-19). A thorough understanding of the current body of evidence regarding benefits and risks of this intervention is required. OBJECTIVES: To assess the effectiveness and safety of convalescent plasma transfusion in the treatment of people with COVID-19; and to maintain the currency of the evidence using a living systematic review approach. SEARCH METHODS: To identify completed and ongoing studies, we searched the World Health Organization (WHO) COVID-19 Global literature on coronavirus disease Research Database, MEDLINE, Embase, Cochrane COVID-19 Study Register, and the Epistemonikos COVID-19 L*OVE Platform. We searched monthly until 03 March 2022. SELECTION CRITERIA: We included randomised controlled trials (RCTs) evaluating convalescent plasma for COVID-19, irrespective of disease severity, age, gender or ethnicity. We excluded studies that included populations with other coronavirus diseases (severe acute respiratory syndrome (SARS) or Middle East respiratory syndrome (MERS)), as well as studies evaluating standard immunoglobulin. DATA COLLECTION AND ANALYSIS: We followed standard Cochrane methodology. To assess bias in included studies we used RoB 2. We used the GRADE approach to rate the certainty of evidence for the following outcomes: all-cause mortality at up to day 28, worsening and improvement of clinical status (for individuals with moderate to severe disease), hospital admission or death, COVID-19 symptoms resolution (for individuals with mild disease), quality of life, grade 3 or 4 adverse events, and serious adverse events. MAIN RESULTS: In this fourth review update version, we included 33 RCTs with 24,861 participants, of whom 11,432 received convalescent plasma. Of these, nine studies are single-centre studies and 24 are multi-centre studies. Fourteen studies took place in America, eight in Europe, three in South-East Asia, two in Africa, two in western Pacific and three in eastern Mediterranean regions and one in multiple regions. We identified a further 49 ongoing studies evaluating convalescent plasma, and 33 studies reporting as being completed. Individuals with a confirmed diagnosis of COVID-19 and moderate to severe disease 29 RCTs investigated the use of convalescent plasma for 22,728 participants with moderate to severe disease. 23 RCTs with 22,020 participants compared convalescent plasma to placebo or standard care alone, five compared to standard plasma and one compared to human immunoglobulin. We evaluate subgroups on detection of antibodies detection, symptom onset, country income groups and several co-morbidities in the full text. Convalescent plasma versus placebo or standard care alone Convalescent plasma does not reduce all-cause mortality at up to day 28 (risk ratio (RR) 0.98, 95% confidence interval (CI) 0.92 to 1.03; 220 per 1000; 21 RCTs, 19,021 participants; high-certainty evidence). It has little to no impact on need for invasive mechanical ventilation, or death (RR 1.03, 95% CI 0.97 to 1.11; 296 per 1000; 6 RCTs, 14,477 participants; high-certainty evidence) and has no impact on whether participants are discharged from hospital (RR 1.00, 95% CI 0.97 to 1.02; 665 per 1000; 6 RCTs, 12,721 participants; high-certainty evidence). Convalescent plasma may have little to no impact on quality of life (MD 1.00, 95% CI -2.14 to 4.14; 1 RCT, 483 participants; low-certainty evidence). Convalescent plasma may have little to no impact on the risk of grades 3 and 4 adverse events (RR 1.17, 95% CI 0.96 to 1.42; 212 per 1000; 6 RCTs, 2392 participants; low-certainty evidence). It has probably little to no effect on the risk of serious adverse events (RR 1.14, 95% CI 0.91 to 1.44; 135 per 1000; 6 RCTs, 3901 participants; moderate-certainty evidence). Convalescent plasma versus standard plasma We are uncertain whether convalescent plasma reduces or increases all-cause mortality at up to day 28 (RR 0.73, 95% CI 0.45 to 1.19; 129 per 1000; 4 RCTs, 484 participants; very low-certainty evidence). We are uncertain whether convalescent plasma reduces or increases the need for invasive mechanical ventilation, or death (RR 5.59, 95% CI 0.29 to 108.38; 311 per 1000; 1 study, 34 participants; very low-certainty evidence) and whether it reduces or increases the risk of serious adverse events (RR 0.80, 95% CI 0.55 to 1.15; 236 per 1000; 3 RCTs, 327 participants; very low-certainty evidence). We did not identify any study reporting other key outcomes. Convalescent plasma versus human immunoglobulin Convalescent plasma may have little to no effect on all-cause mortality at up to day 28 (RR 1.07, 95% CI 0.76 to 1.50; 464 per 1000; 1 study, 190 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. Individuals with a confirmed diagnosis of SARS-CoV-2 infection and mild disease We identified two RCTs reporting on 536 participants, comparing convalescent plasma to placebo or standard care alone, and two RCTs reporting on 1597 participants with mild disease, comparing convalescent plasma to standard plasma. Convalescent plasma versus placebo or standard care alone We are uncertain whether convalescent plasma reduces all-cause mortality at up to day 28 (odds ratio (OR) 0.36, 95% CI 0.09 to 1.46; 8 per 1000; 2 RCTs, 536 participants; very low-certainty evidence). It may have little to no effect on admission to hospital or death within 28 days (RR 1.05, 95% CI 0.60 to 1.84; 117 per 1000; 1 RCT, 376 participants; low-certainty evidence), on time to COVID-19 symptom resolution (hazard ratio (HR) 1.05, 95% CI 0.85 to 1.30; 483 per 1000; 1 RCT, 376 participants; low-certainty evidence), on the risk of grades 3 and 4 adverse events (RR 1.29, 95% CI 0.75 to 2.19; 144 per 1000; 1 RCT, 376 participants; low-certainty evidence) and the risk of serious adverse events (RR 1.14, 95% CI 0.66 to 1.94; 133 per 1000; 1 RCT, 376 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. Convalescent plasma versus standard plasma We are uncertain whether convalescent plasma reduces all-cause mortality at up to day 28 (OR 0.30, 95% CI 0.05 to 1.75; 2 per 1000; 2 RCTs, 1597 participants; very low-certainty evidence). It probably reduces admission to hospital or death within 28 days (RR 0.49, 95% CI 0.31 to 0.75; 36 per 1000; 2 RCTs, 1595 participants; moderate-certainty evidence). Convalescent plasma may have little to no effect on initial symptom resolution at up to day 28 (RR 1.12, 95% CI 0.98 to 1.27; 1 RCT, 416 participants; low-certainty evidence). We did not identify any study reporting other key outcomes. This is a living systematic review. We search monthly for new evidence and update the review when we identify relevant new evidence. AUTHORS' CONCLUSIONS: For the comparison of convalescent plasma versus placebo or standard care alone, our certainty in the evidence that convalescent plasma for individuals with moderate to severe disease does not reduce mortality and has little to no impact on clinical improvement or worsening is high. It probably has little to no effect on SAEs. For individuals with mild disease, we have very-low to low certainty evidence for most primary outcomes and moderate certainty for hospital admission or death. There are 49 ongoing studies, and 33 studies reported as complete in a trials registry. Publication of ongoing studies might resolve some of the uncertainties around convalescent plasma therapy for people with asymptomatic or mild disease.
Assuntos
COVID-19 , Viroses , Humanos , COVID-19/terapia , SARS-CoV-2 , Soroterapia para COVID-19 , ImunoglobulinasRESUMO
BACKGROUND AND OBJECTIVES: Transfusion errors can occur anywhere from blood donation to final blood transfusion. They are a source of increased cost and patient mortality. Automated workflows can reduce transcription errors, but resource-poor centres still use semi-automated/manual method for testing including manual labelling of column agglutination cards/testing tubes. Missing out any details on these cards can lead to errors in reporting results, wastage and loss of resources and effort. The aim of this study was to implement Six Sigma DMAIC (Define, Measure, Analyse, Improve and Control) methodology to reduce transcription errors while labelling gel card in immunohaematology lab to zero defect. MATERIALS AND METHODS: In this prospective study, transcription errors while manually performing 200 tests with 1400 opportunities were analysed. Baseline variables like number of errors, defects per million opportunities and sigma level in our current setup were measured. With the application of DMAIC methodology, root cause analysis for each error using Ishikawa diagram and structured Interviews were done to identify causes. A multipronged approach to deal with errors was done to improve critical areas using brainstorming sessions and developing training sheets for practice. After implementing the changes, baseline variables were reanalysed. RESULTS: Application of DMAIC resulted in an overall reduction in defects from 34.86% to 0.56% with sigma level improvement from 1.89 to 4.08. CONCLUSION: Six Sigma methodology can be used in a resource-poor setting even with lack of automation to ensure error-free process flow.
Assuntos
Países em Desenvolvimento , Gestão da Qualidade Total , Humanos , Estudos Prospectivos , Automação , Transfusão de SangueRESUMO
Hematopoietic stem cell transplantation (HSCT) is the only cure for thalassemia major (TM), which inflicts a significant 1-time cost. Hence, it is important to explore the cost effectiveness of HSCT versus lifelong regular transfusion-chelation (TC) therapy. This study was undertaken to estimate incremental cost per quality-adjusted life-year (QALY) gained with the intervention group HSCT, and the comparator group TC, in TM patients. A combination of decision tree and Markov model was used for analysis. A hospital database, supplemented with a review of published literature, was used to derive input parameters for the model. A lifetime study horizon was used and future costs and consequences were discounted at 3%. Results are presented using societal perspective. Incremental cost per QALY gained with use of HSCT as compared with TC was 64,096 (US$986) in case of matched related donor (MRD) and 1,67,657 (US$2579) in case of a matched unrelated donor transplantation. The probability of MRD transplant to be cost effective at the willingness to pay threshold of Indian per capita gross domestic product is 94%. HSCT is a long-term value for money intervention that is highly cost effective and its long-term clinical and economic benefits outweigh those of TC.
Assuntos
Transfusão de Sangue/economia , Quelantes/economia , Transplante de Células-Tronco Hematopoéticas/economia , Modelos Econômicos , Talassemia beta/economia , Aloenxertos , Quelantes/uso terapêutico , Análise Custo-Benefício , Feminino , Humanos , Masculino , Cadeias de Markov , Anos de Vida Ajustados por Qualidade de Vida , Talassemia beta/terapiaRESUMO
Blood donors and voluntary blood donations are essential for ensuring the blood supply that can be maintained by good patient blood management (PBM) practices. This review article explores the role of blood donation in PBM and highlights the importance of donor screening and selection processes in different regions worldwide. The donor health questionnaires and the focused physical examination guidelines have changed in the last decade to increase donor and recipient safety. This article also discusses the status of transfusion practices, including the challenges of ensuring a safe blood supply. Significant among these are the effects of the COVID-19 pandemic on the blood supply chain and the impact of an aging donor population, especially. Promoting autologous donations and other blood conservation strategies are suggested to mitigate these issues. The role of replacement donors and the upper age limit for voluntary blood donation may be decided based on the demography and donor pool. The involvement of C-suite executives is also critical in implementing and running a successful PBM program. The review highlights how these different aspects of blood donation are integral to a successful PBM program and the safety of patients who receive blood transfusions.
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BACKGROUND: Optimal thromboprophylaxis for hospitalized patients with coronavirus disease 2019 (Covid-19) is uncertain. METHODS: In an open-label, adaptive platform trial, we randomly assigned hospitalized adults with Covid-19 to low-dose low-molecular-weight heparin thromboprophylaxis or intermediate-dose or low-dose plus aspirin. In response to external evidence, the aspirin intervention was discontinued and a therapeutic-dose arm added. The primary end point was death or the requirement for new organ support by day 28, analyzed with a Bayesian logistic model. Enrolment was closed as a result of operational constraints. RESULTS: Between February 2021 and March 2022, 1574 patients were randomly assigned. Among 1526 participants included in the analysis (India, n=1273; Australia and New Zealand, n=138; and Nepal, n=115), the primary outcome occurred in 35 (5.9%) of 596 in low-dose, 25 (4.2%) of 601 in intermediate-dose, 20 (7.2%) of 279 in low-dose plus aspirin, and 7 (14%) of 50 in therapeutic-dose anticoagulation. Compared with low-dose thromboprophylaxis, the median adjusted odds ratio for the primary outcome for intermediate-dose was 0.74 (95% credible interval [CrI], 0.43 to 1.27; posterior probability of effectiveness [adjusted odds ratio<1; Pr], 86%), for low-dose plus aspirin 0.88 (95% CrI, 0.47 to 1.64; Pr, 65%), and for therapeutic-dose anticoagulation 2.22 (95% CrI, 0.77 to 6.20; Pr, 7%). Overall thrombotic and bleeding rates were 0.8% and 0.4%, respectively. There were 10 serious adverse reactions related to anticoagulation strategy, of which nine were grade 1 or 2 across study interventions and one grade 4 episode of retroperitoneal hematoma in a patient receiving intermediate-dose anticoagulation. CONCLUSIONS: In hospitalized noncritically ill adults with Covid-19, compared with low-dose, there was an 86% posterior probability that intermediate-dose, 65% posterior probability that low-dose plus aspirin, and a 7% posterior probability that therapeutic-dose anticoagulation reduced the odds of death or requirement for organ support. No treatment strategy met prespecified stopping criteria before trial closure, precluding definitive conclusions. (Funded by Australian National Health and Medical Research Council or Medical Research Future Fund Investigator and Practitioner Grants and others; ClinicalTrials.gov number, NCT04483960.)
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COVID-19 , Humanos , Anticoagulantes/farmacologia , Coagulação Sanguínea , Aspirina/farmacologiaRESUMO
OBJECTIVE: Large data on the clinical characteristics and outcome of COVID-19 in the Indian population are scarce. We analysed the factors associated with mortality in a cohort of moderately and severely ill patients with COVID-19 enrolled in a randomised trial on convalescent plasma. DESIGN: Secondary analysis of data from a Phase II, Open Label, Randomized Controlled Trial to Assess the Safety and Efficacy of Convalescent Plasma to Limit COVID-19 Associated Complications in Moderate Disease. SETTING: 39 public and private hospitals across India during the study period from 22 April to 14 July 2020. PARTICIPANTS: Of the 464 patients recruited, two were lost to follow-up, nine withdrew consent and two patients did not receive the intervention after randomisation. The cohort of 451 participants with known outcome at 28 days was analysed. PRIMARY OUTCOME MEASURE: Factors associated with all-cause mortality at 28 days after enrolment. RESULTS: The mean (SD) age was 51±12.4 years; 76.7% were males. Admission Sequential Organ Failure Assessment score was 2.4±1.1. Non-invasive ventilation, invasive ventilation and vasopressor therapy were required in 98.9%, 8.4% and 4.0%, respectively. The 28-day mortality was 14.4%. Median time from symptom onset to hospital admission was similar in survivors (4 days; IQR 3-7) and non-survivors (4 days; IQR 3-6). Patients with two or more comorbidities had 2.25 (95% CI 1.18 to 4.29, p=0.014) times risk of death. When compared with survivors, admission interleukin-6 levels were higher (p<0.001) in non-survivors and increased further on day 3. On multivariable Fine and Gray model, severity of illness (subdistribution HR 1.22, 95% CI 1.11 to 1.35, p<0.001), PaO2/FiO2 ratio <100 (3.47, 1.64-7.37, p=0.001), neutrophil lymphocyte ratio >10 (9.97, 3.65-27.13, p<0.001), D-dimer >1.0 mg/L (2.50, 1.14-5.48, p=0.022), ferritin ≥500 ng/mL (2.67, 1.44-4.96, p=0.002) and lactate dehydrogenase ≥450 IU/L (2.96, 1.60-5.45, p=0.001) were significantly associated with death. CONCLUSION: In this cohort of moderately and severely ill patients with COVID-19, severity of illness, underlying comorbidities and elevated levels of inflammatory markers were significantly associated with death. TRIAL REGISTRATION NUMBER: CTRI/2020/04/024775.
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COVID-19 , Adulto , COVID-19/terapia , Humanos , Imunização Passiva , Índia/epidemiologia , Pessoa de Meia-Idade , SARS-CoV-2 , Soroterapia para COVID-19RESUMO
Intravenous (IV) drug abuse has been well established to be the source of transfer of infections, such as HIV, hepatitis C virus, and hepatitis B virus. However, often overlooked fact is that IV drug abusers have a potential for developing alloimmunization due to universal practice of flushing/washing out the syringe by own blood to rinse out the drug in the syringe. We present here a case of a 28-year-old man who presented with a rather unique predicament of having developed four different alloantibodies after exposure to allogenic blood through IV drug abuse. This case was detected promptly due to routine usage of type and screen policy for all the patients receiving transfusion. Such screening for atypical antibodies must be instituted to preemptively identify these antibodies and arrange compatible blood, which could have been difficult otherwise, at short notice during routine crossmatch. This is the first of its kind case ever reported from India and has no precedence.
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Pemphigus vulgaris is an autoimmune disorder that involves intraepithelial blistering and sores of skin and mucous membrane. It generally correlates with the levels of circulating autoantibodies; their removal seems a reasonable therapeutic approach. Therapeutic plasma exchange is hypothesized to remove pathogenic autoantibodies and has been used in refractory or severe cases. It may be considered for rapid control of severe or recalcitrant pemphigus vulgaris and should be combined with use of concomitant immuno-suppressive.
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The current study reports a case of multiple microvenular hemangioma (MH). A 35-year-old male presented with dark red maculopapules on the trunk and limbs that had been apparent for 5 years. The number of lesions exceeded 100 in total. A histological examination demonstrated multiple, irregular, branching venules in the dermis, without any endothelial atypia. On immunohistochemical analysis of the vascular structures, the endothelial cells stained positive for CD31, CD34 and factor VIII, and the perivascular cells stained positive for SMA and HHF-35. These observations were consistent with a diagnosis of MH, and should be differentiated from the most common differential diagnosis of patch-stage Kaposi's sarcoma. There was no clear effect following topical application of recombinant human interferon α-2b gel.