RESUMO
BACKGROUND: Comprehensive guidelines for the management of iron deficiency anemia (IDA) in adolescents with heavy menstrual bleeding (HMB) presenting to the emergency department (ED) are lacking, leading to variability in care. We aimed to standardize the evaluation and management of these patients through the development and implementation of an evidence-based algorithm using quality improvement methodology. METHODS: Baseline data of the target population identified variability across four key measures of clinical management: therapy choice and administration, laboratory evaluation, hematology service consultation, and patient disposition. Literature review and consensus from pediatric hematology and gynecology providers informed a draft algorithm that was refined in an iterative multidisciplinary process. From December 2022 to July 2023, we aimed to achieve a 25% relative increase in patients to receive optimal management per the algorithm, while using sequential Plan-Do-Study-Act (PDSA) cycles. Process measures focusing on provider documentation and balancing measures, such as ED length of stay, were assessed concurrently. RESULTS: Forty-nine patients were evaluated during four PDSA cycles. Improvement of ≥40% above baseline regarding recommended therapy administration was achieved across four PDSA cycles. Adherence to recommended therapy choice improved from 57% (baseline) to 100%, minimal laboratory evaluation from 14% to 83%, hematology consultation from 36% to 100%, and appropriate disposition from 71% to 100%. ED length of stay remained stable. CONCLUSION: Implementation of a standardized algorithm for management of IDA secondary to HMB in adolescents in the ED increased adherence to evidence-based patient care.
RESUMO
The survival rate of pediatric acute myeloid leukemia (pAML) is currently around 60%. While survival has slowly increased over the past few decades, the development of novel agents likely to further improve survival for this heterogeneous patient population has been limited by gaps in the pAML pre-clinical pipeline. One of the major hurdles in evaluating new agents for pAML is the lack of pAML patient-derived xenograft (PDX) models. Unlike solid tumors and other types of leukemias, AML is notoriously hard to establish in mouse models, likely due in part to the need for specific human microenvironment elements. Our laboratory at TCH/BCM addressed this gap by establishing a systematic PDX workflow, leveraging advanced immunodeficient hosts and capitalizing on our high volume of pAML patients and close coordination between labs and clinical sections. Patients treated at TCH are offered the chance to participate in specimen banking protocols that allow blood and bone marrow collection as well as the collection of relevant clinical data. All patients who consent and have samples available are trialed for PDX development. In addition, samples from the Children's Oncology Group (COG) are also trialed for PDX generation. Serially transplanting PDX models are validated using short tandem repeat (STR) and characterized using both targeted DNA/RNA next generation sequencing and RNAseq. As of March 2023, this systematic approach has resulted in 26 serially transplanting models. Models have been shared with requesting labs to facilitate external pAML pre-clinical studies. Available PDX models can be located through the BCM PDX Portal. We expect our growing PDX resource to make a significant contribution to expediting the testing of promising novel therapeutics for pAML.