Direct-to-patient (DTP) multiple myeloma (MM) research studies have been launched recently, including PCROWD (NCT02269592), PROMISE (NCT03689595), and the MMRF CureCloud Research Initiative (NCT03657251), aimed at enrolling thousands of individuals from whom comprehensive molecular and immune analyses will be generated from blood specimens and the resulting data aggregated with the correlating clinical information. To support the molecular characterization of liquid biopsies for such DTP efforts, a myeloma-specific hybrid selection panel was developed that captures 70 commonly altered genes. The assay detects somatic point mutations and indels present in a patient’s circulating-free DNA (cfDNA). For this MM 70-Gene cfDNA Assay, samples are received as blood in a Streck’s tube and DNA is extracted from buffy coat using magnetic bead-based chemistry. Coverage sequencing (80,000x depth) is performed and duplex BAM files are generated with UMI alignment and de-duplication. As will be presented, MM blood specimens present a unique challenge as circulating MM cells are often present at significant levels in the buffy coat blood fraction used as the source of normal genomic DNA. The performance of the 70-Gene cfDNA Assay was thoroughly validated in order to establish the sensitivity, specificity, and reproducibility of the technical approach. First, the reference genomic DNA from unrelated healthy individuals was sequenced in replicate at deep coverage. Next, two cohorts were used, one from Dana-Farber and one from the MMRF CureCloud pilot. For both cohorts, tumor DNA samples from bone marrow aspirates (BMAs) with matched normal DNA from blood were sequenced on an orthogonal platform and compared to results from the MM 70-Gene Assay on cfDNA extracted from the same individuals. The yield of extracted cfDNA ranged from 6 ng to 80 ng, and about two third of cases yielded enough material to attempt sequencing, with failures coming mostly from individuals in remission. As will be presented, there was a very strong correlation between BMA and cfDNA and additional events could actually be detected in the blood that were not seen in the BMAs. Because this MM 70-Gene cfDNA Assay may potentially be used by treating physicians for management of care, a clinical-grade (CLIA) pipeline was established. For that CLIA pipeline, the variants reported are a subset of all the events detected by the MM 70-Gene Assay. The events detected in the assay are reviewed by a Genomic Tumor Board within the appropriate subset of territory predefined for reporting. The territory limitations are defined by the Genomic Tumor Board knowledgebase of actionable genomic territory available. In summary, we have developed a robust and very sensitive clinical-grade next-gen liquid biopsy sequencing platform allowing for less invasive monitoring of MM disease genomics that can be used to complement other more classical approaches and to help support direct-to-patient Initiatives. Citation Format: Mark W. Bustoros, Carrie Cibulskis, Teni Dowdell, Svetlana Gavrilov, Cody Boehner, Jennifer Yesil, Steven E. Labkoff, Shaadi Mehr, Jihye Park, Romanos Sklavenitis Pistofidis, Salomon Manier, Annette S. Kim, Keith L. Ligon, Niall Lennon, Viktor Adalsteinsson, Jane Wilkinson, Irene M. Ghobrial, Daniel Auclair. A novel clinical-grade liquid biopsy platform for multiple myeloma [abstract]. In: Proceedings of the AACR Special Conference on Advances in Liquid Biopsies; Jan 13-16, 2020; Miami, FL. Philadelphia (PA): AACR; Clin Cancer Res 2020;26(11_Suppl):Abstract nr A38.
Direct-to-Patient (DTP) Multiple Myeloma (MM) research studies have been launched recently, including PCROWD (NCT02269592), PROMISE (NCT03689595) and the MMRF CureCloud Research Initiative (NCT03657251), aimed at enrolling thousands of individuals from whom comprehensive molecular and immune analyses will be generated from blood specimens and the resulting data aggregated with the correlating clinical information. To support the molecular characterization of liquid biopsies for such DTP efforts, a set of myeloma-specific liquid biopsy approaches were developed. First, a hybrid selection panel was developed that detects somatic variants present in a patient's circulating-free DNA (cfDNA) in 70 commonly altered MM and Clonal Hematopoiesis of Indeterminate Potential (CHIP) genes. For this MM 70-Gene cfDNA Assay, samples are received as blood in a StreckTM tube designed for stabilization of cfDNA and DNA is extracted from buffy coat using magnetic bead-based chemistry. Deep coverage sequencing (80,000x depth) is performed and duplex BAM files generated with UMI alignment and error correction allowing for sensitive detection of clinically relevant variants. Technical validation data on healthy donor cfDNA mixes was generated using samples with a range of cfDNA inputs. This data determined that the assay is capable of achieving >90% sensitivity for detecting somatic events present at 1% variant allele frequency with a specificity of <0.2 false positives per megabase. Using a clinical cohort, we observed a strong correlation between Bone Marrow Aspirate (BMA) and cfDNA samples with the vast majority of variants previously detected in BMA also identified via the MM-70 Gene panel analysis. Interestingly, we also saw evidence of additional somatic variants identified in cfDNA previously undetected in BMA analysis. Because one the aims of this effort is to return results to treating physicians, a clinical-grade (CLIA) pipeline was established. For that CLIA pipeline, the variants reported are a subset of all the events detected by the MM 70-Gene Assay. The events detected in the assay are reviewed by experienced molecular pathologists at the Dana Farber Cancer Institute (DFCI) who have developed a customized reporting process. These reports utilize an internally-developed knowledgebase of variant/gene annotations that leverages the DFCI expertise in hematologic malignancies and myeloma specifically. The reports are then provided back through providers to the patient via the CureCloud system for their use in clinical care and trial identification. In order to complement the MM-70 Gene panel with copy number and translocation information, we have been exploring Circulating Multiple Myeloma Cells (CMMCs). Our current approach involves automated capture of CMMCs using ferrofluids coated with MM-selective and discriminating antibodies to immunomagnetically enrich circulating plasma cells. The highly enriched CMMCs fractions generated in such a fashion are then submitted for molecular characterization. At the submission date of this abstract, 163 patients have been fully enrolled into CureCloud from which results will be presented. In summary, we have developed a robust and very sensitive clinical-grade next-gen liquid biopsy sequencing platform allowing for minimally invasive monitoring of MM disease genomics that can be used to complement other more classical approaches and to help support our Direct-To-Patient Initiatives. Especially in this post-COVID19 era, such liquid biopsy-based approaches that avoid clinic visits for the patients and can be performed through at-home mobile phlebotomy are emerging as important new options. Disclosures Kim: LabCorp: Consultancy; Quanterix, Inc: Consultancy; PapGene, Inc: Consultancy. Ghobrial:AbbVie: Consultancy; GNS Healthcare: Consultancy; GlaxoSmithKline: Consultancy; Genentech: Consultancy; Noxxon Pharma: Consultancy; Novartis: Consultancy; Adaptive Biotechnologies: Consultancy, Honoraria; Sanofi: Consultancy, Honoraria; Celgene: Consultancy, Honoraria; Bristol-Myers Squibb: Consultancy, Honoraria; Janssen: Consultancy, Honoraria; Takeda: Consultancy, Honoraria; Cellectar: Honoraria; Karyopharm Therapeutics: Consultancy, Honoraria; Amgen: Consultancy, Honoraria.
Airway management in hospital. Methodological recommendations of the All-Russian public organization “Federation of Anesthesiologists and Reanimatologists” (third edition)
The review presents the guidelines of the Federation of Anesthesiologists and Resuscitators, revised in 2021. The recommendations are based on a review of publications and current international guidelines of the Society for Difficult Airways (2018, 2020), the American Society of Anesthesiologists (2013, draft-version 2022), the European Society anesthesiologists (2018). The guidelines provide up-to-date definitions of various “difficult airway” situations; modern data on the use of ultrasound technologies in assessing the upper airways and predicting the risk of aspiration based on preoperative ultrasound scanning of the stomach; current evidence on the effectiveness of modern devices for ventilation and tracheal intubation. Algorithms of actions in various situations with anticipated and unanticipated “difficult airways” in patients with different risks of aspiration are proposed. An algorithm for preparing, predicting possible complications and performing tracheal extubation is also proposed. The recommendations presented in the review are aimed at achieving the goal - increasing patient safety during situations of “difficult airways” through the use of the safest and most effective approaches and methods, as well as reducing the risk of complications associated with these situations (death, severe neurological damage, traumatic injuries of the upper airways and trachea, etc.).
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