OBJECTIVE: The aim of this study is a novel automated sample-processing concept for future proteomics and clinical research, performing patient studies from resulting blood fractions in various disease areas. Another aim is biobank storage of small sample volumes, where each sample aliquot can be used for a dedicated clinical analysis and end-point measurement in order to preserve sample integrity and value over time. METHODS: 96 and 384 format sample storage tube systems were utilized for preservation and archiving of clinical patient samples. Automated sample processing and aliquoting were achieved using robotic liquid handling instrumentation, followed by biomarker assay quantitations. Sample workflow was documented and tracked by Nautilus LIMS. RESULTS: Validation by repetitive processing and analysis confirmed the reliability of automated high density 384 format aliquoting. This high density scaling allows for reproducible aliquoting of 70-μL volumes of blood. Plasma with EDTA, Li-heparin, and citrate, as anti-coagulants, fractioned along with the buffy coat (leukocytes) and the erythrocyte fraction. Large scale processing of 11,000 sample aliquots resulted in a 99.8% process fulfillment. CONCLUSION: Our results demonstrate that robust results can be generated from an automated sample processing strategy, isolating plasma, buffy coat, erythrocytes, serum and whole blood, proven by quantitation of 23 common markers used in everyday healthcare around the world. This article is part of a Special Issue entitled: Integrated omics.
OBJECTIVE: The aim of this study is a novel automated sample-processing concept for future proteomics and clinical research, performing patient studies from resulting blood fractions in various disease areas. Another aim is biobank storage of small sample volumes, where each sample aliquot can be used for a dedicated clinical analysis and end-point measurement in order to preserve sample integrity and value over time. METHODS: 96 and 384 format sample storage tube systems were utilized for preservation and archiving of clinical patient samples. Automated sample processing and aliquoting were achieved using robotic liquid handling instrumentation, followed by biomarker assay quantitations. Sample workflow was documented and tracked by Nautilus LIMS. RESULTS: Validation by repetitive processing and analysis confirmed the reliability of automated high density 384 format aliquoting. This high density scaling allows for reproducible aliquoting of 70-μL volumes of blood. Plasma with EDTA, Li-heparin, and citrate, as anti-coagulants, fractioned along with the buffy coat (leukocytes) and the erythrocyte fraction. Large scale processing of 11,000 sample aliquots resulted in a 99.8% process fulfillment. CONCLUSION: Our results demonstrate that robust results can be generated from an automated sample processing strategy, isolating plasma, buffy coat, erythrocytes, serum and whole blood, proven by quantitation of 23 common markers used in everyday healthcare around the world. This article is part of a Special Issue entitled: Integrated omics.
Authors: Johan Malm; Thomas E Fehniger; Pia Danmyr; Ákos Végvári; Charlotte Welinder; Henrik Lindberg; Paul Upton; Stephanie Carter; Roger Appelqvist; Karin Sjödin; Elisabet Wieslander; Magnus Dahlbäck; Melinda Rezeli; David Erlinge; György Marko-Varga Journal: Transl Respir Med Date: 2013-08-30
Authors: Lazaro Hiram Betancourt; Jeovanis Gil; Aniel Sanchez; Viktória Doma; Magdalena Kuras; Jimmy Rodriguez Murillo; Erika Velasquez; Uğur Çakır; Yonghyo Kim; Yutaka Sugihara; Indira Pla Parada; Beáta Szeitz; Roger Appelqvist; Elisabet Wieslander; Charlotte Welinder; Natália Pinto de Almeida; Nicole Woldmar; Matilda Marko-Varga; Jonatan Eriksson; Krzysztof Pawłowski; Bo Baldetorp; Christian Ingvar; Håkan Olsson; Lotta Lundgren; Henrik Lindberg; Henriett Oskolas; Boram Lee; Ethan Berge; Marie Sjögren; Carina Eriksson; Dasol Kim; Ho Jeong Kwon; Beatrice Knudsen; Melinda Rezeli; Johan Malm; Runyu Hong; Peter Horvath; A Marcell Szász; József Tímár; Sarolta Kárpáti; Peter Horvatovich; Tasso Miliotis; Toshihide Nishimura; Harubumi Kato; Erik Steinfelder; Madalina Oppermann; Ken Miller; Francesco Florindi; Quimin Zhou; Gilberto B Domont; Luciana Pizzatti; Fábio C S Nogueira; Leticia Szadai; István Balázs Németh; Henrik Ekedahl; David Fenyö; György Marko-Varga Journal: Clin Transl Med Date: 2021-07
Authors: Charlotte Welinder; Göran Jönsson; Christian Ingvar; Lotta Lundgren; Håkan Olsson; Thomas Breslin; Akos Végvári; Thomas Laurell; Melinda Rezeli; Bo Jansson; Bo Baldetorp; György Marko-Varga Journal: Clin Transl Med Date: 2013-02-27
Authors: Natália Almeida; Jimmy Rodriguez; Indira Pla Parada; Yasset Perez-Riverol; Nicole Woldmar; Yonghyo Kim; Henriett Oskolas; Lazaro Betancourt; Jeovanis Gil Valdés; K Barbara Sahlin; Luciana Pizzatti; A Marcell Szasz; Sarolta Kárpáti; Roger Appelqvist; Johan Malm; Gilberto B Domont; Fábio C S Nogueira; György Marko-Varga; Aniel Sanchez Journal: Cancers (Basel) Date: 2021-12-10 Impact factor: 6.639