製品
Colibrí™
Colibrí™は、抗菌感受性試験(AST)における釣菌、MALDI-TOFを用いた同定検査用標的物質*や細菌懸濁液準備の自動化を実現するために設計されたCopanのデバイスです。
製品
WASP®
WASP®は、菌の植え付け、画線塗布、顕微鏡用スライド準備、増菌ブロス接種、AST(抗菌薬感受性試験)用プレート準備など、検体処理におけるオートメーション*のすべてを網羅できる包括的なシステムです。
製品
MicroHub®
現在開発中のMicroHub®は、未来のコントロールセンターとなる潜在能力を秘めています。ミドルウェアとして機能するMicroHub®は、患者、検体、WASPLab®などの様々な機器のデータを一箇所に集約し、あらゆる視点から管理できるようになるでしょう。
製品
PhenoMATRIX®
PhenoMATRIX®およびPhenoMATRIX®TAGは、画像解析アルゴリズムと患者の人口統計学的データおよび臨床データを組み合わせて、陰性プレートを自動的に分別し、陽性プレートをカスタムフォルダに整理する人工知能搭載のソフトウェアです。
学術研究
Eur J Clin Microbiol Infect Dis
2020
Rapid identification by MALDI-TOF/MS and antimicrobial disk diffusion susceptibility testing for positive blood cultures after a short incubation on the WASPLab®
Abdessalam Cherkaoui & Gesuele Renzi & Nouria Azam & Didier Schorderet & Nicolas Vuilleumier
& Jacques Schrenzel
学術研究
ECCMID
2019
Evaluation of PhenoMATRIX™ expert system for the segregation of urine specimens on CHROMID® CPSE Elite
J. Bayette, A. Roche, T. Bayol, J F. Bessel, P. Rolland, P. Mion, R. Fournier, G. Teissier
Scientific Study
ECCMID
2018
Multicenter Evaluation of the WASPLab® Digital Image Analysis Software to Segregate Significant Growth of the Urine Cultures on Blood and MacConkey Agar
M.L. Faron, B. W. Buchan, R.F. Relich, A. Phillips, D. Kahn, J. Clark, and Nathan. A. Ledeboer
学術研究
Clinical Chemistry
2022
Current State of Laboratory Automation in Clinical Microbiology Laboratory
Kritikos Antonios et al.
学術研究
Antimicrobial Resistance & Infection Control
2022
The challenge of preventing and containing outbreaks of multidrug-resistant organisms and Candida auris during the coronavirus disease 2019 pandemic: report of a carbapenem-resistant Acinetobacter baumannii outbreak and a systematic review of the literature
Reto Thoma et al.
学術研究
Journal of Clinical Microbiology
2021
Performance of Fully Automated Antimicrobial Disk Diffusion Susceptibility Testing Using Copan WASP Colibri coupled to Radian in-Line Carousel and Expert System
Abdessalam Cherkaoui et al.
学術研究
Frontiers in cellular and infection Microbiology
2019
Automated Incubation and Digital Image Analysis of Chromogenic Media Using Copan WASPLab Enables Rapid Detection of Vancomycin-Resistant Enterococcus
Abdessalam Cherkaoui, Gesuele Renzi, Yannick Charretier, Dominique S. Blanc, Nicolas Vuilleumier, Jacques Schrenzel
学術研究
Eur J Clin Microbiol Infect Dis
2020
Implementation of the WASPLab™ and first year achievements within a university hospital
Abdessalam Cherkaoui, Gesuele Renzi, Arnaud Viollet, Mark Fleischmann, Ludovic Metral-Boffod, David Dominguez-Amado, Nicolas Vuilleumier, Jacques Schrenzel
学術研究
J Clin Microbiol
2021
Multicenter Evaluation of Processing and Analysis of College of American Pathologists (CAP) Proficiency Testing Samples by Laboratory Automation
N Esther Babady, Lori Bourassa, Carey-Ann D Burnham, Mark Fisher, Erin McElvania, Christopher R Polage, Julie Ribes
学術研究
J Clin Microbiol
2021
Benefits Derived from Full Laboratory Automation in Microbiology: a Tale of Four Laboratories
Karissa Culbreath, Heather Piwonka, John Korver, Mir Noorbakhsh
学術研究
ECCMID
2016
Walk Away Automated Disc Diffusion Susceptibility Testing by Copan WASPLab®
J. van der Linden, A.R. Jansz, T. Liebregts, J. Stalpers, N.L.A. Arents, L.B.J. van der Velden
Scientific Study
J Antimicrob Chemother
2020
Tentative breakpoints and areas of technical uncertainty for early reading automated disc diffusion for Enterobacterales
Stefano Mancini, Kim Röthlin, Elias Bodendoerfer, Sebastian Herren, Natalia Kolesnik-Goldmann,
Patrice Courvalin, Reinhard Zbinden and Erik C. Böttger
学術研究
Clin Microbiol Infect
2020
Disc diffusion AST automation: one of the last pieces missing for full microbiology laboratory automation
O. Dauwalder, F. Vandenesch
学術研究
ECCMID
2019
Colibrí® and Bruker MALDI-TOF: does the identification performance change when different chromogenic media are used for urine culture?
Michela Paolucci, Laura Navarria, Santina Castriciano
学術研究
ECCMID
2019
Evaluation of WASPLab® Chromogenic Detection Module to Detect Significant Growth in Urine Cultures with CLED Agar.
M. L. Faron, B. W. Buchan, and Nathan. A. Ledeboer
学術研究
ECCMID
2019
Evaluation of the performances of Color Detection Module Algorithm for the automated detection of Streptococcus agalactiae on CHROMID®StreptoB
Corine Fulchiron, Maryse Guicherd, Geraldine Durand
学術研究
ASM
2019
Validation and implementation of Colorex™ CHROMagar™ Strep A agar on WASP®/WASPLab® for screening for Streptococcus pyogenes using the eSwab®
M. Gaskin, D. Yamamura, J. Korver
学術研究
Clin Microbiol Infect
2019
Copan WASPLab® automation significantly reduces incubation times and allows earlier culture readings
A. Cherkaoui, G. Renzi, N. Vuilleumier, J. Schrenzel
学術研究
J Clin Microbiol
2020
Evaluation of the WASPLab® Segregation Software to Automatically Analyze Urine Cultures using Routine Blood and MacConkey Agars
Matthew L. Faron, Blake W. Buchan, Ryan F. Relich, James Clark, and Nathan A. Ledeboer
学術研究
ASM
2019
Utilizing Digital Imaging to Determine Optimal Incubation Times for Routine Urine Cultures
Cynthia C. Keyak
学術研究
ECCMID
2019
The patient is in the centre: integrated management of results with WASPLab® System
Laura Bartolini, Guendalina Vaggelli, Patrizia Pecile, Gian Maria Rossolini
学術研究
ECCMID
2019
Medical value of WASPLab® automation solution in a 24/7 clinical microbiology laboratory: some preliminary results
Olivier DAUWALDER, HCL team, Jean Marc de MARTINI, Jean Francois SAUZON,
Monique DREVARD, bMx team, Gérard LINA, Frédéric LAURENT & Francois VANDENESCH
学術研究
ECCMID
2016
Accelerated Time-to-Diagnosis by Automated Processing of Positive Blood Cultures on Copan WASPLab®
Marion Jetter, Martina Marchesi, Peter M. Keller, Michael Hombach
学術研究
ASM
2018
Evaluating WASPLab® against manual processing for infection control screening swabs – An Australian perspective
Catherine WRIGHT
学術研究
ASM
2019
Use of Copan’s WASPLab® PhenoMATRIX™ Artificial Intelligence to Improve the Efficiency of Urine Culture Interpretation
Susan M. Poutanen, Jessica Bourke, Pauline Lo, Karen Pike, Katherine Wong, Tony Mazzulli
学術研究
IBMS
2019
Segregation and WASPLab® automation impact on MRSA screening at LTHT
Humaira Hussain, Deena Snape
学術研究
ASM
2019
Digital detection and the use of Artificial Intelligence to detect Group A Streptococcus using a chromogenic agar
Cynthia C. Keyak, MT (ASCP), SSGB
学術研究
ECCMID
2019
Can image analysis automatically screen for Streptococcus agalactiae in specimens collected from pregnant women?
J. Steenbergen
学術研究
ECCMID
2019
Validation of image analysis software for automatic screening of all Carbapenemase-Producing Enterobacteriaceae
Vittorio Sambri, Maria Federica Pedna
学術研究
J Clin Microbiol
2019
Evaluation of WASPLab® Software To Automatically Read chromID CPS Elite Agar for Reporting of Urine Cultures
Matthew L. Faron,Blake W. Buchan,Hasan Samra,Nathan A. Ledeboera
学術研究
J Clin Microbiol
2019
Automated Detection of Streptococcus pyogenes pharyngitis using Colorex Strep A CHROMagar and WASPLab® Artificial Intelligence Chromogenic Detection Module Software
Tam T. Vana, Kenneth Mata, Jennifer Dien Bard, Department of Pathology, Harbor-UCLA
学術研究
Front. Cell. Infect. Microbiol.
2019
Automated Incubation and Digital Image Analysis of Chromogenic Media Using Copan WASPLab® Enables Rapid Detection of Vancomycin-Resistant Enterococcus
Abdessalam Cherkaoui1, Gesuele Renzi1, Yannick Charretier, Dominique S. Blanc, Nicolas Vuilleumier
and Jacques Schrenzel
学術研究
ASM
2019
Clinical performance of the WASPLab® AI/IA-PhenoMATRIX™ software in detection of GBS from LIM-enriched cultures plated to CHROMID® strepto B Chromogenic media
Karen Timm, Justin Baker, Karissa Culbreath
学術研究
Frontiers in cellular and infection Microbiology
2022
Total Laboratory Automation for Rapid Detection and Identification of Microorganisms and Their Antimicrobial Resistance Profiles
Abdessalam Cherkaoui et al.
ビデオ (英語)
WASPLab® Ecosystem
WASPLab® is our preanalytical automation ecosystem that begins at the inoculation phase and ends at reading, interpreting, and picking activities. Discover in this video all its modules!
ビデオ (英語)
UZ Leuven Laboratory Interview about WASPLab® Ecosystem
In Leuven, Belgium, the UZ Laboratory installed Copan’s WASPLab® Ecosystem in 2018 to handle thousands of samples every day, with improved standardization and shortened time to results.
