1.
Laboratory automation in clinical bacteriology: what system to choose?
by Croxatto, A
Clinical microbiology and infection, 2016, Vol.22 (3), p.217-235
2.
Screening Robotics and Automation
by Mattheakis, Larry
Journal of biomolecular screening, 2014, Vol.19 (3), p.478-480
3.
Automation in clinical bacteriology: what system to choose?
by Greub, G
Clinical microbiology and infection, 2011, Vol.17 (5), p.655-660
4.
Performance of the new automated Abbott RealTime MTB assay for rapid detection of Mycobacterium tuberculosis complex in respiratory specimens
by Chen, J. H. K
European journal of clinical microbiology & infectious diseases, 2015, Vol.34 (9), p.1827-1832
5.
Laboratory automation reduces time to report of positive blood cultures and improves management of patients with bloodstream infection
by De Socio, Giuseppe Vittorio
European journal of clinical microbiology & infectious diseases, 2018, Vol.37 (12), p.2313-2322
6.
Transformation From a Conventional Clinical Microbiology Laboratory to Full Automation
by Moreno-Camacho, José L
Laboratory medicine, 2017, Vol.49 (1), p.e1-e8
7.
Developing an automated robotic factory for novel stem cell therapy production
by Rafiq, Qasim A
Regenerative medicine, 2016, Vol.11 (4), p.351-354
8.
The future of diagnostic bacteriology
by Matthews, S
Clinical microbiology and infection, 2011, Vol.17 (5), p.651-654
9.
Evaluation of the Sysmex UF-1000i for the Diagnosis of Urinary Tract Infection
by Wang, Jie
American journal of clinical pathology, 2010, Vol.133 (4), p.577-582
10.
Evaluation of the PREVI® Isola automated seeder system compared to reference manual inoculation for antibiotic susceptibility testing by the disk diffusion method
by Le Page, S
European journal of clinical microbiology & infectious diseases, 2015, Vol.34 (9), p.1859-1869
11.
Performance and reproducibility of gynecologic cytology interpretation using the FocalPoint system: results of the RODEO Study Team
by Stein, Maíra Degiovani
American journal of clinical pathology, 2013, Vol.140 (4), p.567-571
12.
Present and future automation in bacteriology
by Dumitrescu, O
Clinical microbiology and infection, 2011, Vol.17 (5), p.649-650
13.
Successful completion of a semi-automated enzyme-free cloning method
by Bonacci, Stefano
Journal of structural and functional genomics, 2016, Vol.17 (2-3), p.57-66
14.
The way forward for fast microbiology
by Mulatero, F
Clinical microbiology and infection, 2011, Vol.17 (5), p.661-667
15.
Comparison of automated platelet counts and potential effect on transfusion decisions in cancer patients
by Marionneaux, Steven
American journal of clinical pathology, 2013, Vol.140 (5), p.747-754
16.
Cobas® 4800: a fully automated system for the detection of Chlamydia trachomatis and Neisseria gonorrhoeae
by Van Der Pol, Barbara
Expert review of molecular diagnostics, 2013, Vol.13 (2), p.131-140
17.
A new manual dispensing system for in meso membrane protein crystallization with using a stepping motor-based dispenser
by Hato, Masakatsu
Journal of structural and functional genomics, 2014, Vol.15 (3), p.165-171
18.
Introduction of a Modular Automated Voltage-Clamp Platform and Its Correlation with Manual Human Ether-à-go-go Related Gene Voltage-Clamp Data
by Scheel, Olaf
Assay and drug development technologies, 2011, Vol.9 (6), p.6-607
19.
Semiautomatic Growth Analysis of Multicellular Tumor Spheroids
by Rodday, Bjoern
Journal of biomolecular screening, 2011, Vol.16 (9), p.1119-1124
20.
Assessment of manual workload limits in gynecologic cytology: reconciling data from 3 major prospective trials of automated screening devices
by Renshaw, Andrew A
American journal of clinical pathology, 2013, Vol.139 (4), p.428-433
