Sample Card Punching Workstation Provides High-Throughput Sample Prep
By LabMedica International staff writers Posted on 22 Nov 2012 |
Image: The easyPunch STARlet workstation (Photo courtesy of Hamilton Robotics).
A new laboratory workstation has been developed to minimize human error and enables high-throughput sample preparation for a range of applications, such as forensic reference databasing as well as preclinical and clinical drug metabolism and pharmacokinetics (DMPK) and toxicology studies.
Hamilton Robotics (Reno, NV, USA) in collaboration with GE Healthcare (Chalfont St. Giles, UK) Life Sciences introduces the easyPunch STARlet workstation, the first fully automated system integrating sample card punching and liquid handling into one easy workflow.
The easyPunch STARlet system, made in Hamilton’s Bonaduz (Switzerland) facility, incorporates punching of GE Healthcare Whatman FTA and DMPK sample collection cards with automated sample extraction, eliminating typical logjams in laboratory processes.
“Because many labs lack a fully automated workflow, thousands of samples such as blood and saliva placed on punch cards are waiting long periods to be processed for critical studies and forensic analysis,” said Stefan Mauch, product manager of the easyPunch STARlet system. “Until now, sample card punching for analysis preparation required tedious manual work or separate semiautomated instruments and an operator. Researchers or technicians had to be consistently precise and experienced when handling and tracking samples, or the results could be compromised.”
The easyPunch workstation is based on the Hamilton Robotics Microlab STARlet platform and features two special modules and robotic arms for transporting and punching paper cards. The samples are monitored by effective tracking software to remove any risk of sample identification errors. The total process is tracked using imaging recognition. Hamilton’s proprietary software, based on industrial machine vision technology, provides complete control and monitoring of the punching process. The software recognizes the position and size of the card, identifies the sample by reading the barcode, and determines the punch area. The workstation also takes a picture of the target well to ensure the punch has arrived in the designated well.
Compatibility with library information-management systems (LIMS) and full traceability ensure that data can be linked effectively to each sample. The modular nature of the system enables incorporation of other devices, such as a centrifuge and a plate sealer, thus potentially integrating the entire workflow.
“Ease of use makes this workstation an attractive solution for repetitive tasks in forensic and biopharma sample handling,” remarked Navjot Kaur, product manager at Hamilton Robotics in Reno, Nevada. “Currently technicians manually clean between samples, but the easyPunch STARlet system performs this step automatically, reducing cross-contamination. Barcode reading and imaging support full traceability and reporting of samples, both during punching and downstream processing.”
Hamilton Company is a global leader in the development and manufacture of process measurement, liquid handling, robotics and storage solutions, serving customers in academic and private research laboratories, pharmaceutical, and clinical diagnostic companies and government institutions.
Related Links:
Hamilton Robotics
GE Healthcare
Hamilton Robotics (Reno, NV, USA) in collaboration with GE Healthcare (Chalfont St. Giles, UK) Life Sciences introduces the easyPunch STARlet workstation, the first fully automated system integrating sample card punching and liquid handling into one easy workflow.
The easyPunch STARlet system, made in Hamilton’s Bonaduz (Switzerland) facility, incorporates punching of GE Healthcare Whatman FTA and DMPK sample collection cards with automated sample extraction, eliminating typical logjams in laboratory processes.
“Because many labs lack a fully automated workflow, thousands of samples such as blood and saliva placed on punch cards are waiting long periods to be processed for critical studies and forensic analysis,” said Stefan Mauch, product manager of the easyPunch STARlet system. “Until now, sample card punching for analysis preparation required tedious manual work or separate semiautomated instruments and an operator. Researchers or technicians had to be consistently precise and experienced when handling and tracking samples, or the results could be compromised.”
The easyPunch workstation is based on the Hamilton Robotics Microlab STARlet platform and features two special modules and robotic arms for transporting and punching paper cards. The samples are monitored by effective tracking software to remove any risk of sample identification errors. The total process is tracked using imaging recognition. Hamilton’s proprietary software, based on industrial machine vision technology, provides complete control and monitoring of the punching process. The software recognizes the position and size of the card, identifies the sample by reading the barcode, and determines the punch area. The workstation also takes a picture of the target well to ensure the punch has arrived in the designated well.
Compatibility with library information-management systems (LIMS) and full traceability ensure that data can be linked effectively to each sample. The modular nature of the system enables incorporation of other devices, such as a centrifuge and a plate sealer, thus potentially integrating the entire workflow.
“Ease of use makes this workstation an attractive solution for repetitive tasks in forensic and biopharma sample handling,” remarked Navjot Kaur, product manager at Hamilton Robotics in Reno, Nevada. “Currently technicians manually clean between samples, but the easyPunch STARlet system performs this step automatically, reducing cross-contamination. Barcode reading and imaging support full traceability and reporting of samples, both during punching and downstream processing.”
Hamilton Company is a global leader in the development and manufacture of process measurement, liquid handling, robotics and storage solutions, serving customers in academic and private research laboratories, pharmaceutical, and clinical diagnostic companies and government institutions.
Related Links:
Hamilton Robotics
GE Healthcare
Latest BioResearch News
- Genome Analysis Predicts Likelihood of Neurodisability in Oxygen-Deprived Newborns
- Gene Panel Predicts Disease Progession for Patients with B-cell Lymphoma
- New Method Simplifies Preparation of Tumor Genomic DNA Libraries
- New Tool Developed for Diagnosis of Chronic HBV Infection
- Panel of Genetic Loci Accurately Predicts Risk of Developing Gout
- Disrupted TGFB Signaling Linked to Increased Cancer-Related Bacteria
- Gene Fusion Protein Proposed as Prostate Cancer Biomarker
- NIV Test to Diagnose and Monitor Vascular Complications in Diabetes
- Semen Exosome MicroRNA Proves Biomarker for Prostate Cancer
- Genetic Loci Link Plasma Lipid Levels to CVD Risk
- Newly Identified Gene Network Aids in Early Diagnosis of Autism Spectrum Disorder
- Link Confirmed between Living in Poverty and Developing Diseases
- Genomic Study Identifies Kidney Disease Loci in Type I Diabetes Patients
- Liquid Biopsy More Effective for Analyzing Tumor Drug Resistance Mutations
- New Liquid Biopsy Assay Reveals Host-Pathogen Interactions
- Method Developed for Enriching Trophoblast Population in Samples