Nov 18, 2016 | Instruments & Equipment, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Operations, Laboratory Pathology
If this medical imaging collaborative develops a way to use the unstructured data in radiology images and anatomic pathology reports, it could create a new revenue stream for pathologists
Unstructured data has been regularly recognized as one Achilles heel for the anatomic pathology profession. It means invaluable information about the cancers and other diseases diagnosed by surgical pathologists are “locked up,” making it difficult for this information to be accessed in efforts to advance population health management (PHM) or conduct clinical studies.
Similarly, medical imaging has an essential role in the diagnosis of cancer and other diseases. And, like most anatomic pathology reports, medical imaging also is considered to be “unstructured” by data experts because it is not easily accessible by computers, reported Fortune magazine.
Unstructured Data in Anatomic Pathology and Radiology
Now one of the world’s largest information technology companies wants to tackle the challenge of unstructured data in radiology images. IBM (NYSE: IBM) Watson Health launched a global initiative involving 16 health systems, radiology providers, and imaging technology companies.
The Watson Health medical imaging collaborative is working to apply cognitive computing of radiology images to clinical practice. IBM aims to transform how physicians use radiology images to diagnose and monitor patients. (more…)
Nov 16, 2016 | Instruments & Equipment, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Operations, Laboratory Pathology, Laboratory Testing
Machine learning software may help pathologists make earlier and more accurate diagnoses
In Boston, two major academic centers are teaming up to apply big data and machine learning to the problem of diagnosing cancers earlier and with more accuracy. It is research that might have major implications for the anatomic pathology profession.
A collaborative effort between teams at Beth Israel Deaconess Medical Center (BIDMC) and Harvard Medical School (HMS) has resulted in an innovation that could result in more accurate diagnoses in the pathology laboratory. The teams have been working on a machine learning software program that will eventually function as an artificial intelligence (AI) to improve the accuracy of diagnostics. They hope to someday build AI-powered computer systems that can accurately and quickly interpret pathology images. (more…)
Nov 4, 2016 | Digital Pathology, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Operations, Laboratory Pathology, Laboratory Testing, Management & Operations
Breakthrough method could provide pathologists with a less expensive alternative to high-priced super-resolution microscopes or often-imprecise microscopy software
Intriguing new research has the potential to “turbocharge” the standard medical laboratory microscope in ways that create a “super-vision” capability. This would give pathologists and medical researchers an inexpensive alternative to high-priced super-resolution microscopes or often-imprecise microscopy software.
Seeking a new method for counting molecules in complexes, researchers at the Wyss Institute for Biologically Inspired Engineering at Harvard University paired their DNA-powered super-resolution microscopy platform—DNA-PAINT and Exchange-PAINT—with a new procedure called quantitative points accumulation in nanoscale topography—or qPAINT. This new analytic tool can “count different molecular species in biological samples with high accuracy and precision,” noted a Wyss Institute press release. (more…)
Oct 24, 2016 | Coding, Billing, and Collections, Digital Pathology, Instruments & Equipment, Laboratory Hiring & Human Resources, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Operations, Laboratory Pathology, Laboratory Testing
Early results are promising and this technology could lead to a clinical laboratory test that would give microbiologists and pathologists a new tool for helping diagnose infections
Infectious disease physicians and clinical laboratory scientists will be interested to learn that researchers at the Stanford University School of Medicine recently developed a new blood test that can identify whether the source of an infection is bacterial or viral.
These findings were published in Science Translational Medicine in July. The paper was authored by Stanford staff members Timothy Sweeney, MD, PhD, and Purvesh Khatri, PhD, Assistant Professor (Research) of Medicine (Biomedical Informatics Research-ITI Institute) and of Biomedical Data Science. Hector Wong, MD, of the University of Cincinnati was the third co-author of the study.
These findings are timely because, starting on January 1, 2017, hospitals and health systems will need to implement more rigorous antimicrobial stewardship programs to comply with new requirements of the Centers for Medicare & Medicaid Services (CMS) and The Joint Commission (TJC). A clinical laboratory test that makes it easier to determine whether the cause of an infection is bacterial or viral would be a welcome tool for physicians, pharmacists, pathologists, and microbiologists involved in a hospital’s infection control program. (more…)
Oct 21, 2016 | Coding, Billing, and Collections, Compliance, Legal, and Malpractice, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Operations, Laboratory Pathology, Management & Operations
With record attendance of 300 Lean-Six Sigma experts, this week’s conference was a high-energy event that provided medical lab professionals and pathologists with case studies of how to improve lab operations and contribute to better patient care
DATELINE: NEW ORLEANS—Yesterday was the conclusion of the 10th Annual Lab Quality Confab, which showcased innovators in clinical laboratories and anatomic pathology groups. Attendees traveled here from six different countries.
One new trend that emerged from this year’s presentations is that progressive medical labs are beginning to direct their Lean-Six Sigma, and process improvement efforts toward projects designed to add value to client physicians and hospitals. These projects include added-value features of benefit to patients and health insurers.
How Clinical Laboratories Are Succeeding with Lean Projects
This is a shift from prior years. At earlier Lab Quality Confabs, most speakers were describing how their labs were using Lean and quality management methods to improve workflow within their labs, increase the productivity of automation and staff, reduce errors, and cut costs. This was an “inside-the-lab” mindset.
That was not the case here in New Orleans this week. Yes, there were plenty of sessions where workflow redesign, productivity improvement, and cost reduction were discussed. But, at the same time, a significant number of labs doing presentations were describing projects that took the lab team outside of their laboratory to engage with physicians and nurses specifically to help them use clinical laboratory test data in ways that would improve patient care, reduce length-of-stay for hospital patients, and trigger worthwhile reductions of the cost of care. This is an “outside-the-lab” mindset. (more…)
Oct 19, 2016 | Instruments & Equipment, Laboratory Instruments & Laboratory Equipment, Laboratory News, Laboratory Operations, Laboratory Pathology, Laboratory Testing
Engineers have designed a microfluidics and nano-scale diagnostic toolkit suitable for attaching directly to muscle and tissue to monitor biomarkers and stream results wirelessly to care providers and medical laboratories
What would change in medicine if physicians had sutures that could collect and report biomarker data, including the kinds of biomarkers that are used in clinical laboratory tests? Such a product may be feasible, based on newly-published research.
“Smart sutures” are a joint project between Tufts University, Harvard University, and Massachusetts Institute of Technology (MIT) engineers. They announced a thread-based diagnostic device (TDD) system capable of detecting biomarkers and analytes using 3D sutures composed of cotton and synthetic threads.
Processing the cotton and synthetic threads in various ways enhances their natural properties. The toolkit of different sutures developed by the team has exhibited a range of uses—including measuring physical stress at an incision, monitoring pH of tissues and fluids, and measuring glucose. (more…)
