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ROCHESTER, MN and ARMONK, NY - 02 Apr 2009: Biomedical informatics researchers at Mayo Clinic and IBM (NYSE: IBM) today launched a Web site for the newly founded Open Health Natural Language Processing (NLP) Consortium. The consortium is establishing the open-source space to promote past and current development efforts, including participation in information extraction from electronic medical records.
As part of the launch, Mayo Clinic and IBM released their clinical NLP technologies into the public domain. The site http://www.ohnlp.org will allow the approximately 2,000 researchers and developers working on clinical language systems worldwide to contribute code and further develop the systems.
"We are inviting our international colleagues to help continue development of these valuable tools," says Christopher Chute, M.D., Dr.P.H., Mayo Clinic bioinformatics expert and senior consultant on the project. "By making it an open-source initiative, we hope to enable wide use of these NLP tools so medical advancements can happen faster and more efficiently."
"The recently passed American Recovery and Reinvestment Act promises to accelerate the adoption of electronic medical records," said Dan Pelino, IBM's general manager, Global Healthcare & Life. "Because the success of such reform rides on delivering interconnected and intelligent information to health care professionals everywhere, Mayo and IBM are tapping into the collaborative power of the open-source community to speed the development of Natural Language Processing (NLP). Adoption of this technology will provide physicians with insights into each patient's condition, allowing them to electronically retrieve the exact knowledge they seek from patient health records rather than reading through every record provided, as they must do today." Patient privacy is a main concern and consideration; all current and any future required safeguards and regulations will be adhered to strictly.
NLP is a relatively new and specialized area within computer science dealing with computational methods for understanding human language. In medicine, clinical NLP systems process the vast repositories of text generated by patient-clinician interactions. Such systems categorize and structure it according to standard nomenclature -- in this case focusing on terms used in a range of medical specialties -- that will ultimately speed data searches for both diagnoses and medical research. These NLP platforms or "pipelines" aid indexing and searching electronic medical records within institutions to quickly find similar cases or conditions, so physicians are not reliant solely on their own clinical experience in analyzing a problem. Researchers may also use these tools to aid retrospective epidemiological studies or do groundwork for new clinical trials.
"Large-scale information extraction from the clinical narrative is a vital component in advancing translational research and patient care," adds Guergana Savova, Ph.D., medical informatics specialist and Mayo's NLP lead on the project. "It 'unlocks' the clinical textual data that resides in huge repositories. Such technology would allow for large-scale data aggregation, analyses and usage -- just imagine the power of data from millions of patients."
"There is a treasure trove of historical unstructured data that provides essential information for the study of disease progression, treatment effectiveness and long-term outcome which NLP systems make available to clinicians and researchers," states Anni Coden Ph.D., IBM's NLP principal on the project. "Such data can provide guidance for prospective studies and furthermore facilitate the integration of data from multi-modal data sources."
As an increasing percentage of health care and academic medical centers adopt electronic medical records, searching and extracting information from them in an automated fashion becomes essential. Mayo Clinic and IBM jointly developed a system for extracting information from more than 25 million free-text clinical notes based on IBM's open-source Unstructured Information Management Architecture (UIMA). As part of the system, developers build strings of "annotators" that become a pipeline, allowing physicians to mine the text for references of specific conditions, drugs, diseases, signs and symptoms; anatomical areas or organs; or treatment procedures. IBM and Mayo Clinic also developed a system to extract cancer disease characteristics from unstructured pathology reports to facilitate "consistent retrieval and transmission of cancer cases." The system extracts tumor characteristics, lymph node status and metastatic disease information enabling the automatic computation of cancer stage, which is critical to determine optimal treatment.
The two clinical text solutions released open-source by Mayo Clinic and IBM aim at processing two specific types of notes. Clinical notes describe patient-physician encounters, while pathology reports center around tissue findings. Both options are already adding value for Mayo and its patients:
Mayo's open-source solution, clinical Text Analysis and Knowledge Extraction System (cTAKES), focuses on processing the patient-centric clinical notes. Its low level components, for example the software that discovers sentence and word boundaries, assigns word part-of-speech tags and forms phrases out of the words, are "trained" to understand clinical language. The higher-level information extraction components, for example the ones that determine which textual spans are highly relevant to the clinical meaning of a note, are specifically designed for this domain.
cTAKES has the functionality to recognize whether a clinical concept is negated, relevant to the patient or to the patient's family, which are attributes critical to understanding patient-centered medical language.
IBM's medKAT systems (medical Knowledge Analysis Tool) is a UIMA-based, modular and flexible system that uses advanced NLP techniques to extract structured information from unstructured data sources, such as pathology reports, clinical notes, discharge summaries and medical literature. medKAT/P is a version customized for the pathology domain, based on a representation of cancer, its characteristics and disease progression. The system recognizes concepts such as primary tumor and its associated attributes (e.g. histology, anatomical site, etc.) or lymph node status and its associated attributes (e.g. number of positive and excised nodes) by identifying mentions (e.g. histology or anatomical sites) and their relations (including negation). medKAT can be viewed as a development platform that is adaptable to user and domain requirements. It has been designed to operate within institutional systems or databases of any size.
Participants: information about the Open Health Natural Language Processing Consortium can be found at http://www.ohnlp.org with links to Source Forge downloads. The UIMA framework is available at http://incubator.apache.org/uima/.
For more information about IBM, visit http://www.ibm.com.
About Mayo Clinic
Mayo Clinic is the first and largest integrated, not-for-profit group practice in the world. Doctors from every medical specialty work together to care for patients, joined by common systems and a philosophy of "the needs of the patient come first." More than 3,300 physicians, scientists and researchers and 46,000 allied health staff work at Mayo Clinic, which has sites in Rochester, Minn., Jacksonville, Fla., and Scottsdale/Phoenix, Ariz. Collectively, the three locations treat more than half a million people each year. To obtain the latest news releases from Mayo Clinic, go to www.mayoclinic.org/news. MayoClinic.com (www.mayoclinic.com) is available as a resource for your health stories. For more on Mayo Clinic research, go to www.mayo.edu.
VIDEO ALERT: Additional audio and video resources, including comments by Drs. Christopher Chute and Chalapathy Neti describing the research, are available on the Mayo Clinic News Blog. These materials are also subject to embargo but may be accessed in advance by journalists for incorporation into stories. The password for this post is mayoibm.
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