Proposal for a Standard Format for Neurophysiology Data Recording and Exchange

Summary: The lack of interoperability between information networks is a significant source of cost in health care. Standardized data formats decrease health care cost, improve quality of care, and facilitate biomedical research. There is no common standard digital format for storing clinical neurophysiologic data. This review proposes a new standard file format for neurophysiology data (the bulk of which is video-electroencephalographic data), entitled the Multiscale Electrophysiology Format, version 3 (MEF3), which is designed to address many of the shortcomings of existing formats. MEF3 provides functionality that addresses many of the limitations of current formats. The proposed improvements include (1) hierarchical file structure with improved organization; (2) greater extensibility for big data applications requiring a large number of channels, signal types, and parallel processing; (3) efficient and flexible lossy or lossless data compression; (4) industry standard multilayered data encryption and time obfuscation that permits sharing of human data without the need for deidentification procedures; (5) resistance to file corruption; (6) facilitation of online and offline review and analysis; and (7) provision of full open source documentation. At this time, there is no other neurophysiology format that supports all of these features. MEF3 is currently gaining industry and academic community support. The authors propose the use of the MEF3 as a standard format for neurophysiology recording and data exchange. Collaboration between industry, professional organizations, research communities, and independent standards organizations is needed to move the project forward.

[1]  Benjamin H. Brinkmann,et al.  Multiscale electrophysiology format: An open-source electrophysiology format using data compression, encryption, and cyclic redundancy check , 2009, 2009 Annual International Conference of the IEEE Engineering in Medicine and Biology Society.

[2]  Benjamin H. Brinkmann,et al.  Large-scale electrophysiology: Acquisition, compression, encryption, and storage of big data , 2009, Journal of Neuroscience Methods.

[3]  J L Willems,et al.  Progress on the CSE diagnostic study. Application of McNemar's test revisited. , 1989, Journal of electrocardiology.

[4]  C. Zywietz,et al.  Open ECG: A European project to promote the SCP-ECG standard, a further step towards interoperability in electrocardiography , 2002, Computers in Cardiology.

[5]  P. Aspden Patient Safety: Achieving a New Standard for Care , 2004 .

[6]  The Standardization of Track Gauge on North American Railways, 1830–1890 , 2000, The Journal of Economic History.

[7]  G Hellmann,et al.  Extensible biosignal (EBS) file format: simple method for EEG data exchange. , 1996, Electroencephalography and clinical neurophysiology.

[8]  C.E. Chronaki,et al.  Two-way converter between the HL7 aECG and SCP-ECG data formats using BioSig , 2007, 2007 Computers in Cardiology.

[9]  Bob Kemp,et al.  European data format ‘plus’ (EDF+), an EDF alike standard format for the exchange of physiological data , 2003, Clinical Neurophysiology.

[10]  William B. S. Pressly,et al.  Web-Based Collection of Expert Opinion on Routine Scalp EEG: Software Development and Interrater Reliability , 2011, Journal of clinical neurophysiology : official publication of the American Electroencephalographic Society.

[11]  Rebecca Kush,et al.  Fostering responsible data sharing through standards. , 2014, The New England journal of medicine.

[12]  Álvaro Alesanco Iglesias,et al.  A Review on Digital ECG Formats and the Relationships Between Them , 2012, IEEE Transactions on Information Technology in Biomedicine.

[13]  D. Peck Digital Imaging and Communications in Medicine (DICOM): A Practical Introduction and Survival Guide , 2009, Journal of Nuclear Medicine.

[14]  C Zywietz SCP-ECG and Vital Signs Information Representation--two examples of successful transcontinental cooperation in medical informatics standardization. , 1998, International journal of medical informatics.

[15]  Eric C. Pan,et al.  The value of health care information exchange and interoperability. , 2005, Health affairs.

[16]  E. C. Jacobs,et al.  Data interchange for clinical neurophysiology. , 1993, Studies in health technology and informatics.