Benefits of Conformity Assessment for Cybersecurity Standards of Diabetes Devices and Other Medical Devices

There is a growing producer and consumer interest in medical devices and the commensurate need for regulatory frameworks to ensure the quality of medical devices marketed locally and globally. This work focuses on formalizing the clauses enacted by Regulation (EU) 2017/745 for risk-based classification and class-based conformity assessment regarding marketability of medical devices. The resulting knowledge base (KB) represents clauses in Positional-Slotted Object-Applicative (PSOA) RuleML by integrating F-logic-like frames with Prolog-like relationships for atoms used as facts and in the conclusions and conditions of rules. Rules can apply polyadic functions, define polyadic relations, and augment conclusions with actions and conditions with events. The PSOA RuleML-implemented Medical Devices Rules KB was tested by querying in the open-source Java-implemented PSOATransRun system, which has provided a feedback loop for refinement and extension. This prototype can contribute to the licensing process of stakeholders and the registration of medical devices with a CE conformity mark.

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The work of ANSI C63 Subcommittee 6: Lab accreditation and conformity assessment and Subcommittee 8: Tests for electrical medical devices

1999 IEEE International Symposium on Electromagnetic Compatability. Symposium Record (Cat. No.99CH36261) ◽

10.1109/isemc.1999.812915 ◽

2003 ◽

Author(s):

D. Hoolihan

Keyword(s):

Medical Devices ◽

Conformity Assessment

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ExosCE: A legal-based computational system for compliance with exoskeletons’ CE marking

Paladyn Journal of Behavioral Robotics ◽

10.1515/pjbr-2020-0026 ◽

2020 ◽

Vol 11 (1) ◽

pp. 414-427

Author(s):

Sofia Almpani ◽

Theodoros Mitsikas ◽

Petros Stefaneas ◽

Panayiotis Frangos

Keyword(s):

Open Source ◽

Medical Devices ◽

Real Life ◽

Conformity Assessment ◽

Medical Applications ◽

Computational System ◽

Python Script ◽

Wearable Robots ◽

Assessment Procedures

AbstractWearable robots are devices intended to improve the quality of users’ life by augmenting, assisting, or substituting human functions. Exoskeletons are one of the most widespread types of wearable robots, currently used extensively in medical applications (and also for industrial, assistive, or military purposes), thus governed by regulations for medical devices and their conformity assessment. On top of that, manufacturers must also specify if their exoskeletons can be categorized as machines and, therefore, additionally apply a number of requirements mandated from machinery regulations. This work focuses on capturing both the abovementioned requirements enacted by the Medical Devices Directive 2017/745 and the Machinery Directive 2006/42 into a single framework. It formalizes into Rules the Conformity Assessment procedures regarding the marketability of exoskeletons indicated by the CE marking (“Conformité Européene”). These Rules, expressed in the Positional-Slotted Object-Applicative (PSOA) RuleML code, were complemented by representative Facts based on real-life cases of commercialized exoskeletons. Additional Exoskeletons Facts can be included by users from other forms (such as MS Excel) and translated into the PSOA RuleML code through the provided Python script. The open-source Exoskeletons’ CE mark (ExosCE) Rules KB was tested by querying in the open-source PSOATransRun system. The ExosCE Rules prototype can assist in the compliance process of stakeholders and in the registration of exoskeletons with a CE mark.

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Development and Conformity Assessment of ECG-Photometric Complex Software

Cybernetics and Computer Technologies ◽

10.34229/2707-451x.21.3.10 ◽

2021 ◽

pp. 115-128

Author(s):

Vitalii Budnyk ◽

Tetiana Ryzhenko ◽

Mykola Budnyk

Keyword(s):

Life Cycle ◽

Medical Practice ◽

Medical Devices ◽

International Standards ◽

Conformity Assessment ◽

Treatment And Prevention ◽

Medical Institutions ◽

Develop Software ◽

Technical Regulations ◽

Separate Product

Introduction. The article is devoted to the software "PulseWave", which is used as part of the ECG-photometric complex for research in medical institutions. For further implementation of the complex in medical practice, it is necessary to assess the compliance of this software in accordance with the requirements of the technical regulations for medical devices. There are two ways to perform software conformity assessment: as part of the ECG photometric complex or separately from it (stand alone). In this paper, the option of conducting a stand alone conformity assessment was chosen, i.e. as a separate product. This approach is the most promising, given the development of "cloud" storage and data processing environments and the need to introduce into medical practice of treatment and prevention facilities in Ukraine. The purpose of the article is to develop software and prepare it for conformity assessment in accordance with the requirements of the technical regulations for medical devices. Results. The authors consider the structure and principle of operation of the software "PulseWave" ECG-photometric complex. The main stages of the life cycle of this software according to international standards are given. A risk assessment report has been developed, which shows and evaluates the main errors that may occur in the work of the software; and ways to eliminate them. Conclusions. The software development, development of its life cycle and risk analysis provide an opportunity to start the procedure of assessing its compliance with the requirements of the technical regulations for medical devices in accordance with international standards. Keywords: software, conformity assessment, life cycle, application risks.

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