Abstract
The increasing complexity of medical device (MD) management software requires the adoption of new methodological approaches that pay particular attention to safety issues. The risk analysis is one of the key activities to be carried out by the manufacturer before the development of the software application as it determines the type of documentation to be provided as well as the activities to be performed to place the MD on the market. After the definition of software requirements and their iterative transformation into architectural items and/or units, the manufacturer defines the safety class of each item. The adoption of an axiomatic design approach facilitates this process. This combination of techniques helps to focus the design of medical device software on non-conformities with a clear link to clinical risk. This objective can be achieved by assessing the complexity of the system to be designed, both in terms of its functional size, and as a level of overall clinical risk. In this multi-dimensional perspective, the software effort expressed in function points provides an estimate of the development cost. While the clinical risk analysis allows to quickly identify critical areas, to intervene with the same promptness and to draft a management plan according to the regulations of the various control authorities.
Highlights
Clinical risk is the probability that the patient will suffer unintentional damage or discomfort, due to health care, that causes an extension of the period of hospitalization, a worsening of health conditions or even death [1,2]
We propose to introduce an axiomatic methodology of risk analysis related to the use of software operating on medical devices (MD)
Suh [10] pointed out that programming techniques can be optimized by preceding the software implementation by a conceptual model of system built based on Axiomatic Design (AD) decomposition techniques of the relations functional requirements and data structures
Summary
Clinical risk is the probability that the patient will suffer unintentional damage or discomfort, due to health care, that causes an extension of the period of hospitalization, a worsening of health conditions or even death [1,2]. This means that the attribution of various user requirements can refer uniquely to a single part of the device In this sense, Axiomatic Design is a design methodology suitable for defining the overall mapping of risks associated with the user of a specific device and for optimizing the patient flow [4]. Axiomatic Design is a design methodology suitable for defining the overall mapping of risks associated with the user of a specific device and for optimizing the patient flow [4] This allows to detecting the specific non-conformity, during the functional decomposition phase, by analyzing the conditions of non-compliance of the functional requirement.
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