SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2621036075> ?p ?o ?g. }

Showing items 1 to 100 of ±130 with 100 items per page.

W2621036075 endingPage "137" @default.
W2621036075 startingPage "123" @default.
W2621036075 abstract "Abstract Due to the rapidly evolving medical, technological, and technical possibilities, surgical procedures are becoming more and more complex. On the one hand, this offers an increasing number of advantages for patients, such as enhanced patient safety, minimal invasive interventions, and less medical malpractices. On the other hand, it also heightens pressure on surgeons and other clinical staff and has brought about a new policy in hospitals, which must rely on a great number of economic, social, psychological, qualitative, practical, and technological resources. As a result, medical disciplines, such as surgery, are slowly merging with technical disciplines. However, this synergy is not yet fully matured. The current information and communication technology in hospitals cannot manage the clinical and operational sequence adequately. The consequences are breaches in the surgical workflow, extensions in procedure times, and media disruptions. Furthermore, the data accrued in operating rooms (ORs) by surgeons and systems are not sufficiently implemented. A flood of information, “big data”, is available from information systems. That might be deployed in the context of Medicine 4.0 to facilitate the surgical treatment. However, it is unused due to infrastructure breaches or communication errors. Surgical process models (SPMs) alleviate these problems. They can be defined as simplified, formal, or semiformal representations of a network of surgery-related activities, reflecting a predefined subset of interest. They can employ different means of generation, languages, and data acquisition strategies. They can represent surgical interventions with high resolution, offering qualifiable and quantifiable information on the course of the intervention on the level of single, minute, surgical work-steps. The basic idea is to gather information concerning the surgical intervention and its activities, such as performance time, surgical instrument used, trajectories, movements, or intervention phases. These data can be gathered by means of workflow recordings. These recordings are abstracted to represent an individual surgical process as a model and are an essential requirement to enable Medicine 4.0 in the OR. Further abstraction can be generated by merging individual process models to form generic SPMs to increase the validity for a larger number of patients. Furthermore, these models can be applied in a wide variety of use-cases. In this regard, the term “modeling” can be used to support either one or more of the following tasks: “to describe”, “to understand”, “to explain”, to optimize”, “to learn”, “to teach”, or “to automate”. Possible use-cases are requirements analyses, evaluating surgical assist systems, generating surgeon-specific training-recommendation, creating workflow management systems for ORs, and comparing different surgical strategies. The presented chapter will give an introduction into this challenging topic, presenting different methods to generate SPMs from the workflow in the OR, as well as various use-cases, and state-of-the-art research in this field. Although many examples in the article are given according to SPMs that were computed based on observations, the same approaches can be easily applied to SPMs that were measured automatically and mined from big data." @default.
W2621036075 created "2017-06-09" @default.
W2621036075 creator A5084442194 @default.
W2621036075 date "2017-05-20" @default.
W2621036075 modified "2023-10-16" @default.
W2621036075 title "Surgical process modeling" @default.
W2621036075 cites W152594678 @default.
W2621036075 cites W1527124053 @default.
W2621036075 cites W1582583989 @default.
W2621036075 cites W1803870300 @default.
W2621036075 cites W1967006863 @default.
W2621036075 cites W1980801091 @default.
W2621036075 cites W1982094865 @default.
W2621036075 cites W1985479146 @default.
W2621036075 cites W1989912492 @default.
W2621036075 cites W1992994986 @default.
W2621036075 cites W1993928879 @default.
W2621036075 cites W2000012067 @default.
W2621036075 cites W2007454684 @default.
W2621036075 cites W2011189786 @default.
W2621036075 cites W2018421200 @default.
W2621036075 cites W2021890401 @default.
W2621036075 cites W2025241052 @default.
W2621036075 cites W2029484250 @default.
W2621036075 cites W2045703714 @default.
W2621036075 cites W2053511142 @default.
W2621036075 cites W2057361588 @default.
W2621036075 cites W2061867054 @default.
W2621036075 cites W2070326289 @default.
W2621036075 cites W2074268180 @default.
W2621036075 cites W2074637477 @default.
W2621036075 cites W2080810165 @default.
W2621036075 cites W2086490459 @default.
W2621036075 cites W2087866159 @default.
W2621036075 cites W2091177303 @default.
W2621036075 cites W2092067490 @default.
W2621036075 cites W2093836953 @default.
W2621036075 cites W2096773399 @default.
W2621036075 cites W2107365982 @default.
W2621036075 cites W2107466310 @default.
W2621036075 cites W2108290575 @default.
W2621036075 cites W2114875961 @default.
W2621036075 cites W2136447190 @default.
W2621036075 cites W2140555946 @default.
W2621036075 cites W2144908192 @default.
W2621036075 cites W2154801730 @default.
W2621036075 cites W2159694746 @default.
W2621036075 cites W2160295276 @default.
W2621036075 cites W2293544059 @default.
W2621036075 cites W593558681 @default.
W2621036075 cites W86845432 @default.
W2621036075 cites W1994611361 @default.
W2621036075 doi "https://doi.org/10.1515/iss-2017-0005" @default.
W2621036075 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/6754019" @default.
W2621036075 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/31579744" @default.
W2621036075 hasPublicationYear "2017" @default.
W2621036075 type Work @default.
W2621036075 sameAs 2621036075 @default.
W2621036075 citedByCount "17" @default.
W2621036075 countsByYear W26210360752017 @default.
W2621036075 countsByYear W26210360752018 @default.
W2621036075 countsByYear W26210360752019 @default.
W2621036075 countsByYear W26210360752021 @default.
W2621036075 countsByYear W26210360752022 @default.
W2621036075 countsByYear W26210360752023 @default.
W2621036075 crossrefType "journal-article" @default.
W2621036075 hasAuthorship W2621036075A5084442194 @default.
W2621036075 hasBestOaLocation W26210360751 @default.
W2621036075 hasConcept C111919701 @default.
W2621036075 hasConcept C112930515 @default.
W2621036075 hasConcept C127413603 @default.
W2621036075 hasConcept C151730666 @default.
W2621036075 hasConcept C159110408 @default.
W2621036075 hasConcept C160735492 @default.
W2621036075 hasConcept C162324750 @default.
W2621036075 hasConcept C177212765 @default.
W2621036075 hasConcept C21547014 @default.
W2621036075 hasConcept C27415008 @default.
W2621036075 hasConcept C2779328685 @default.
W2621036075 hasConcept C2779343474 @default.
W2621036075 hasConcept C2780665704 @default.
W2621036075 hasConcept C41008148 @default.
W2621036075 hasConcept C50522688 @default.
W2621036075 hasConcept C71924100 @default.
W2621036075 hasConcept C77088390 @default.
W2621036075 hasConcept C86803240 @default.
W2621036075 hasConcept C98045186 @default.
W2621036075 hasConceptScore W2621036075C111919701 @default.
W2621036075 hasConceptScore W2621036075C112930515 @default.
W2621036075 hasConceptScore W2621036075C127413603 @default.
W2621036075 hasConceptScore W2621036075C151730666 @default.
W2621036075 hasConceptScore W2621036075C159110408 @default.
W2621036075 hasConceptScore W2621036075C160735492 @default.
W2621036075 hasConceptScore W2621036075C162324750 @default.
W2621036075 hasConceptScore W2621036075C177212765 @default.
W2621036075 hasConceptScore W2621036075C21547014 @default.
W2621036075 hasConceptScore W2621036075C27415008 @default.
W2621036075 hasConceptScore W2621036075C2779328685 @default.