Workflow assessment as a preclinical development tool

PurposeMinimally invasive cochlear implant surgery is a challenging procedure due to high demands on accuracy. For clinical success, an according assistance system has to compete against the traditional approach in terms of risk, operating time and cost. It has not yet been determined what kind of s...

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Bibliographic Details
Published in:International journal for computer assisted radiology and surgery 2019-01, Vol.14 (8), p.1389-1401
Main Authors: Müller, Samuel, Kahrs, Lüder A, Gaa, Johannes, Tauscher, Sebastian, Kluge, Marcel, Samuel, John, Rau, Thomas S, Lenarz, Thomas, Ortmaier, Tobias, Majdani, Omid
Format: Article
Language:English
Subjects:
Cochlea
Cochlear implants
Implantation
Modelling
Recording
Reduction
Surgery
Workflow
Workload
Workloads
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Summary:PurposeMinimally invasive cochlear implant surgery is a challenging procedure due to high demands on accuracy. For clinical success, an according assistance system has to compete against the traditional approach in terms of risk, operating time and cost. It has not yet been determined what kind of system is the most suited. The purpose of this study is a proof of concept of surgical process modeling as a preclinical development tool and the comparison of workflow concepts for this new approach.MethodsThree preclinical systems (two stereotactic and one robotic) for minimally invasive cochlear implant surgery are compared using the method of surgical process modeling. All three systems were successfully tested with ex vivo human specimen to create minimally invasive surgical access to the cochlea. Those systems where chosen for comparison, because they represent three diverse approaches with different corresponding workflows for the same intervention. The experiments were used to create a process model for each system by recording the interventions.ResultsAll three conceptual systems developed by our group have shown their eligibility. The recorded process models provide a convenient method for direct comparison. Reduction in the surgical time has a higher impact on the process, than time that is needed for setting up a system beforehand. The stereotactic approaches have little preparation effort and are low cost in terms of hardware compared to the robotic approach, which in return is beneficial in terms of workload reduction for the surgeon.ConclusionSurgical process modeling is suitable for comparison of different assistant systems for minimally invasive cochlear implantation. The benefit of reduced trauma, compared to the traditional mastoidectomy, can now be assessed with consideration of the workflow of each technique. The process models enable an assessment in the regard of surgical time and workload.
ISSN:1861-6410
1861-6429
DOI:10.1007/s11548-019-02002-3