Using Engineering Methods (Kaizen and Micromovements Science) to Improve and Provide Evidence Regarding Microsurgical Hand Skills

Abstract

ObjectiveMicrosurgical interventions involve the interaction of numerous variables, making objective analysis of skill proficiency challenging. This difficulty is even more pronounced in low-resource contexts. Continuous improvement methodologies such as Kaizen-PDCA and Micro-Movements Science can address this issue. This study aimed to demonstrate the advantages of designing and implementing microsurgical training programs using these methodologies. MethodsFollowing an extensive literature review of Kaizen-PDCA and Micro-Movements Science and under the guidance of experienced neurosurgeons and engineers, a microvascular bypass training program was developed using the human placenta. Subsequently, the training program was used to analyze and describe the process of a trainee neurosurgeon in Argentina with no prior experience in microvascular anastomosis, as the operator gained proficiency. ResultsThe trainee required 12 attempts to achieve the program goals. The longest procedural time was during the first attempt (1 h 49 min 05 s with two mistakes), while the shortest time was during the fourth attempt (53 min 29 s with three mistakes). After 12 attempts, the trainee made no mistakes, and the procedural time was reduced to 57 min 37 s. The final learning curve demonstrated a regular pattern and reached a plateau after seven attempts. ConclusionsThe training program and methodology effectively assessed, facilitated, and demonstrated the acquisition of microsurgical skills. Kaizen-PDCA and Micro-Movements Science enabled the effective use of expert experience, detailed evaluation of microsurgical procedures, and integration into a continuous improvement cycle. The program structure could also be valuable for teaching, evaluating, and enhancing similar surgical procedures.