? DESCRIPTION (provided by applicant): The goal of this study is to develop, explore the effectiveness, and implement the novel training method of dynamic haptic robotic training (DHRT). This method utilizes a commercially available haptic robot that can be programed to apply forces to the resident's hand to mimic an actual needle insertion. We postulate this training method will allow residents to more efficiently build their skills, obtain greater proficincy in less time and will better ensure that a proficient skill level is reached before the residents ae allowed to perform these interventions on patients. This proposed goal will be accomplished through the completion of the three specific aims. Specific Aim 1: Develop accurate needle insertion model and implement into haptic robotic device. In this aim ex vivo bovine liver experiments will be conducted to characterize the noise in the force upon needle insertion into soft tissue. This information will form a needle insertion model that will be programed into a haptic robotic device to simulate the haptic feel of needle insertion. This simulator will be evaluated by expert vascular surgeons and then modified accordingly to ensure accuracy in needle insertion simulation. Specific Aim 2: Develop and Optimize the Dynamic Haptic Robotic Training (DHRT) Program Hypothesis (H1) We hypothesize that our DHRT program will improve CVC insertion competence and success rates better than traditional CVC simulators because it allows for the development of the complex cognitive and psychomotor needed to successfully perform CVC procedures. The needle force data acquired in Aim 1 will be integrated with novel visual simulations of human anatomical configurations (e.g. vessel wall location, size variation, and wall thickness) in a graphical user interface that will provide both haptic and visual feedback to surgeons. The DHRT program will be experimentally tested by quantitatively and qualitatively comparing the program method to the baseline static simulation models currently used Specific Aim 3: Assess long-term improvements in CVC insertions and patient safety after incorporation of the DHRT program in the educational curricula at Hershey Medical Center Hypothesis (H2): A dynamic haptic robotic training program can reduce complications rates among patients undergoing CVC procedures at Hershey Medical Center (HMC), improve confidence, and offer a more accurate assessment of resident CVC skills than current state of the art phantom based training methods alone. To validate this hypothesis CVC complication rates and resident confidence will be compared among residents who receive the traditional phantom training (Year 1) and residents who receive the DHRT training method (Year 2).
|Effective start/end date||4/1/15 → 3/31/19|
- National Institutes of Health: $245,837.00
- National Institutes of Health: $207,148.00
- National Institutes of Health: $245,193.00
Central Venous Catheters
Equipment and Supplies