Test Equipment for the LUCAS Chest Compression System: Incorporating Biomechanical Insights for Future Design Enhancements
(2024) BMEM01 20241Department of Biomedical Engineering
- Abstract
- The LUCAS Chest Compression System is a market leading mechanical cardiopulmonary resuscitation device, assisting medical professionals worldwide when treating patients with sudden cardiac arrest. The objective of this master thesis project was to develop a new, adjustable test equipment for the LUCAS device, allowing for tests on varying chest heights and stiffness levels. Product development strategies were utilized to develop the new test equipment, alongside with a biomechanical study, consisting of a literature search and a clinical data analysis. The biomechanical study unveiled realistic ranges and averages for chest height and stiffness that could be directly implemented in the test equipment. Possible future enhancements, for... (More)
- The LUCAS Chest Compression System is a market leading mechanical cardiopulmonary resuscitation device, assisting medical professionals worldwide when treating patients with sudden cardiac arrest. The objective of this master thesis project was to develop a new, adjustable test equipment for the LUCAS device, allowing for tests on varying chest heights and stiffness levels. Product development strategies were utilized to develop the new test equipment, alongside with a biomechanical study, consisting of a literature search and a clinical data analysis. The biomechanical study unveiled realistic ranges and averages for chest height and stiffness that could be directly implemented in the test equipment. Possible future enhancements, for example using non-linear spring modules to more accurately mimic the chest's behaviour during compression were also identified. The final outcome includes a detailed CAD-model and a first physical prototype of a new test equipment for the LUCAS device, which is adjustable in chest height but not yet chest stiffness. The concept is based on an innovative tension-compression spring module that was developed to replicate the biomechanics of the chest during both compression and decompression. Serving as a proof of concept, this prototype is a first step towards a new, fully adjustable test equipment, made to validate the lifesaving LUCAS device. (Less)
- Popular Abstract (Swedish)
- En inkluderande och justerbar modell av den mänskliga bröstkorgen för framtidens testning av HLR-utrustning
Att testa och validera medicinsk utrustning på människor är etiskt komplicerat, praktiskt problematiskt och i vissa fall direkt farligt. Ett konkret exempel är en mekanisk hjärt- och lungräddningsmaskin, där utförandet av hjärtkompressioner utan hjärtstopp kan vara skadligt. Därför krävs teknisk utrustning för att genomföra testning och validering. Uppgiften är dock inte helt enkel. En sådan utrustning bör reflektera verkliga egenskaper hos en människa, i detta fall en bröstkorg. Människans komplexa uppbyggnad av vävnader, skelett och muskler är väldigt svår att imitera med mekaniska komponenter. Trots detta är det just denna... (More) - En inkluderande och justerbar modell av den mänskliga bröstkorgen för framtidens testning av HLR-utrustning
Att testa och validera medicinsk utrustning på människor är etiskt komplicerat, praktiskt problematiskt och i vissa fall direkt farligt. Ett konkret exempel är en mekanisk hjärt- och lungräddningsmaskin, där utförandet av hjärtkompressioner utan hjärtstopp kan vara skadligt. Därför krävs teknisk utrustning för att genomföra testning och validering. Uppgiften är dock inte helt enkel. En sådan utrustning bör reflektera verkliga egenskaper hos en människa, i detta fall en bröstkorg. Människans komplexa uppbyggnad av vävnader, skelett och muskler är väldigt svår att imitera med mekaniska komponenter. Trots detta är det just denna utmaning som detta examensarbete tar sig an. (Less)
Please use this url to cite or link to this publication:
http://lup.lub.lu.se/student-papers/record/9148004
- author
- Pörtfors, Ester LU and Svärdling, Malin LU
- supervisor
- organization
- alternative title
- Testutrustning för LUCAS bröstkompressionssystem: Inkorporering av biomekaniska insikter för framtida designförbättringar
- course
- BMEM01 20241
- year
- 2024
- type
- H2 - Master's Degree (Two Years)
- subject
- keywords
- Mechanical CPR, Cardiopulmonary Resuscitation, LUCAS Chest Compression System, Test Equipment, Chest Biomechanics, Chest Stiffness
- language
- English
- additional info
- 2024-02
- id
- 9148004
- date added to LUP
- 2024-02-23 09:21:35
- date last changed
- 2024-02-23 09:21:35
@misc{9148004, abstract = {{The LUCAS Chest Compression System is a market leading mechanical cardiopulmonary resuscitation device, assisting medical professionals worldwide when treating patients with sudden cardiac arrest. The objective of this master thesis project was to develop a new, adjustable test equipment for the LUCAS device, allowing for tests on varying chest heights and stiffness levels. Product development strategies were utilized to develop the new test equipment, alongside with a biomechanical study, consisting of a literature search and a clinical data analysis. The biomechanical study unveiled realistic ranges and averages for chest height and stiffness that could be directly implemented in the test equipment. Possible future enhancements, for example using non-linear spring modules to more accurately mimic the chest's behaviour during compression were also identified. The final outcome includes a detailed CAD-model and a first physical prototype of a new test equipment for the LUCAS device, which is adjustable in chest height but not yet chest stiffness. The concept is based on an innovative tension-compression spring module that was developed to replicate the biomechanics of the chest during both compression and decompression. Serving as a proof of concept, this prototype is a first step towards a new, fully adjustable test equipment, made to validate the lifesaving LUCAS device.}}, author = {{Pörtfors, Ester and Svärdling, Malin}}, language = {{eng}}, note = {{Student Paper}}, title = {{Test Equipment for the LUCAS Chest Compression System: Incorporating Biomechanical Insights for Future Design Enhancements}}, year = {{2024}}, }