Dassault Systemes > Case Studies > MicroPort Life Sciences Case Study

MicroPort Life Sciences Case Study

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Customer Company Size
Large Corporate
Region
  • Asia
Country
  • China
Product
  • SIMULIA Abaqus Knee Simulator (AKS)
Tech Stack
  • Finite Element Analysis (FEA)
Implementation Scale
  • Pilot projects
Impact Metrics
  • Cost Savings
  • Productivity Improvements
Technology Category
  • Analytics & Modeling - Digital Twin / Simulation
Applicable Industries
  • Healthcare & Hospitals
  • Life Sciences
Applicable Functions
  • Product Research & Development
Use Cases
  • Digital Twin
  • Virtual Prototyping & Product Testing
Services
  • Data Science Services
About The Customer
Shanghai MicroPort Orthopedics is a leading developer and supplier of orthopedic medical devices and implants in China. The company is looking to expand its product line to include Total Knee Replacement (TKR) implants, given the huge market for orthopedic implants. MicroPort is in the initial proof-of-concept phase and is evaluating what kind of TKR implant model to focus on going forward. The company strongly believes in conducting its own research and development to bring out innovative products.
The Challenge
Shanghai MicroPort Orthopedics was looking to expand into new orthopedic products. They were particularly interested in total knee replacement (TKR) implants and wanted to compare the performance of fixed-bearing and mobile-bearing designs. The company wanted to conduct its own research and development to bring out innovative products. However, traditional methods of testing prototype designs in the lab using a bench-top device called the Kansas Knee Simulator (KKS) were costly and time-consuming.
The Solution
MicroPort chose the SIMULIA Abaqus Knee Simulator (AKS) from Dassault Systèmes’ 3DEXPERIENCE technology. The AKS is a validated tool that can conduct basic-to-advanced knee implant analyses. It semi-automatically creates advanced explicit analyses, significantly increasing simulation efficiency. The AKS was used to evaluate the fixed bearing (FB) and mobile bearing (MB) configurations of the TKR implants. The simulations provided insight into the merits of both fixed and mobile bearing knee implants. The AKS established a new, shorter path at MicroPort for testing and analyzing designs.
Operational Impact
  • The AKS offered valuable insights into the merits of each implant type.
  • The use of AKS saved considerable time and costs by reducing the need for physical prototyping and mechanical testing.
  • The AKS may also shorten clinical trial times for MicroPort products in the future.
Quantitative Benefit
  • The AKS reduced the time to set up the models from a week to a day or two.
  • The AKS can perform most analyses in hours to a few days, compared to physical testing of even one implant prototype which could have taken months.

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