Fields involved in the development medical products and processes
• anatomy
• physiology
• biology
• biochemistry
• biophysics
• bioengineering
• immunology
• mathematics
• statistics
• bioinformatics
• etc…
Necessary steps in the medical device development
Indentify a need
devide design
matrerials Synthesis
Materials testing
Fabrication
Sterilizations and Packaging
Device Testing
REgulatory
Clinical Use
Explant Analysis
Examples for facilitators (Vermittler) in the medical device development
Identify a need
Physician/Dentist
Researcher
Inventor
Entrepreneur
—> Treat a condition, Replace an organ, cosmetic
Materials Synthesis:
CEramicist
Mellaurgist
Polymer Chemist
Materials testing:
Bioengineer
Mechanical engineer
Biochemist
Cell biologist
Veterinary surgeron (Tierarzt)
—> mechanical properties, Toxicology, Bioreaction to the material, Biostability
Device Testing:
Veterinary surgeon
Regulatory:
Regulatory specialist
Regulatory agency
Legislators
Pathologist
—> Explant registry, Phatalogical examination, Testing to understand the failure
Atherosclerosis progression
First solution for atherosclerosis
—> angioplasty balloon catheter for expanding narrowed(verengt) arteries
Improvement of angioplasty
—> intrasvascular Stent (no removemnt of the stent)
Event-free survival rate of stents and angioplasty
Surgergy —> Bypass surgery
Structure of drug eluting stents
3D printing of Stents and Scaffolds
Market for medical products and technologies in Germany
Classification of biomedical products based on EU regulations
—> active medical products : devices powered by an external source (pacemaker)
—> non-active medical products: acting by gravity or operated by muscle power (endoprothesis)
—> In-vitro diagnostics: devices with a measurement function that can be active ot non-active (bllod glucode mater)
Challenges of biomedical product design
High Scientific/Technological level and Development Risk
Significant Length of Time and Amount of Capital Required for Approval
Understanding and Responding to Regulations Concerning to Medical Care, Pharmaceuticals, and Public Insurance
Difficulty in Recruiting Highly Skilled Personnel
What are Health protection principles?
Are the components and final product acceptably safe for the intended use?
Is the manufacturing process capable of delivering a consistent product?
Does the product perform in the manner intended by the manufacturer?
Are the risks outweighed by the clinical benefit?
What are driving forces for Innovation?
Increase in public health awareness
Ageing population
Low cost alternatives
Safer biomedical devices
Life quality vs. life expectancy
Non-invasive procedures
Idea attractiveness portfolio
Idea evaluation – decision making questions
What is the projected growth of the patient population?
Current number of procedures / Number of units sold?
Current solutions (use, outcome, reimbursed cost, required training and equipment)
Is your solution incremental or a path-breaking replacement?
Companies selling the existing solutions: Does your device complement their product or competes with it?
The path of innovation: What will be the most likely new devices in one, five or ten years
Number of patients who COULD BE and are LIKELY to be served by your solution
The specialty that will use your solution, and whether this is a change from current practice
The circle of life in a Life Science company
From fundamental research to product development ans small to large company
Innovation management: 4 components of Innovation
Innovation strategies:
Customer-oriented
Market-oriented
Competition-oriented
Technology-oriented
Time-oriented
Cooperation-oriented
Innocation structure:
Who looks for ideas?
Who decides whether to follow up these ideas?
Who further develops the idea?
How are the development teams put togheter?
Which hierarchical levels need to be involved and at which level?
Innovation ressources:
Provide teaching tools
Establishing a creative working enviroment
Establishing a flexible time-frame for innovation
Provide access to information
Innovation process:
The innovation process is a systematic process for sucessfully taking a product from bench to bedside —> Stage Gate Process
Stage-Gate-Process
What are Stages in the Stage-Gate-Process?
—>Stages break down the project into discrete, clearly differentiable segments
▪ Gathering of information in order to pass to the next decision step
▪ Interdisciplinary structure (functional project teams)
▪ Gathering of information so as to keep the risk of uncertainty low
Stages:
Needs, Ideas, Selection, Manufacture, Scale-up, Roll-Out
What are Gates in the Stage-Gate-Process?
Meeting of the entire project team
Coordination via the department heads
Compiling of all information
Standarized structure of the gates: 1. Preliminary results (Review) 2. Evaluation criteria 3. Defined outputs
Gates: 1. concept choice, 2. project definition, 3. initial design, 4. final design, 5. product release
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