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Medical Device Evaluation and Validation

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Title: Medical Device Evaluation and Validation


1
Medical Device Evaluation and Validation
  • Harold Alexander, Ph.D.
  • Orthogen Corporation
  • Springfield, NJ
  • Halexander_at_orthogencorp.com

2
Introduction
  • Vast experiment underway
  • 20 million people (1 in 14) in USA with implants
  • Vast experiment with no data collection
  • With exception of occasional reports of clinical
    failures, little is know about biomaterials
    performance in the human clinical environment

3
  • No good, long term, systematic studies have been
    performed.
  • A registration system for implants and
    biomaterials?
  • When we consider issues of long-term survival of
    biomaterials in vivo, the lack of attention to
    epidemiology and physiology are key issues.
    Researchers must become more careful and
    observant of clinical performance.
  • A national database of clinical data is essential
    to this effort.

4
Materials Selection
  • Currently used materials are survivors of a trial
    and error process.
  • Materials borrowed from other industries
  • Cost prohibitive for development of unique
    biomaterials.
  • Industry, until recently, could not afford it
  • Less than optimal materials.

5
Unique Biomaterials?
  • Few new candidate materials waiting for adoption.
  • Medical-legal environment argues for unique
    biomaterials.
  • Tissue Engineering Efforts.

6
Biologic Safety
  • ASTM F 981-87 Standard Practice for Assessment
    of Compatibility of Biomaterials
  • Tripartite Biocompatibility Guidance

7
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8
Animal Functional Tests
  • In use simulation
  • Safety
  • Efficacy

9
Clinical Studies
  • Initial Studies, Short term safety
  • Clinical Protocol
  • Prospective, Controlled, Randomized
  • Multi-Center
  • Assess mid-term safety and efficacy
  • Marketing Application
  • Long term follow-up (post-market?)

10
Regulatory Primer
  • Device Law passed in 1976.
  • Methods to introduce new medical devices
  • Investigational Device Exemption Application
  • Clinical trials
  • Premarket Approval Application.
  • or
  • 510(k), substantial equivalency application.

11
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12
Device Retrieval Analysis (DRA)
  • Devices that fail in service are not routinely
    analyzed
  • Studies address device in absence of clinical
    data
  • Clinical studies focus on patient, ignoring
    device issues

13
DRA (Continued)
  • Knowledge from small, non-random sampling.
  • Need to study 10 of devices that fail.
  • Greater need to study 90 that do not fail!

14
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15
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17
Sample Cases
  • Manufacturing flaw
  • Excess blast material on a total knee replacement
  • Manufacturing flaw
  • large grain size in ceramic ball
  • Design flaw
  • Inadequate stress analysis of hip acetabular
    component
  • Manufacturing procedure flaw
  • Residual machine oil on hip acetabular component

18
DePuy LCS Knee
  • Manufacturing flaw
  • Excess blast material on a total knee replacement

19
DePuy LCS KneePolyethylene Tibial Insert
20
DePuy LCS KneeTitanium Alloy Tibial Component
21
DePuy LCS KneeTitanium Alloy Tibial Component
22
DePuy LCS KneeTitanium Alloy Tibial Component
23
DePuy LCS KneeCobalt Chrome Femoral Component
24
DePuy LCS KneeCobalt Chrome Femoral Component
25
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26
Feldmuhle Ceramic Hip Ball
  • Manufacturing flaw
  • large grain size in ceramic ball

27
Feldmuhle Ceramic Hip Ball
28
Feldmuhle Ceramic Hip Ball
29
Feldmuhle Ceramic Hip Ball
30
Feldmuhle Ceramic Hip Ball
31
Feldmuhle Ceramic Hip Ball
32
DePuy ACS Cup
  • Design flaw
  • Inadequate stress analysis of hip acetabular
    component

33
DePuy ACS CupPolyethylene Insert
34
DePuy ACS CupPolyethylene Fragments
35
DePuy ACS CupTitanium Alloy Shell
36
DePuy ACS CupCobalt Chrome Head
37
Sulzer Acetabular Component
  • Manufacturing procedure flaw
  • Residual machine oil on hip acetabular component

38
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39
Ethical Concerns
  • Professional Status
  • Professional status creates special obligations
    to use one's specialized skill and knowledge to
    promote significant social values (e.g., health),
    to protect the interests of those (clients) who
    will use the products you design and build, and
    to be a loyal employee.

40
Professional Obligations
  • Professional obligations take many forms,
    including
  • a. using care in design to make sure that devices
    are safe and effective (promoting health)
  • b. protecting consumer autonomy, the right to
    make informed choices about health problems
  • c. promoting and protecting your employer's
    legitimate interests.

41
One of the vexing problems of professional ethics
is that these areas of obligation are often in
conflict, requiring ethical judgment about how
best to balance these conflicting demands!
42
Sample cases
  • Bjork-Shiley artificial heart valve
  • Silicone Gel-filled breast implants
  • Pedicle Screw Spinal Fixation
  • DePuy ACS Acetabular Cup
  • Effect of Radiation Sterilization
  • Guidant Heart Defibrillator

43
Bjork-Shiley artificial heart valve
  • unexpected defects in the welding of the valve
    led to catastrophic failure in a small percentage
    of them
  • about 2/3 of those experiencing valve failure
    will die
  • Shiley failed to warn patients, who were then
    unable to make informed decisions about their
    possibly defective heart valves
  • there is evidence of poor manufacturing
    techniques at Shiley what were the obligations
    of those who were aware of them?

44
Bjork-Shiley Valve (continued)
  • Who should inform patients of possible defects?
    The patient's physician? The manufacturer? The
    Food and Drug Administration
  • What should patients be told? Only scientifically
    valid and reliable research? Reports of poor
    manufacturing techniques?
  • What if bioengineers are aware of a defective
    design or poor manufacturing techniques but the
    company is not responsive the their concerns?
  • What policies should guide these issues
    concerning medical devices and the patients who
    receive them?

45
Silicone Gel Breast Implant
46
Silicone Gel Breast Implant
47
Silicone Gel Breast Implant
48
Silicone Gel Breast Implant
49
Silicone Gel-filled Breast Implants
  • First introduced in 1964.
  • Grandfathered as pre-1976 device - 510(k)
    allowance.
  • FDA advisory panel recommended IDE - PMA study in
    1978 because of safety concerns (bleed, rupture,
    inflammation, capsular contracture,
    calcification, autoimmune disease).
  • Plastic surgery lobby with aid of Ronald and
    Nancy Reagen prevented clinical review!
  • Law suits started in 1984. Reached level of 10s
    of thousands of cases by early 1990s.

50
Breast Implant (continued)
  • Device removed from market because of safety
    concerns in 1992.
  • To escape enormous legal liability, Dow Corning
    declared Chapter 11 bankruptcy in 1995.
  • Law suits against Baxter, Bristol Meyer Squibb,
    3M and Dow Corning are now settling with an
    estimated total cost of 5 billion dollars.
  • Who is at fault? manufacturers, their employees,
    FDA, plaintiff lawyers, surgeons?

51
Silicone Gel-filled Breast Implants
  • Inamed Corporation and Mentor Corporation have
    done new 4 year clinical trial.
  • More than 300,000 women received breast implants
    last year.
  • FDA advisory panel recommended approval in
    October 2003 and April 2005 in spite of no good
    long term study.
  • Rationale was comparison to saline filled
    implants and economic infeasibility of requiring
    decade long study.

52
Pedicle Screw Spinal Fixation
53
Pedicle Screw Spinal Fixation
  • Adjunct to spinal fusion surgery.
  • Old hook and rod systems did not provide rigid
    fixation and required multiple level fixation.
  • Pedicle screw fixation, developed in Europe,
    could be used in single spinal unit (one level)
    or more and provided more rigid fixation. It was
    hypothesized that this would result in higher
    fusion rate.
  • Application to FDA for 510(k) allowance denied
    for lumbar pedicle fixation because of concerns
    of nerve damage, broken hardware, clinical
    efficacy.
  • FDA required IDE-PMA studies. These studies were
    started, but never concluded.
  • Manufacturers applied for 510(k) allowance for
    sacral, long bone or anterior screw fixation a
    pre-1976 application. This was allowed by FDA.

54
Pedicle Screws (continued)
  • Using the argument that the FDA does not regulate
    the practice of medicine, manufacturers
    encouraged surgeons to use devices for posterior
    lumbar fixation, a non approved application.
    This was done. It became standard practice in
    USA.
  • Injured patient sued manufacturers, surgeons and
    hospitals claiming the improper promotion and use
    of an unproven, unsafe product.
  • 10s of thousands of lawsuits resulted against
    Smith Nephew Richards, Danek Medical, Acromed,
    and a number of smaller companies.

55
Pedicle Screws (continued)
  • At one time, Danek alone was spending a million
    dollars a week pursuing the defense of
    outstanding lawsuits.
  • Acromed settled globally and others are both
    litigating and settling cases. Total cost of
    this litigation will probably be 2 billion
    dollars.
  • Who is at fault? FDA, manufacturers, their
    employees, surgeons, hospitals, the law, lawyers?

56
DePuy ACS Acetabular Cup
  • This is a hip acetabular component where the
    polyethylene insert was designed with a thin lip
    that tended to be over-stressed and fractured in
    some sizes.
  • The device was designed by a novice engineer who
    had been a draftsman for the manufacturer and had
    recently earned his BS degree. He had no
    biomedical engineering or biology training and
    was unfamiliar with the research literature on
    the appropriate design characteristics of an
    acetabular insert.
  • The acetabular shell was porous coated for bone
    attachment without cement an IDE-PMA product.
    However, the manufacturer applied for, and
    obtained, 510(k) allowance for cemented use a
    pre-1976 application. Consequently, the device
    was never subjected to rigorous clinical testing.

57
ACS Cup (continued)
  • As failures started to occur (typically 25 have
    failed within four years) the manufacturer
    embarked upon a crash redesign project hoping to
    phase out the old product and phase in the new
    product without publically admitting the
    defective design. However, pressure from
    surgeons using the product prompted a recall
    before the switch was accomplished.
  • A letter was written to selected surgeons and
    distributors announcing the recall. However, a
    number of patients were implanted with the
    product during the phase-out, phase-in period and
    even after the recall because of its incomplete
    notification. Additionally, patients with early
    stage failures were not promptly diagnosed
    because of incomplete notification to orthopaedic
    surgeons. Should all implanted patients have
    been informed?

58
ACS Cup (continued)
  • Thousands of lawsuits resulted, some seeking
    punitive damages for callous disregard by the
    manufacturer of the dangers inherent in this
    product after they were fully aware of the
    problems. To date, all suits have been settled
    out of court.
  • Who is to blame? manufacturer, design engineer,
    his supervisors, employees who became aware of
    the problem, surgeons for using an unproven
    product, FDA for allowing the use of an unproven
    product, the law, the hospitals for allowing
    surgeons to use an unproven product, lawyers?

59
Effect of Radiation Sterilization
  • Radiation in air embrittles polymers.
  • This has been known since 1950s.
  • Polyethylene components radiated in air.
  • Are manufacturers responsible for early implant
    failures from poly damage?

60
Guidant Heart Defibrillators
  • Ventak Prizm 2 DR and Contak Renewal.
  • 28,900 implanted.
  • February 2005 - failed at 1/month.
  • March to May 2005 - 2 deaths.
  • Circuit flaw found, but sold for months after.
  • June 2005 - recalled after 45 reported failures.
  • JJ to purchase at 76/share.
  • November 2005 -Deal renegotiated to 63/share.

61
Issues for Discussion
  • What can be done to prevent the introduction of
    potentially dangerous products yet not completely
    stop innovation?
  • Can FDA be better insulated from political
    pressure?
  • Should we change the law? (Tort Reform)
  • What is the professional responsibility of the
    employee?
  • How do we protect the employee from retribution
    when problems are reported?

62
Issues for Discussion
  • Should the FDA regulate the practice of medicine?
  • Biomaterials Access Assurance Act of 1998.
    Federal pre-emption of state law.
  • Weigh decreased cost for manufacturers vs
    protection for patients
  • Punitive damages
  • Payment by insurance companies for experimental
    procedures
  • Long wait for FDA approvals

63
Issues for Discussion
  • Effect of managed care on innovation
  • Competitiveness of the US medical device industry
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