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Polymers In Medicine

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Title: Polymers In Medicine


1
Polymers In Medicine
  • Jeremy C. Robinson
  • Pierre M. Saint Louis
  • Anoop Padmaraju

2
Overview
  • Introduction
  • Brief History
  • Applications
  • Cellophane
  • PGA, PLA, PLGA
  • Polydimethylsiloxane
  • Polyethylene and PMMA
  • Polytetrafluoroethylene
  • Polyurethane
  • The Future

3
Biomaterials
  • What are they?
  • Substances other than food or drugs contained in
    therapeutic or diagnostic systems that are in
    contact with tissue or biological fluids
  • Why use Biomaterials?
  • Improve patients quality of life by replacing a
    defective body part with a substitute.
  • Physicians were limited to use off-the shelf
    supplies.
  • Novel biodegradable polymers and modified natural
    substances.

4
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5
History
  • Biomaterials not practical till 1860s
  • 1900s Biomaterials first used
  • WWII, PMMA used to replace damaged cornea

6
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7
Cellophane
  • Saran Wrap, Rayon (fiber)
  • Regenerated Cellulose
  • Invented 1908, Jacques E. Brandenberger
  • Kidney Dialysis
  • Invented 1959, William J. Kolff
  • Vegetable Parchment, Natural Casings early
    membranes

8
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9
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10
PGA, PLA, PLGA
11
PGA, PLA, PLGA
  • First synthesized by Dupont from Glycolic acid
  • PGA, originally Dexon, absorbable suture
  • 1963 Schmitt Polistina Invents Biodegradable
    suture
  • PLA PLGA Drug delivery systems

12
PGA, PLA, PLGA
  • All polymers have low polydisparity index (PLA
    1.6-1.9)
  • Depending on structure, polymers can be fit for
    different applications
  • Amorphous forms used in drug delivery systems
  • Crystalline forms good for scaffolding, or
    sutures

13
PGA, PLA, PLGA
  • Two essentials in scaffolding high surface to
    volume ratio, highly porous
  • Allows cells to easily proliferate for setup of
    pathways
  • Setup of pathways for nutrients

14
Polydimethylsiloxane
  • Silicon
  • Lubricants and Foaming agents
  • Pacemakers and Vaccine Delivery systems

15
Polydimethylsiloxane
  • Discovered 1927, Dr. Frederick Stanley Kipping
  • Vulcanized rubber, cant be melted or dissolved
  • Low glass transition
  • Produced by hydroxyl, groups through hydrolysis,
    replace the 2 Cl in the monomer
  • Ring opening polymerization, Higher MW

16
Polydimethylsiloxane
  • Used in treatment of prostate carcinoma
  • Small biodegradable pellets (188 m)
    injected into area of body where needed.
  • Smaller doses, less toxic effects for patient

17
Polyethylene and PMMA
  • Thermoplastics, exhibit moderate to high tensile
    strength with moderate elongation
  • Used for Hip replacement and Fracture Fixation
  • Annual procedures approaching 5 Million
  • Metal alternatives have corrosive problems

18
PMMA
Fig. 4b PMMA template after polymerization,
showing molded plug
Fig. 4a PMMA disc over femoral window during the
molding process
19
Polytetrafluoroethylene
  • High strength and Chemical resistance
  • High modulus and tensile properties with
    negligible elongation
  • Used for orthopedic and dental devices
  • Mechanical heart valve and implants

20
Polytetrafluoroethylene
  • Excellent wear and fatigue resistance
  • Vascular grafts patch injured and diseased areas
    of arteries
  • Must be flexible to allow for the difficulties of
    implantation and to avoid adjacent tissue
    irritation

21
Polyurethane
  • Shoe soles, tires and foams
  • Thermoset, non-condensation step growth
  • Low molecular weight polymer (47,000)
  • Bridges the gap between rubber and plastic

22
Polyurethane
  • One of the best load-bearing capacities
  • Discovered 1937, Otto Baker
  • Major medical uses Ventricular assist device
  • Developed by Dr. Liotta, Baylor, 1950s
  • Redefined by Pierce and Donachy in 1971

23
Ventricular Assist Device
24
Polyurethane
  • VAD, used during open heart surgery,
    postoperatively and in case of extreme cardiac
    trauma
  • Pierce and Donachy used segmented polyurethane in
    their VAD
  • Safe contact barrier compressive properties made
    function similar to heart ventricle

25
Polyurethane
  • Obtained through step-growth polymerization of
    diisocyanates and dihydroxl compounds
  • Injection molded
  • R.I.M.
  • Failures attributed to poor processing, not
    physical material properties

26
The Future
  • Opportunities are limitless
  • We as scientists and engineers are faced with big
    challenges
  • Potential and promise are tremendous
  • Questions!

27
References
  • Peppas, N., Langer, R. New challenges in
    bio-materials, Science, Vol. 263, March, 1994
  • Andreadis, S., Applications of Biomaterials,
    Tissue engineering handout, February 2001,
    University at Buffalo.
  • History and Development of Biomaterials,
    www.bae.ncsu.edu/Courses/bae465
  • Fried, J. R., Polymer Science and Technology.,
    Prentice Hall, New Jersey 1995
  • Cellophane Invention, http//inventors.about.com
    /science/inventors/library/inventors/blcellophane.
    htm
  • First Dialysis Unit, www.ucl.ac.uk/uro-neph/hist
    ory/dialysis.htm
  • Dialysis and the Artificial Kidney,
    www.chemengineer.about.com/science/chemengineer/li
    brary/weekly/aa120897.htm
  • www.beyonddiscovery.com
  •              

28
References
  • 9. Ikada, Y, Yoshihiko, S, Tissue
    Engineering for Therapeutic Use 4. Elsevier,
    2000, New York
  •  
  • 10.         Pulverer, G., Schierholz, J. M.,
    Development of New CSF-shunt With Sustained
    Release of Antimicrobial Broad-Spectrum
    Combination., Baktercologie, Vol. 286, 107-123
  •  
  • 11.         Loomes, L. M., Jian Xiong, J., Brook,
    M. A., Underdown, B. J., McDermott, M. R., Novel
    Polymer-grafted Starch Microparticles for Mucosal
    Delivery of Vaccines., Immunology, Vol. 56,
    162-168, 1996
  •  
  • 12.         www.britannica.com, (keyword
    polyethylene)
  •  
  • 13.         Uses of Polymehtylmethacrylate,
    www.rcsed.ac.uk (Feb 2001)
  •  
  • 14.         www.britannica.com, (keyword
    Polytetrafluoroethylene)

29
References
  • 15.         Polyurethane Features and
    Benefits, www.elastchem-ca.com/poly.html
  •  
  • 16.         Pierce-Donachy Ventricular Assist
    Device, www.asme.org/history/Roster/H142.html
  •  
  • 17.         Liotta, D. The Ventricular Assist
    Device, www.fdliotta.org
  •  

30
The EndThank You!
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