bio materials ( implant)
TRANSCRIPT
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Biomaterials
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www.biomat.net 10/1/2004
1. Marrow stem cells could heal broken bones, Betterhumans
2. Newly grown kidneys can sustain life in rats, Bio.com
3. Doctors grow new jaw in man's back, CNN
4. FDA approves implanted lens for nearsightedness, CNN
5. Stent recall may raise quality expectations, Medical Device Link
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Wright Medical Technology-TN
The REPIPHYSIS® works by inserting an expandable implant made from titanium in an aerospace polymer into the child’s healthy bone, after which standard recovery and rehabilitation are expected. However, instead of undergoing repeated surgeries to extend the bone, the REPIPHYSIS® uses an electromagnetic field to slowly lengthen the implant internally.
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A biomaterial is "any substance (other than drugs) or combination of substances synthetic or natural in origin, which can be used for any period of time, as a whole or as a part of a system which treats, augments, or replaces any tissue, organ, or function of the body".
Biocompatibility — The ability of a material to perform with an appropriate host response in a specific application
Host Response — The response of the host organism (local and systemic) to the implanted material or device.
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MicroTest Laboratories - example
Our In-vitro toxicity services are performed by our experienced and
fully trained microbiologists
In- Vivo Services: Rabbit Pyrogen USP Class Testing Sensitization Implantation Sub-Chronic/Chronic Toxicity Intracutaneous Reactivity Irritation Testing Necropsy Services Histology Services
In-Vitro Services: Cytotoxicity Hemolysis Complement Activation PT/PTT Testing AMES Mutagenicity Carcinogencity Testing
MethodsUSP ISO JP EP/BP FDA ASTM
All Animal Testing is performed in a fully AAALAC accredited facility
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KeywordsMetallic/glass/Polymeric/Ceramic/CompositeFracture/fatigue/creep/corrosion/degradationTissue
response/healing/biocompatibility/host response/carcinogenicity
Hard/soft tissue implantsVascular/Breast/Urological/Art. OrganMucosal contacting …
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Material Selection Parameters
MechanicalThermal/Electrical ConductivityDiffusionWater AbsorptionBiostabilityBiocompatibility
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Value LocationpH 6.8 Intracellular
7.0 Interstitial7.15-7.35 Blood
pO2 2-40 Interstitial (mm Hg)40 Venous100 Arterial
Temperature 37 Normal Core28 Normal Skin
Mechanical Stress 4x107 N m-2 Muscle (peak stress)4x108 N m-2 Tendon (peak stress)
Stress Cycles (per year) 3x105 Peristalsis5x106 - 4x107 Heart muscle contraction
Test Conditions:
Length of implant: Day: Month: Longer:
Where used: skin/blood/brain/mucosal/etc.
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BulkMaterial
Surface Layerof Material
Adsorbed layer ofwater, ions &
proteins
Cells inbiological
fluid
Biocompatibility is primarily a surface phenomenon …
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Test Animals
• Rabbits – ear, skin, pyrogen• Guinea Pigs – skin, esp C@• Mice – genotoxicity• Horseshoe Crab – endotoxins• Pig – implant• Bacteria - genotoxicity• Test actual & elutants & extracts…• People – long term
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Some Commonly Used Biomaterials
Material Applications Silicone rubber Catheters, tubing Dacron Vascular grafts Cellulose Dialysis membranes Poly(methyl methacrylate) Intraocular lenses, bone cement Polyurethanes Catheters, pacemaker leads Hydogels Opthalmological devices, Drug Delivery Stainless steel Orthopedic devices, stents Titanium Orthopedic and dental devices Alumina Orthopedic and dental devices Hydroxyapatite Orthopedic and dental devices Collagen (reprocessed) Opthalmologic applications, wound
dressings
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An Interdisciplinary Field
BioengineersMaterial Scientists
ImmunologistsChemistsBiologistsSurgeons
...
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Journals
Biomaterials World News Materials Today Nature Journal of Biomedical Materials Research Cells and Materials Journal of Biomaterials Science Artificial Organs ASAIO Transactions Tissue Engineering Annals of Biomedical Engineering Medical Device Link … see: http://www.biomat.net/biomatnet.asp?group=1_5
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A Little History on Biomaterials
• Romans, Chinese, and Aztecs used gold in dentistry over 2000 years ago, Cu not good.
• Ivory & wood teeth• Aseptic surgery 1860 (Lister)• Bone plates 1900, joints 1930• Turn of the century, synthetic plastics came
into use– WWII, shards of PMMA unintentionally got lodged
into eyes of aviators– Parachute cloth used for vascular prosthesis
• 1960- Polyethylene and stainless steel being used for hip implants
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Uses of Biomaterials
• Replace diseased part – dialysis• Assist in healing – sutures• Improve function – contacts• Correct function – spinal rods• Correct cosmetic – nose, ear• Aid dx – probe• Aid tx – catheter• Replace rotten – amalgam• Replace dead - skin
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Problems/test for w Biomaterials
• Acute toxicity (cytotoxicity) arsenic• Sub chronic/chronic Pb• Sensitization Ni, Cu• Genotoxicity• Carcinogenicity• Reproductive &/or developmental Pb• Neurotoxicity• Immunotoxicity• Pyrogen, endotoxins
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FDA & ISO 10993
• FDA mandates tests based on length of contact (24 Hr, 1-30 Days, >30 days)
• See table for details• ISO 10993 – required for European
Union Certification – see flowchart for exemptions
• See Device Categories & examples• Harmonization – in process…
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First Generation Implants • “ad hoc” implants• specified by physicians using common and
borrowed materials• most successes were accidental rather than by
design
Examples — First Generation Implants
• gold fillings, wooden teeth, PMMA dental prosthesis
• steel, gold, ivory, etc., bone plates
• glass eyes and other body parts
• dacron and parachute cloth vascular implants
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Intraocular Lens3 basic materials - PMMA, acrylic, silicone
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Vascular Grafts
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Second generation implants
• engineered implants using common and borrowed materials• developed through collaborations of physicians and engineers• built on first generation experiences• used advances in materials science (from other fields)
• titanium alloy dental and orthopaedic implants
• cobalt-chromium-molybdinum orthopaedic implants
• UHMW polyethylene bearing surfaces for total joint replacements
• heart valves and pacemakers
Examples — Second generation implants
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Artificial Hip Joints
http://www.totaljoints.info/Hip.jpg
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Third generation implants• bioengineered implants using bioengineered materials• few examples on the market• some modified and new polymeric devices• many under development
Example - Third generation implants•tissue engineered implants designed to regrow rather than replace tissues•Integra LifeSciences artificial skin•Genzyme cartilage cell procedure•some resorbable bone repair cements•genetically engineered “biological” components (Genetics Institute and Creative Biomolecules BMPs)
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Substitute Heart Valves
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SEM displaying the cross section of a composite disk, which had been seeded with cultured bone marrow stromal cells.
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Synthetic polymer scaffolds
... in the shape of a nose (left) is "seeded" with cells called chondrocytes that replace the polymer with cartilage over time
(right) to make a suitable implant.
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Evolution of Biomaterials
Structural
Functional Tissue Engineering Constructs
Soft Tissue Replacements
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Advances in Biomaterials Technology
• Cell matrices for 3-D growth and tissue reconstruction
• Biosensors, Biomimetic , and smart devices
• Controlled Drug Delivery/ Targeted delivery
• Biohybrid organs and Cell immunoisolation
– New biomaterials - bioactive, biodegradable, inorganic
– New processing techniques
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Metals
Semiconductor Materials
Ceramics
Polymers
Synthetic BIOMATERIALS
Orthopedic screws/fixation
Dental Implants Dental Implants
Heart valves
Bone replacements
BiosensorsImplantable Microelectrodes
Skin/cartilageDrug Delivery Devices
Ocular implants
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Biomaterials for Tissue Replacements
• Bioresorbable vascular graft
• Biodegradable nerve guidance channel
• Skin Grafts
• Bone Replacements
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Biomaterials - An Emerging Industry
• Next generation of medical implants and therapeutic modalities
• Interface of biotechnology and traditional engineering
• Significant industrial growth in the next 15 years -- potential of a multi-billion dollar industry
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Biomaterials Companies
• BioForma Research & Consulting, Inc., fibrinolytic systems, protein-material interactions
• Baxter International develops technologies related to the blood and circulatory system.
• Biocompatibles Ltd. develops commercial applications for technology in the field of biocompatibility.
• Carmeda makes a biologically active surface that interacts with and supports the bodys own control mechanisms
• Collagen Aesthetics Inc. bovine and human placental sourced collagens, recombinant collagens, and PEG-polymers
• Endura-Tec Systems Corp. bio-mechanical endurance testing ofstents, grafts, and cardiovascular materials
• Howmedica develops and manufactures products in orthopaedics.
• MATECH Biomedical Technologies, development of biomaterials by chemical polymerization methods.
• Medtronic, Inc. is a medical technology company specializing in implantable and invasive therapies.
• Molecular Geodesics Inc., biomimetic materials for biomedical, industrial, and military applications
• Polymer Technology Group is involved in the synthesis, characterization, and manufacture of new polymer products.
• SurModics, offers PhotoLink(R) surface modification technology that can be used to immobilize biomolecules
• W.L. Gore Medical Products Division, PTFE microstructures configured to exclude or accept tissue ingrowth.
• Zimmer, design, manufacture and distribution of orthopaedic implants and related equipment and supplies
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What are some of the Challenges?• To more closely replicate complex tissue
architecture and arrangement in vitro• To better understand extracellular and
intracellular modulators of cell function• To develop novel materials and
processing techniques that are compatible with biological interfaces
• To find better strategies for immune acceptance