Biomaterials and scaffolds

Question 1

what is biomaterials?

Answer 1

• a nonviable material used in a medical device, intended to interact with biological systems.
• a material intended to interface with biological systems to evaluate, treat augment or replace any tissue, organ of function of the body.

Question 2

what are the 4 main types of biomaterials?

Answer 2

• polymers
• cermaics
• semiconductor materials
• metals

Question 3

what are polymers used for?

Answer 3

• skin/catrilage
• ocular implants
• drug delivery devices

Question 4

what are ceramics used for?

Answer 4

• bone replacements
• heart valves
• dental implants

Question 5

what are semiconductor materials used for?

Answer 5

• biosensors

- implantable microelectrodes

Question 6

what are metals used for?

Answer 6

• dental implants

- orthopedic scres/fixation

Question 7

what is the most common polymer used for drug delivery?

Answer 7

polyethylglycol

Question 8

why are biosensor development needed?

Answer 8

want sensors that can detect changes in the environment which are coated in a good material that allows diffusion but prevents accumulation

Question 9

why is titanium used in bone?

Answer 9

bioactive- bone will grow onto the surface of it

Question 10

what are the 4 main things that need to be considered during biomaterial selection?

Answer 10

• mechanical
• biological
• chemical
• optical/electrical
• regulatory constraints

Question 11

give 6 material selection parameters

Answer 11

• mechanical
• biocompatibility
• water absorption
• diffusion
• biostability
• degradation properites

Question 12

what are the 3 main polymers used and why?

Answer 12

PLLA, PGA and PCL- they have FDA approval

Question 13

what is a problem with PCL?

Answer 13

doesn’t degrade very well- hydrophobic

Question 14

what is wrong with the 3 polymers that are used most?

Answer 14

they dont degrade in a linear way- get rapid transfer of mechanical load onto th new tissue. You also get a lot of debris- sterile inflammation

Question 15

what are some simple biological parameters can control what happens in the cell?

Answer 15

• the surface roughness can determine how stem cells differentiate
• surface charge
• stiffness

Question 16

why do we need scaffolds in biotechnology ? (4)

Answer 16

• Protect the cells.
• Enable delivery of cells to the area of need: gels maybe
• Retain the cells in the area of need.
• Modulate the cellular response.

Question 17

what is the basic principle of tissue engineering? what is the potential problem with this model?

Answer 17

• cells from a biopsy
• monolayer cell culture
• expanded cells
• culture of a 3D polymeric scaffold
• generation of a graft

(can be too expensive and time consuming)

Question 18

what are the three elements of tissue engineering/ regenerative medicine?

Answer 18

scaffold: porous, absorbable synthetic and natural biomaterials (collagen bs polygylocolic acid)
- cells (autologous or allogenic): differentiates cells of same type as tissue, stem cells
regulators: growth factors or their genes, mechanical loading, static versus dynamic culture

Question 19

how can scaffolds be involved in matrix?

Answer 19

before it is absorbed a scaffold can serve as a matrix for cell adhesion to facilitate/“regulate” certain unit cell processes (e.g., mitosis, synthesis, migration) of cells in vivo or for cells seeded in vitro.
– the biomaterial may have ligands for cell receptors (integrins)
– the biomaterial may selectively adsorb adhesion proteins to which cells can bind

Question 20

what are the 7 main roles of a scaffold?

Answer 20

• the scaffold serves as a framework to support cell migration into the defect from surrounding tissues; especially important when a fibrin clot is absent.
• serves as a delivery vehicle for exogenous cells, growth factors, and genes; large surface area.
• before it is absorbed a scaffold can serve as a matrix for cell adhesion to facilitate/“regulate” certain unit cell processes
• may structurally reinforce the defect to maintain the shape of the defect and prevent distortion of surrounding tissue.
• serves as a barrier to prevent the infiltration of surrounding tissue that may impede the process of regeneration
• Thescaffoldsmayservetosupport/carrycells grown ex vivo back into the implant site to migrate off the implant. Or:
• To entice cells from the surrounding tissues onto the scaffold to fill the defect.

Question 21

what factors prevent regeneration?

Answer 21

• size of the defect: large bone defects will not regenerate easilyy
• collapse of the surrounding tissue into the defect: periodontal defects. solution is membranes for guided tissue regeneration- keep soft tissue out of the way while the bone comes back
• excessive strains in the reparative tissue- unstable structures that require fixation

Question 22

what are 3 synthetic scaffold materials?

Answer 22

– Hydroxyapatite
– Calcium carbonate
– Calcium phosphate

Question 23

what is a scaffold material used that is natural?

Answer 23

natural bone mineral - HA

Question 24

what is a sinus lift? what is the problem with the granules here?

Answer 24

lift gum up- put an implant of lots of material such as synthetic or natural granules (bone chip maybe) and after 6 month hopefully the bone will grow in and you can put an implant in. They take up lot of room in the implant

Question 25

what makes a polymer non degradable?

Answer 25

The construction of a polymer with a C-C backbone tends to confer chemical stability to the polymer- non susceptible to hydrolysis

Question 26

what makes a polymer degradable?

Answer 26

Heteroatom-containing polymer backbones confer biodegradability

Question 27

what are polymers used for?

Answer 27

• sutures
• cell seeded implants
• cell seeded implants for teeth- put cells (dental pulp)

Question 28

what is injection moulding?

Answer 28

have a mould and put plastic in with high turn over- but you can’t put a molecule in there because thermosensitive

Question 29

what is electrospinning?

Answer 29

take dilute solution polymer and apply a potential difference between two points and you get a dire mat forming- good for encapulsation of drugs within these fibres-

Question 30

what is the problem with electropsinning?

Answer 30

• Residual solvent

• Need to undertake rigorous quality control methods to determine that solvent levels are below acceptable limits.

Question 31

what are naturally derived scaffolds?

Answer 31

• naturally derived heart valve ( can also be made by electropsinning too to get combination of strong synthetic and biologcial functionality)
• decal re-cel stuff: break down cells and just get collagen skeleton which you can recel

Question 32

what was their group looking at?

Answer 32

small intestine submucosa- decell- want to maintain the architecture and some of the growthh factors potentially- can eectropsin onto the outside.

Question 33

what is the role of a sinus lift?

Answer 33

a sinus lift involves placing bone chips into the region of the jaw when the tooth is missing from in an attempt to prevent the collapse of this region and maximise the space of the implant along with encouraging osteointegration of the implanted tooth

Question 34

how can you use compressed collagen?

Answer 34

you can use it to patch a heart that has suffered cardiac infarct to promote regeneration