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Artificial & BioArtificial Organs Ecole supérieure d’Ingénieurs de Luminy Julien Cucurella Maud Bonnard Biomedical 2008.

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Presentation on theme: "Artificial & BioArtificial Organs Ecole supérieure d’Ingénieurs de Luminy Julien Cucurella Maud Bonnard Biomedical 2008."— Presentation transcript:

1 Artificial & BioArtificial Organs Ecole supérieure d’Ingénieurs de Luminy Julien Cucurella Maud Bonnard Biomedical 2008

2 Introduction What is the difference between Artificial and BioArtificial Organs? What do they have in commun?

3 Artificial Organs 1/Artificial kidney 2/Artificial muscle 3/Artificial pancreas : 2 approaches

4 Artificial kidney How does it work ? The kidney removes waste material from the body, and when this is not achieved properly, the patient develops a kidney failure. The artificial kidney, or dialyzer, is a life support system designed to remove waste products from the patients body.

5 How does it work ? Dialysis machine

6 Artificial kidney Kidney transplant A patient completing the artificial kidney treatment, may receive a kidney from an alive donor or a dead one. A patient completing the artificial kidney treatment, may receive a kidney from an alive donor or a dead one. The biggest issue in transplantation is compatibility between the donor and the receiver. The biggest issue in transplantation is compatibility between the donor and the receiver. If a complete rejection was to occur, there will be no choice but to remove the graft from the patient. If a complete rejection was to occur, there will be no choice but to remove the graft from the patient.

7 Artificial kidney Results The patient who undergoes a successful transplant can return to normal existence. The patient who undergoes a successful transplant can return to normal existence. Although a light work is preferable, there are no restrictions apart from taking drugs. Although a light work is preferable, there are no restrictions apart from taking drugs. Now, many patients with kidney failure stands a reasonable chance at a normal life with artificial kidney treatments and a well-matched transplant. Now, many patients with kidney failure stands a reasonable chance at a normal life with artificial kidney treatments and a well-matched transplant.

8 Artificial muscle How does it work ? Polymer based artificial muscles may soon yield organs that work like real limbs. Polymer based artificial muscles may soon yield organs that work like real limbs. Polyacrylonitrile drastically contracts when its pH changes. Polyacrylonitrile drastically contracts when its pH changes. The fibres are capable of holding four kilograms per square centimetre. A human biceps can lift a maximum of just over two kilograms per square centimetre. The fibres are capable of holding four kilograms per square centimetre. A human biceps can lift a maximum of just over two kilograms per square centimetre.

9 Artificial muscle How does it work ? An electronically activated muscle will not dry or wear out over time. An electronically activated muscle will not dry or wear out over time. When electrodes are applied, the muscle contracts. When electrodes are applied, the muscle contracts. Dielectric elastomers are still at a research level, but they have the potential to be produced at a low cost. Dielectric elastomers are still at a research level, but they have the potential to be produced at a low cost.

10 Artificial pancreas How does it work ? The artificial pancreas is a promising technology in development to help diabetic persons automatically control their blood glucose level by providing the substitute endocrine functionality of a healthy pancreas. The artificial pancreas is a promising technology in development to help diabetic persons automatically control their blood glucose level by providing the substitute endocrine functionality of a healthy pancreas. There are two approaches : the medical equipment approach and the bio- engeenering approach. There are two approaches : the medical equipment approach and the bio- engeenering approach.

11 Artificial pancreas The medical equipment approach In type 1 diabetes, insulin-producing cells in the pancreas are killed by the body's own immune system. In type 1 diabetes, insulin-producing cells in the pancreas are killed by the body's own immune system. The prototype system comprises : a glucose sensor, a handheld computer, and an insulin pump. The prototype system comprises : a glucose sensor, a handheld computer, and an insulin pump.

12 Artificial pancreas The medical equipment approach Drawbacks : The implantable sensor is inserted into a neck vein leading to the heart. The implantable sensor is inserted into a neck vein leading to the heart. The sensor accurately measures glucose in 95% of cases. The sensor accurately measures glucose in 95% of cases. The sensors stop working after an average of nine months. The sensors stop working after an average of nine months. The mathematical programs needs to be refined. The mathematical programs needs to be refined.

13 Artificial pancreas The bio-engeenering approach Bio-artificial pancreas designs come in four physical types : hollow fibers, capsules, coatings and sheets. Bio-artificial pancreas designs come in four physical types : hollow fibers, capsules, coatings and sheets.

14 Artificial pancreas The bio-engeenering approach A micrograph of the most successful thin coating.

15 Artificial pancreas The bio-engeenering approach

16 a)What is it? b)How does it work? c)Applications Tissue Engineering

17 What is it? New research field combining medecine, biology and engineering. Purposes: - to regenerate, repair or replace diseased tissues or organs using living cells. - find a new solution to the current problem of organ shortage and biomaterial failures. Applications: - skin, cartilage, bones diseases or injuries (ex: burns) - heart valves, blood vessels, corneas, ears, livers... Regenerative Medecine

18 How does it work? View of a colony of undifferentiated human embryonic stems cells Derived from human embryonic stem cells: mature neurons (red) and glial cells (green) Stem cells are able to generate every cell type in the body. Stem cells are able to generate every cell type in the body. They may be used to create new tissues and organs.

19 How does it work? To create an organ, cells need : To create an organ, cells need : - to be organised on a scaffold (= a structure)

20 Bioreactor - to be placed in a culture medium with growth factor which will be placed in a bioreactor. which will be placed in a bioreactor.

21 How does it work?

22 Applications

23 Conclusion

24 Thank you for your attention

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