ARTIFICIAL
LUNG

£90,000

Description

The artificial lung can be connected to blood vessels through tubes, in which blood is cleared of carbon dioxide and oxygenated.

It consists of ventilator, compressor and pipeline system, electric control and pneumatic, electronic control and as well as control parts which are connected to the Brain-computer Interface.

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    Gas Outlet - Trachea

    1

    Gas outlet conducts inhaled air into the lungs with the artificial membrane and removes the carbon dioxide from the blood via the artificial membrane.

    Blood Inlet Pulmonary Artery

    3

    Blood inlet supplies the blood with a waste product of metabolism to the artificial membrane lungs.

    Gas Inlet - Trachea

    2

    Gas inlet conducts inhaled air into the lungs with an artificial membrane and supplies oxygen to the blood via the artificial membrane.

    Blood Outlet Pulmonary Vein

    4

    Blood outlet transports the blood into the left atrium and then into the left ventricle, releases oxygen until the blood goes through the capillary network of the whole body.
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    WHY CHOOSE US

    EFFICIENCY

    It is an extremely efficient filter. It has a sufficient pore size of about 10 µm, which is better than any human-made filter (Lumb, 2017).

    CONNECTION

    Brain waves can control it. It can also be controlled by your central nervous system.

    FUNCTION

    It can improve respiratory function, increasing lung ventilation, improving respiratory function and reducing respiratory work consumption.

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    DURING THE PROCEDURE

    Step 1

    A bilateral pneumonectomy is performed through a median sternal incision in supine position; a right pneumonectomy is performed through the sixth coastal bed incision of the right posterolateral right chest. Left pneumonectomy is performed through the 6th coastal bed incision in the left posterolateral left chest.

    Step 2

    After establishing the extracorporeal circulation or dissociating, ligating the pulmonary artery and cutting it off at the first branch, your original lung is removed.

    Step 3

    The artificial membrane lung is implanted into your body. The trachea is anastomosed with 4-0 Prolene line; the left atrium is anastomosed with 3-0 Prolene line, and the pulmonary artery is anastomosed with the 4-0 Prolene range.

    Step 4

    The breastbones are closed and the tissue and skin are closed with stitches (Haam et al., 2018).

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    ARTIFICIAL
    EYEBALL

    £90,000

    Description

    The artificial eyeball consists of sensing elements which have their own control algorithm and are connected to the nervous system.

    It includes an eyeball and a cylindrical shell with a CCD camera in the inner cavity of the eyeball.

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      Pupil

      1

      The pupil, or black dot at the centre of the eye, is a hole through which light can enter the eye.

      Iris

      3

      The iris surrounds the pupil. It controls how much light enters the eye by changing the size of the pupil.

      Lens

      2

      The lens is controlled by built-in microchip and acts like a camera lens by focusing light onto the retina at the back of the eye.

      Optic Nerve

      4

      The optic nerve transmits impulses and visual information to the brain.
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      WHY CHOOSE US

      EFFICIENCY

      It has similar functions as real human eyeballs, having a wide range of realistic movement to map out the visual scene.

      CONNECTION

      It can be connected to the Brain-computer Interface, and controlled by brain waves.

      FUNCTION

      What your have read can upload to your memory in brain chips. Furthermore, it can adjust the eyesight according to the distance and light.

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      DURING THE PROCEDURE

      Step 1

      The first thing to do is to visit an ocularist for a preliminary consultation.

      Step 2

      The second step is to take an impression of the socket.

      Step 3

      The next step is to match the iris of the implant to the iris of the existing eye.

      Step 4

      The final step is to fit the piece in place and connect it with the nervous system (John Stolpe Artificial Eye Implants, 2018).

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      ARTIFICIAL
      HEART

      £90,000

      Description

      The artificial heart sends blood from the left ventricle through a powerful valve, which is developed from real human heart stem cell to the aorta.

      It can restore hemodynamic stability, raising blood pressure and helping vital organs recover.

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        Right Atrium

        1

        The right atrium receives oxygen-poor blood back from the rest of the body via the superior and inferior venae cavae.

        Right Ventricle

        3

        The right ventricle sends blood to the lungs via the pulmonary artery.

        Left Atrium

        2

        The left atrium receives newly oxygenated blood from the lungs via the pulmonary vein.

        Left Ventricle

        4

        The left ventricle sends blood to the entire body via the aorta.
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        WHY CHOOSE US

        EFFICIENCY

        It is a compelling long-term treatment for heart failure, It can reflect real human heart activity, and it effectively simulates the physical and chemical changes of the heart.

        CONNECTION

        It can be connected to the Brain-computer Interface, and controlled by brain waves.

        FUNCTION

        It can restore hemodynamic stability, raising blood pressure and helping vital organs recover.

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        DURING THE PROCEDURE

        Step 1

        A cut is made down the chest over the breastbone, and the breastbone is separated. Then, the large blood vessels are cut off and circulation is redirected through the extracorporeal circulation machine.

        Step 2

        Your heart is removed.

        Step 3

        The artificial heart is implanted into the original heart site to match the recipient's blood vessels and the remaining left atrial tissue.

        Step 4

        After cardiac resuscitation, the extracorporeal circulation machine is removed and the breastbones are closed. The tissues and skin are closed with stitches.

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        ARTIFICIAL
        LIVER

        £90,000

        Description

        The artificial liver has similar functions as the real human liver and the artificial one regenerated from liver stem cells, including secreting bile, synthesizing urea, participating in metabolism and with bioconversion of alcohol, metabolites and toxins.

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          Choledoch

          1

          The choledoch connection is connected to choledoch. It is involved in producing bile, which helps with the breakdown of fat from food.

          Duodenum

          3

          The Duodenum connection is connected to duodenum. It is involved in producing enzymes and solutions necessary for digestion.

          Hepatic Vein

          2

          The Hepatic vein connection is connected to the hepatic vein, supplying blood to the liver and break down and process other drugs.

          Hepatic

          4

          The hepatic connection is connected to Hepatic, responsible for blood glucose regulation.
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          WHY CHOOSE US

          EFFICIENCY

          It is a compelling long-term treatment for liver failure. The neurological status is improved or stabilized after the procedure.

          CONNECTION

          It can be connected to the Brain-computer Interface and controlled by brain waves.

          FUNCTION

          It has similar functions as the real human liver, removing toxins from the blood and manufacturing proteins, metabolites and other vital substances (Vienken, 2006).

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          DURING THE PROCEDURE

          Step 1

          Your liver is removed.

          Step 2

          The artificial liver is implanted into your body, and the blood vessels and bile ducts are connected to the new liver.

          Step 3

          Once your new liver is in place, the surgeon uses stitches and staples to close the surgical incision. You're then taken to the intensive care unit to begin recovery.

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          ARTIFICIAL
          STOMACH

          £90,000

          Description

          The artificial stomach is made of the bioabsorbable polymer. It can preserve the stomach by repairing defects without stenosis or deformity (Aikawa et al. 2010).

          It is an essential part of the digestive system, connecting with the esophagus, choledoch and duodenum.

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            Cardia-Esophagus

            1

            Cardia is the inlet of food, which is attached to the oesophagus; it also has the function of preventing the reflux of food and stomach acid into the oesophagus.

            Choledoch

            3

            The Choledoch connection is the inlet of bile, which helps with the breakdown of fat from food.

            Gastric

            2

            The gastric body is the central part of the stomach, in which food is mostly digested.

            Pylorus Duodenum

            4

            The pylorus is the lower part of the stomach, which is attached to the duodenum, through digested food passes.
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            WHY CHOOSE US

            EFFICIENCY

            It is a compelling long-term treatment for gastric failure. The neurological status is improved or stabilized after the therapy (Gu et al., 2012).

            CONNECTION

            It can be connected to the Brain-computer Interface, and controlled by brain waves.

            FUNCTION

            It can reflect real human stomach activity, and it effectively simulates the physical and chemical changes of the stomach.

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            DURING THE PROCEDURE

            Step 1

            A cut is made down the abdomen to access the stomach.

            Step 2

            Your stomach is removed.

            Step 3

            The artificial stomach is implanted into your body and the related organs are connected.

            Step 4

            The tissues and skin are closed with stitches.

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            CONTACT US

            LOCATION

            Space Capsule Mars 1

            EMAIL ADDRESS

            Zihanangela@gmail.com

            HOLOGRAPHIC

            Wang (6325600)

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