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| Gradual 3D Printed Cultured Cell Artificial Heart Development Stages |
3D print could revolutionize drug discovery as its extracted and cultured tissues samples exactly apes like the patients’ tissue, liver, kidneys, heart muscles or other organs through its complex bio printing technology. Earlier this technology was first implemented in Ford Motor plant for making large auto parts.
Now this 3D print technology is further enhanced to boost medical purpose to ape like duplicate organs of your body once the required tissue cells are extracted and cultured in lab after close introspection on its molecule history relating to patients’ previous ailments from who it is to be processed in special labs.
Body organs such as kidneys, livers and hearts are incredibly complex tissues. Each is made up of many different cell types, plus other components that give the organs their structure and allow them to function as we need them.
Technique:
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| 3D Printed Cell Dish For Testing And Culture |
Derived
tissue cells from particular organ or damaged area are printed onto a fine
density designed dish with many micro wells. Once the cells are injected into
the well type dents of the dish it is next flipped upturn to set in droplets format
or morning dew drops below a leave. 3D artificial pattern shaped organ with
fine perforated holes is bio printed with several cultured sample of cells and
later allows it to clump. Later this process is allowed to transform the 3D
design artificial organ to tissue shaped organs.
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| Surgeon Anthonoy Atala Demos On 3D Printed Developed Kidney |
The 3D
print reproduced organs not only apes like the desired sample tissue piece of a
patient’s body but also ensures that it exactly function like kidney in
excreting toxic from body through flush out points of the body.
Superior
3D printing technology is designed to print complex cells as well as other
biological materials and living
structures to reproduce organs for faster transplantation instead of keeping
the patient in a waiting list till a year after or more when a donor appears to
donate their organs.
Today
3D cell print technology is doing success in medical sector with perfection in
production of helpful drugs to cure a patient. Simultaneously 3D print
technology is helping to reduce animal testing burden for quicker medical treatment
processing to save lives and to enhance hope in the patient.
Comparatively
stem cell drug therapy is processed in lab after derive of cell from the
patient or genetically related people. Once the tissue cell is collected from
the stem cell sources like bone marrow and others it is diagnosed for molecule
fault signifying any ailments. For once the cells are cultivated in the lab
without proper molecule test the transfused cultured cell sample can possibly
generate that particular disease in the patient. So even the stem cell
medicinal development process is limited like the 3D print drug development
technology due to such constrains.
Reflection
On Current Constrains Of Such Dug Development:
- Likelihood
of legal approval is minimal sometimes even if a new candidate drug is
identified.
- Only
10% got approved which is quite painstaking.
- Success
mainly depends on healthy category molecule type which makes again makes
processing pace low even after deriving the cells.
- Prior
human clinical trials create poor turnout of people for repetitive test.
- Currently
the process is not yet processed globally as due to a matter of cost that is US
$2.5 billion
NEIC Analytic Report : Sumi
Assam’s
shining star Shiva the World Champions bronze medallist (60kg) had made a
dynamic attempt yesterday 2017 Grand Prix fall with a clean score against opponent
Slovakia’s Filip Merzaros to pass for the gold without heading any fatal injury which he is often
accustomed to in many bouts. If Shiva keeps this format of intensity till Germany,
Hamburg’s ‘World Championships’ arrives then chances remains to participate in
his glory.
