From beginning this module, I was exposed to various different topics all under the field of engineering replacement body parts ranging from ethics in research to orthopaedics. However I was surprised to find myself knowing nothing about tissue engineering until the lecture we had on it had taken place. Which was what had inspired me to do some research on the topic.
WHAT IS TISSUE ENGINEERING
Falling under the field of regenerative medicine, tissue engineering bares the goal: to assemble functional constructs that restore, maintain, or improve damaged tissues or whole organs.
It could potentially be used in surgeries in which necrosis (premature cell death in tissues) occurs. It has very considerable potential, for which scaffolds from human tissue are thrown away because of necrosis, and in combination with a patients own cells, could make synthesized organs that wonât be rejected by the immune system.
Because tissues are groups of cells grouped together, its obvious there would be certain cells needed so that tissue engineering can be brought about, the types are:
- Adult/fetal cells
- Adult/fetal stem cells
- Pluripotent stem cells
And these cell sources can be divided based on their origin:
- Allogenic cells- from a human donor
- Autogenic cells- the donor and recipient are the same
- Syngenic cells- from an identical twin
- Xenogenic cells- from an animal
| Allogenic cells – Adult cells- currently have greatest clinical use – Using fibroblasts which come from banks (of human donors) – Available commercially Have a high growth potential | Autogenic cells – Involved biopsy of cartilage (examination of sample cells from a patient to determine presence/extent of disease) – From which chondrocytes are isolated and cultured, then implanted (with a biomaterial) back into a damaged joint to form a functional cartilage – But its controversial and has mixed results |
| Syngenic cells Arenât used commercially | Xenogenic cells – Arenât used commercially at all – Hybrid embryos are allowed to be created |
TISSUE ENGINEERING IN PRACTICE
A science paper published on the National Institute of health mentions: âcurrently, tissue engineering plays a relatively small role in patient treatment. Supplement bladders, small arteries, skin grafts, cartilage, and even a small trachea have been implanted into patients, but the procedures are still experimental and very costly. â
This means, they have been successful in implanting small tissues into patients, however it comes at a price. On the other hand, more larger organ replacements like the heart and lungs, although have been successfully synthesized in the lab, have yet to be successful in replacing the organ in a patient. But steady progress has been made.
From another point of view:
A different means in which tissue engineering can provide a useful solution in is plastic surgery:
- another paper published by the National Institute of Health mentions:
âAs a group, reconstructive surgeons are facing more challenging composite defects than ever before coupled with internet and media savvy patients with increasing expectation.â
And goes on to say:
âAmong these approaches, the most attractive concept is tissue engineering.â
Indicating in order to overcome the increasing expectations of patientâs expectations, and the number of potential patients in the future, by using the concept of tissue engineering. They can meet these demands, and ârestore both form and functionâ to the area in which surgery takes place.
CONCLUSION
To conclude, tissue engineering has brought about potential solutions to various issues in both the medical and cosmetic field. Ranging from lack of potential donors in both of these fields (which means they wonât have to standby and wait for donors in transplant surgeries), to overcoming the severely high demand to of potential patients in the future expecting full restorations in reconstructive surgeries. Meaning, tissue engineering could become a key in which modern medicine can be revolutionized.
This is a fair blog exploring the general field of tissue engineering. You pick out some good sources and choose quotes as examples to indicate current opinoin in the field.
TO improve, you might build reflection throughout your piece, and take a more focussed approach. Maybe there is a specific study in tissue engineering that you can use to explore more generally? Also you might take a slighty more critical approach, weighing up (hyperlinked) sources.