Future of 3d Printing Technology in India in Medical Science: 3D printing is rapidly revolutionizing the health care sector. Medical application for 3d printing is expanding and is expected to grow in near future. Application of 3d printing in medical field can be categorized into several broad categories which includes tissues and organ fabrication, implants, anatomical models and creation of customized prosthetic. 3D printing uses in medical can provide numerous benefits including the personalisation and customization of medical products, equipment and drugs which is cost-effective, increases productivity and enhance the quality of medical products. This new 3d printing technology is a process in which a 3 dimensional object is created by depositing or fusing materials like plastic,powders, metal, liquids, ceramics or even living cells in layers to produce a 3d model or object. This process is also known as additive manufacturing. 3d printing uses different forms of materials and pastes which will be discussed further in this article. With the introduction of this new and amazing technology there will be a vast change in the health care industry.
Future of 3d Printing Technology in India in Medical Science
Benefits of 3D Printing Technology in Medical Science
There are many benefits of 3D printing technology in the field of healthcare. These days doctors are welcoming this modern technology with open arms. Because of this present day technology doctors can easily communicate with their patients which creates more understanding to the patients about their illness.
3D printing increases cost efficiency as it produces all the objects cheaply. Traditional manufacturing methods are expensive than 3D printing technology as this new technology reduces manufacturing cost by reducing the use of unnecessary resources.
3D printing technology enhances the productivity as if we make medical objects such as implants and prosthetic body parts traditionally that will require various process and a long delivery time. Since 3D printing is much faster and produces objects of much refined quality which ultimately increases the productivity.
The most important benefit which 3d printers provide in medical science is the freedom to produce custom made medical products and equipment. Any object can be designed according to the patient’s use.
Different Application of 3D Printing in Medical Science Field
There are a lot of 3d printing uses in healthcare sector. This technology is used to produce various body parts as well as demo for any kind of treatment. Some of the greatest incredible uses for 3D printing technology are developing in the medical field. 3d printing technology initially was used to make custom prosthetic and dental implants, since then this technology has evolved considerably. Now 3D printing is being used to manufacture bones, exoskeletons, ears, a jaw bone, windpipes, cell cultures, blood vessels, stem cells, vascular networks, organs and tissues even novel dosage forms and drug delivery devices . Bioprinting research is developed to print different kinds of tissue, while 3D inkjet printing is used to develop advanced medical devices and tools. Following are the most important uses of 3D printing technology in medical science.
Bioprinting Tissues and Organs:
Organ or tissue failure due to disease, aging, accidents and birth defects is a most critical medical problem. Currently the treatment for this problem of organ or tissue failure is being relied on organ transplants from living or dead donors which is expensive. In this treatment it is difficult to find a donor with tissue match. This complexity could be eliminated by using cells taken from organ transplant from patient’s own body to build another replacement organ which minimizes the risk of tissue rejection and even to take lifelong immuno suppressants. 3d bioprinting offers additional vital advantage beyond the traditional regenerative method. There are many advantages of 3D printing technology on organ printing by producing biomaterials, cells and cell-laden biomaterials in tandem or individually, layer by layer, directly creating 3D tissue like structures. Bioprinting process has emerged as its steps involves 1. Creating a blueprint of the organ along with the vascular architecture; 2. Generates a plan of bioprinting process; 3. Isolating stem cells; 4. Differentiating the stem cells into organ specific cells; 5. Bio ink reservoirs with organ specific cells, support medium , blood vessel cells are prepared and loaded them into the printer; 6. Finally place the bioprinted tissue or organ in a bioreactor prior to transplantation.
Digitization of the dental sector:
3D printing is a most relevant technology for orthodontic industry. By using this technology dentist are able to print plaster models, orthodontic appliances, positioning trays, clear aligners and retainers without disturbing their patients. They can even digitize their workflow by decreasing the mold time.
Anatomical Models for Surgical Preparations:
Due to the complexities and differences of the human body makes 3d printing very ideal for surgical preparations. With the help of 3d printing technology doctors are able produce a tangible model of patient’s anatomy this helps doctors to understand more accurately rather than relying on solely on CT scans and MRI which are not as instructive as they are viewed in 2D on a flat screen. This technology is also useful for surgical training and even preferable to training on cadavers.
Customizing Prostheses and Impalnts:
- The most important and widely used application of 3d printing in medical science is to produce prosthetic body parts and surgical implants for the patients.3D printing is a big success in the medical sector to produce both standard and complex customized surgical implants and prosthetic limbs. Producing the same in a traditional way is very time consuming as well as expensive. 3d printing technology reduces the time and cost of manufacturing.
The material which is used for 3d printing application in medical science is a rigid medical rapid prototyping material which has a high dimensional stability and colourless transparency. The material is ideal for applications requiring prolonged skin contact of more than 30 days and short-term mucosal-membrane contact of up to 24 hours.
Uses of 3d Printing Technology in India in Medical Science
In this post we have discussed about the Future of 3d Printing Technology in India in Medical Science with its benefits and applications. In the previous post we have also provided you the information on Uses of 3D Printer In Architecture Printing Education Medical. In the upcoming post we will talk about the process of this amazing technology of 3D printing. For more information contact Mr. Anirudh- 9873210684