Skip to main content

3D Printer Used To Engineer New Bone Like Material

So far printers have been used as a fax machine, printer, scanner and a xerox machine, but these are all 2D printers. Have you heard of 3D printers? These days everything happens in 3D from the latest blockbuster movies to the TV shows in your living room, so this shouldn't come as a surprise. According to various news sources, researchers from the Washington State University used a 3D inkjet printer to create a new bone-like material. And what's exciting is that this material actually does look like bone, acts like bone and feels like bone too.
This new breakthrough in engineering technology promises a wide scope for treatment procedures in the field of orthopedics, dentistry, and even in the field of medicine where it can be used to deliver medicine for treating osteoporosis. When used in conjunction with surgical procedures, this bone-like material can act as a scaffold for new bone to grow on and it ultimately dissolves, with apparently no side effects whatsoever.
3-D inkjet printer creates a bone-like material

According the Science Daily News report, the new material has already been tested in vitro successfully and the report was published in the Journal of Dental Materials where they reported seeing promising results with in vivo tests on rats and rabbits. The results of the test were very promising as after just a week in a medium with immature human bone cells, the scaffold was supporting a network of new bone cells.
Earlier in 2007, a similar study was being carried out by a researcher from McGill University who also tried using a modified inkjet printer to produce three-dimensional bioceramic "bones".
It took four years of dedicated hard work from a team of interdisciplinary effort that involved chemistry, material science, biology and manufacturing and a grant of $1.5 million from the National Institutes of Health, to finally succeed in producing this new bone-like material from the 3D inkjet printer, which is nothing short of a medical marvel. According to the paper, it was the addition of zinc and silicon to the main ingredient calcium phosphate that more than doubled it's strength.

The research team included mechanical and materials engineering Professor Amit Bandyopadhyay, doctoral student Gary Fielding and research assistant Solaiman Tarafder.
So how does this 3D printer work? The printer works by spraying a plastic binder over a bed of powder in layers of 20 microns, which is about half the width of a human hair. Thereafter, it follows the directions of a computer and creates a channeled cylinder that is the size of a pencil eraser.
"It's possible that doctors will be able to custom order replacement bone tissue in a few years, said Susmita Bose, co-author and professor in WSU's School of Mechanical and Materials Engineering." 
"If a doctor has a CT scan of a defect, we can convert it to a CAD file and make the scaffold according to the defect," Bose said.
Source: technorati.com

Comments

Popular posts from this blog

Apple Invents a new Health feature for AirPods that will provide diagnosis & monitoring of Bruxism

Today the US Patent & Trademark Office published a patent application from Apple that relates to a possible future health related feature regarding the diagnosis and monitoring of bruxism using motion sensors in AirPods. Teeth grinding and jaw clenching (bruxism) are the most common parafunctional behavior manifested during sleep and awakeness. Awake bruxism has been mostly associated with emotions like anxiety, stress, frustration or tension. During sleep it causes sleep disorders and arousals. Individuals are mostly unaware of the occurrent and severity of their bruxing habits. The unawareness results in a myriad of orofacial muscle pain and dental consequences like teeth damage, wear and fractures. Commercial devices in dental practice to monitor and treat bruxism are expensive, inconvenient for frequent daily use. For instance, Polysomnography (PSG) studies that target the monitoring of sleep bruxism, require patients to sleep in a clinical setting overnight. Further,

Esthetic Oral Rehabilitation with Veneers

Porcelain veneers had long been considered to be only an esthetic solution. However, their range of indications has been steadily increasing, making ceramic veneers a highly viable alternative to classic, far more invasive forms of restorative treatment. Today, veneers can be used to handle esthetics (discolored teeth, fractured and worn teeth, diastemas, dental defects, etc.) and to restore the biomechanics of the dentition, as well as many other indications. Classifications of Veneer Preparations Referred to as no, minimal, or conventional preparation, veneer classifications—or lack there of—create a large gray zone of misunderstanding and miscommunication with patients and within the dental profession. Left unanswered, questions regarding tooth structure removal, finish lines and margins, and other aspects can cause confusion in practice. Flaws and inaccuracies in previously proposed preparation guidelines make those guidelines irrelevant . To dissolve uncertainty, this v

Orthodontics for Esthetic Dental Treatment: Symbiotic Efforts for Optimal Results

Human fascination with beauty and esthetic trends is continuously evolving; moreover, public awareness and desire to improve facial appearances are at the highest level. This trend of heightened public awareness and expectation is paving a new way of dentistry toward a more comprehensive approach with esthetic principles at its core. The oral health of the patient and his or her dentition are fundamental in dental treatment. However, the final esthetic outcome should be among the first steps in treatment planning. The ideal esthetic approach in dental treatment planning often requires a multidisciplinary approach engaging various dental professionals. This process requires thorough communication among dental practitioners and a basic understanding of what each discipline can provide. FACIAL ANALYSIS Facial evaluation is an integral part of patient examination. It starts with evaluating facial symmetry, as symmetric faces are considered more beautiful than those that are n