A 3D Printer Machine for Pizza Printing

NASA, a 3D printing company, built a machine that can print edible pizza.

Last year, NASA contracted material engineer (Arjan Contractor) to build a 3D food printer. The printer now exists and can print edible pizza.

The machine prints out the pizza in layers, topping the dough with ketchup and cream cheese. It then is cooked by a heated surface. Definitely still needs work, but at least it's edible.

NASA has released their creation, admitting that they haven't quite yet perfected the 3D printed pizza.

3D Printed Sugar

A 3D printing company (3D Systems) hasworked on a kitchen-ready printer that would let you print out elaborate confections.

In January this year, 3D Systems announced that it was getting ready to sell ChefJet, kitchen-ready 3D printers to create edible products.

The printer was showcased at CES and is targeting the average consumer, who probably doesn't have much experience with 3D printing.

A complimentary 'Digital Cookbook' will let users easily select a design to print out in a variety of materials, including chocolate, vanilla, mint, sour apple, cherry, and watermelon. They're aiming to launch two printers by the end of 2014 with the monochrome version in full-color, larger printer.

The Latest 100% 3D Edible Printed Food

While it may sound futuristic, 3D printed food are now in the market. A lot of the work is still in its early stages, with researchers at Cornell and MIT developing 3D printers made specifically for edible products. But there are also some commercial projects underway.

Barilla, Hershey, and Mondelez International are just a few of the consumer food brands exploring the potential of 3D printing. At this year's SXSW, Mondelez International 3D printed custom Oreosbased on what was trending on Twitter with the hashtag #eatthetweet. SXSW attendees could choose from 12 flavors including banana, mint, birthday cake, and lime, and then select either a chocolate or vanilla base for the cookie.

The Oreo would then be printed in two minutes. Apparently the cookies tasted like regular Oreos, but they fell apart a bit too easily. The 3D printing machine was created by MAYA Design using a Delta Bot 3D printer, but at this point it will probably still just be a fun marketing stunt as opposed to something you'd see in a grocery store.

3D printing startup Structur3D created a 3D printer add-on called Discov3ry, which can create a paste from all sorts of materials, including plastic, silicone, wood filler, and yes, Nutella.

Some of the Coolest Things You Can 3D Print

• Camera And Lens You can 3D print a fully-functional SLR camera in 15 hours. Assembly, with instructions, takes just one hour. The camera is capable of taking quality pictures and is compatible with any photographic lens. If it's too tantalizing to have a near-complete 3D printed camera, you can actually print a lens, too. The picture quality isn't great, but then again it can give you some really cool effects.

• Custom Busts With that new 3D printed camera and lens, you'll be able to take some stunning portraits. But 3D printing lets you up the ante: you can print accurate busts and figurines of yourself, your family, and your friends.

• Bike Hacks(Bottle Mount, Valve Cap) If you're into bike customization, 3D printing is a goldmine. Here are some highlights: a mount to make a plastic bottle fender, abike carrying handle, or personalized valve caps. And the imagination needn't stop there.

• Musical Instruments They aren't exactly professional quality, but the fact that we can 3D print instruments at all is astounding. So far, we've seen flutes,violins, and guitars. In addition, the MIT researchers who printed the flute have bigger dreams: designing and 3D printing previously unfathomable instruments, like a multi-pipe trumpet.

• Gadget Upgrades Another plethoric realm of 3D printing is gadget accessorization. There are countless examples, but here are a number of beauties: clever iPad stands, multi-purpose iPhone cases, an iPhone wall mount for charging, andgear wraps for your malicious, ever-tangling cords.

• Phone Amplifiers(Megaphone, Amplifier) No one actually enjoys the sound quality of their phone's built in speaker. Sure, it can come in handy for sharing videos with friends, but as an actual attempt to listen to music it tends to only come out in dire situations, like overnight camping or power outages. But you can change that with amplification, as these 3D printed upgrades do. There's a classy megaphone or this more directed amplifier, and the accompanying video demonstrates the difference that it makes.

• Flying Things(R/C Sailplane, Quadcopter, Gliders) Paper airplanes are passé: Print out some gliders and go to the biggest field you can find, and give them a whirl. If you're looking for something with a little more firepower, you can print out the body for a crazy remote-controlled sailplane.

• Vacuum Forming Machine You can 3D print necessary parts for a vacuum former. And a 14-year-old designed it. This product would allow you to create molds of practically anything, then fill them with chocolate (or urethane). Just imagine the power.

3D Printing – A 3D-Print Brain

A 3D-Print Brain is now in the market – it was innovated with free government library can now be downloaded, shared and edit files for use in 3D printers from a new government website. The site has files that can be used to create models of anything from a human brain to deadly viruses.

The website, launched by the National Institutes of Health, is called theNIH 3D Print Exchange, and contains a library of files that a 3D printers can read and print. The files all relate to health and science; the available files include models of a human femur bone, the West Nile virus and a white matter section of the brain.

Users can also share their own files, edit exiting ones or create files using a tool that can convert scientific data into ready-to-print 3D files.

"We created this website as kind of a way to have a YouTube-like experience, but instead of exchanging and sharing and commenting on and remixing videos, instead we are doing all of those same things with 3D-Print files," said Darrell Hurt, a researcher at the National Institute of Allergy and Infectious Diseases who helped build up the 3D Print Exchange.

A 3D printer generates three-dimensional objects from digital replicas by "printing" material one layer at a time.

The NIH already uses 3D printing for several purposes, including making special lab equipment and creating anatomy models that doctors can then use to plan medical procedures. Scientists who study very small things, like proteins, bacteria or viruses, can also enhance their understanding by creating 3D models.

"A researcher who's been using a computer model of this for 15 years learns something as soon as they put their hands on a real, tangible model," Hurtsaid in the video, referring to a 3D-printed representation of a protein.

All of the files on the site are free, and the site also features a tutorial for new users. The library is not intended only for professional scientists, but for everyone.

3D Printing - Muscle Tissue for Robots

Muscle tissue innovated through 3D Printing could make robots more lifelike. A robot motorized by muscle tissue could improve how engineers plan to produce future robots for disaster-relief operations, exploration or construction, new research finds.

The 3D-printed "bio-bot," created by researchers at the University of Illinois at Urbana-Champaign, has more accurate and specific control over its movements and a more dramatic series of motion. It can pilot and change its movement in response to its environment. The rectangular robot measures about 0.2 inches long, and is constructed from an elastic, jelly-type material and fixed with two strips of engineered muscle tissue on either end.

Skeletal muscle tissue is what drives human movement. It covers the bones and is attached by soft tendons that we can consciously manage.

The researchers integrated skeletal muscle tissue engineered from a mouse cell line into a 3D-printed soft robot. Soft robots are made from flexible rather than unbending material, allowing it to move and adapt in new environments.

By integrating skeletal tissue into a soft robot, the researchers created a machine that can carry out more complex motor tasks and is capable of freer and more dynamic motion. The new soft robots would be lightweight, bio-compatible and match the elastic properties of natural muscle tissue, the researchers said.

When the scientists tested the robot's movement, they found that the bio-bot moved only when given an electric shock. Robots with cardiac tissue twitch constantly, making it difficult to control their movements, according to the researchers

3D Printing - A Wave of Customization and Massive Possibilities

For all we know, other nations in Asia dominate in the 3D Printing industry. But in light of recent events, it seems the two may face competition from a possible dark horse: the Philippines.

Philippines-based digital print solutions company Norde International Distributors, which caters to architecture, engineering and design industries, held its third annual Digital Innovations Summit in July where it gathered representatives from companies including HP, Stratasys, and Pantone to display their latest products and innovations.

The four day event showcased a range of 3D printers and launched an initiative to transform industries in the country with 3D printing. “Our task is to lead the change and be at the front of new technologies,” said a Norde official.

Norde International president Allan Hao Chin said he believes that 3D Printing will transfigure many industries. He told event guests he doesn’t want the Philippines to fall behind other countries that have already begun R&D with 3D Printing and additive manufacturing.

“The wave of customization is on its arrival. If we are able to ride this wave, we can turn revolutionary ideas into reality,” said Chin. “It’s better to start now than learn about it late and miss the boat,” he said.

Chin spoke to industry companies about the benefits of 3D Printing in attempt to recruit additional people and companies to the initiative.

Should other nations watch out?

So far the Philippines remains under the radar, but it could divulge itself as a would-be threat to the larger Asian countries trying to lead the industry.

The Impact of 3D Printing in the World Labor Market

This issue was taken from an article written for a local newspaper.

The beginning of 3D Printing could lead to loss of many jobs in the manufacturing sector but it could also lead to the creation of new opportunities for work, according to an International Labor Organization (ILO) engineering specialist.

ILO mechanical and electrical engineering specialist, David Seligson claimed that more companies have begun using the new technology to produce samples since it is cheaper than paying for manpower services.

“Today prototyping makes up 95 percent of the market for 3D Printing, allowing engineers to make and test components or parts for vehicles, aircraft and so on without having to retool factories or wait for components to arrive,” Seligson said.

He also claimed that this trend could pave the way towards the mass movement of workers due to smaller but competent 3D Printing factories.

“3D printers will eliminate the need for assembly, requiring fewer raw materials and shorter supply chains,” Seligson said.

“Factories won’t need physical inventories anymore, because they’ll be able to print products on demand. It will even be possible to scan and print replicas, just like you would a computer file,” he said.

Seligson said that ILO and other labor supporter groups should begin considering retraining workers, who will be affected to adapt to new jobs which will be created by the 3D Printing upheaval.

These alternative jobs include specialists in raw materials used in a printer, or as inspectors of defects in electronic blueprints. “Just like the Industrial Revolution, 3D Printing may destroy jobs, but it will also create new ones.

And because 3D Printing is likely to require fewer raw materials and create less waste, they will probably be greener,” Seligson said.

3D Printing: History and Application

Three-dimensional printing, otherwise called additive manufacturing, is the process of using additives to form solid 3D objects of essentially any shape from a digital model. This is attained using specially formulated additives, such as plastics, that are formed into successive layers of material typically laid down on a platform in different shapes. 3D Printing is uniquely distinct from a more traditional 3D sculpting technique, which relies on the removal of layers (subtractive manufacturing) to produce a Three-dimensional object.

While 3D printers have recently been thrust into the spotlight with several new companies, producing printers capable of turning digital models into real-world objects, these have not been the first such tools to find their way to market.

The first published account of a printed solid model was made by Hideo Kodama of Nagoya Municipal Industrial Research Institute in 1982. The first working 3D printer was created in 1984 by Charles W. Hull of 3D Systems Corp. Hull published various licenses on the concept of 3D Printing, many of which are used in today’s additive manufacturing processes. Of course, 3D Printing in the early days was exceptionally costly and not attainable for the general market. As we moved into the 21st century, however, costs drastically dropped, permitting 3D printers to find their way to a more affordable market.

The cost of 3D printers has even diminished in the years from 2010 to 2013, with machines generally ranging in price from $20,000 just three years ago, to less than $1,000 in the current market. Some printers are even being developed for under $500, making the technology increasingly available to the average consumer.

APPLICATIONS 

Since getting to be standard, 3D printing has worked its way into various markets. The technology is now used in prototyping and distributed manufacturing with applications in architecture, construction, industrial design, automotive design, aerospace, military, engineering, etc. It has also become popular in areas such as dental and medical technology, fashion, footwear, jewelry, eyewear, and more. Interestingly, even food may one day be printed, which may help feed the ballooning population.

As the technology progresses, more practical uses are expected to come about as a result of additive manufacturing. With the expansion of 3D digitizers, 3D sensors and 3D scanners, the possible outcomes are practically inestimable.

Recently, NASA has been testing rocket parts manufactured through 3D Printing and may even use the technology to build habitats in space and on other worlds. And along with the many useful everyday things that 3D printers can give us, medical researchers are now using 3D-printed technologies to save human lives.

The Basic Process: How 3D Printing Works

3D Printing nowadays is practically everywhere, making things on demand – fast and precise. From science laboratories, Amazon.com and EBay, hospitals, building sites to offices and homes; the technology is apparently thriving. There is a tremendous amount of excitement focusing on what 3D printers can do and its possible outcomes. Three-dimensional printing is a new-age advancement that can create ordinary stuff. They are basically exceptional because they can manufacture diverse things, whatever kind or structure, using distinctive sort of materials – entirely from one machine.

 A 3D printer can create practically anything, from prosthetics, plastic toys to metal spare parts, stoneware vases, ceramic products, customized chocolate cakes and even the inconceivable; functioning human organs (although it is not yet completed as of this time). 3D Printing is the perfect alternative for conventional factory production lines with a single machine.

With all the hype surrounding this exceptional technology, most people will surely ask – How does 3D Printing work? It may seem complicated to visualize the process; however, it’s exceptionally simple.

The Basic Process 

Everything begins with a 3D design which you do on a personal computer. Connect your PC to a 3D printer, press the ‘Print’ command, grab some snack, sit back and watch as your printer progressively reveals your design into a solid form. The process of 3D Printing turns an entire object into many small cuts, and then creates it slice by slice from the bottom-up. The layering of small slices stick together to form a solid object.

On the other hand, each layer can be very complicated. Meaning, this technology can produce moving parts like wheels and bearings as part of the same object. You can actually print a model car or an entire bicycle with all the important parts to make it operational. You just have to completely check the design, check the gaps and spaces, and verify if everything is in the right place.

The Major Advantages of 3D Printing

Additive manufacturing prevalently known as 3-dimensional printing continues surging into the standard market. Businesses and consumers, along with the leading industries, have grasped the technology with an immense positive response.

This process of making physical three-dimensional objects from a digital model turned into a fundamental variable in helping key commercial enterprises attain immense advancement in their respective fields. 3D Printing is absolutely one of the most recent advancements to follow in the 21st century given the fact that its popularity in the consumer market is soaring high. What truly allures people to settle on 3D Printing? Here are the major advantages:

Fast Production

Compared to the conventional method, 3D Printing is basically faster. It’s a stallion versus a buffalo – speed-wise. Both can run a given distance to the finish line, yet there’s a significant notable difference on their travel time. Imagine this idea. The conventional manufacturing techniques may consume up a few days or more from model creation to finish product while with modern 3D Printing equipment, it might just take a couple of hours to create an object.

Combined Materials 

Over hundreds to choose from Combining two different elements to create a new good one is the basic concept. On the other hand, mixing two different raw materials before can sometimes be tricky and impossible because of the expensive costs of the procedure, especially if it is intended for mass production. But now, technology has broken the limits and ended the dependence of 3D Printing in plastic materials alone. Today, you can choose hundred types of materials such as metals, glass, ceramics and a lot more. Most of these are very tough and can resist high temperatures.

Waste Reduction

Talk about inefficient processes, metal and plastic manufacturing. Generally, these are the top wasteful process with a lot of excess materials. 90% of the materials utilized as a part of building aircrafts normally goes to waste. Now, that’s a huge figure. But with additive manufacturing, it creates comparable objects using less energy without putting out a lot of junk. Occasionally, 3D Printing ’s finished products can be up to 60% lighter without compromising durability. With less waste, more money is being saved.

New Shapes and Innovative Structures 

The added manufacturing technology permits more creativity without the hassle of molding and cutting to achieve several types of shapes and structures. 3D Printer can easily produce many-sided figures which are only restricted by the designer.

Cheap

Simple – manufacturing is less expensive. 3D Printing helps businesses diminish their manufacturing expenses allowing them to save up to 70% of their money. This is achievable through reliable and cheaper raw materials, lower shipping and packaging expenses. The end result is always big profits.

No wonder why 3D Printing is making its way through various industries and creating a huge impact. With these advantages, 3D Printing is becoming the preferred tool of promising businesses.

The 3D Printing Technology in the Philippines

The future we have imagined is slowly coming into actuality with all the advances developing and enhancing step by step. We've been the beneficiaries of these advancements, heading us to a more advantageous life. The Philippines is a standout amongst the most tech-oriented individuals in Asia. It is very evident in their lifestyle beginning from a large number of mobile phone users to gadget geeks and science and technology enthusiasts.

Basic printing was grasped well by Filipinos over the previous century and they happened to keep utilizing these methods in the industry with a few improvements and enhanced expertise they have acquired through the years. Today, the new age has started in the Philippines with the introduction of yet another amazing innovation – the three-dimensional (or 3D) printing.

This technology was initially introduced in European countries and later on revealed to different parts of the world that were willing to try the marvels of 3d printing. The feedbacks were great with what 3D printing can do and the potential outcomes it could offer in the long run. Just imagine a gadget connected with a computer that can print physical objects – now that is progressive, right? We have imagined the future with something like this in the past and we thought it was vague. Yet, 3D Printers are presently creating solid objects and have been tried both in development and application for over 30 years. The future is already here – working, proven and tested.

In the coming days, months, and years, it is safe to say that 3D Printing will get along with the Philippine market and promises a bright future ahead for all businesses and other industries willing to adopt this extraordinary innovation that is 3D Printing.

Presently this ultramodern innovation was introduced in the Philippines to make another ground for headways dedicated to enhance industries such as, mechanical, medical, automotive and so on. More Filipinos are getting educated about 3D Printing as the vast majority of them are eager to try this astonishing creation. 3D Printing or added manufacturing has drawn much enthusiasm among local businesspeople and consumers. Given the fact that customization demands are high, and the requirement for effective alternative with less cost is greatly supported these days, 3D Printing has given the chance to consumers and industry leaders with another helpful option to supply these goods, considering a huge business sector possibility in the Philippines and other Asian countries.

 In the succeeding days, months, and years, it is safe to say that 3D Printing will coexist with the Philippine market and guarantees an excellent future ahead for all organizations and businesses that are willing to accept this phenomenal development in 3D Printing.

Hack and Develop

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Presently, our device can be utilized by anyone to make the next even more a complex device. Our colourimeter uses an Arduino, which is an open source micro-controller that enables anyone with an ethusiasm to effortlessly hack it and use it for their own particular projects. We created the open source nephalometer+colourimeter effectively and rapidly, because of the fact that others had officially created the sensor and basic software coupled to the Arduino. This is the power of open source. Much the same as the incredible rate of advancement and innovation seen in open source software, the idea of open source design for 3D-printable hardware is getting on like wildfire. Hundreds of open source 3D-printable science and health instruments have as of now been produced and developed.

This is all simply the beginning. Completely open source 3D printable labs are coming. They will help the researchers extend their financing to do more and explore more, which will surely prompt to faster discoveries and an accelerated rate of technological improvement. All of which will definitely enable all of us, wherever we are in the world, to live and have wealthier and healthier lives.

Print your Own Design

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 Imagine that you hurt your ankle and your doctor recommends a physical therapy with a “wobble board” to improve balance and strengthen your ankle joint. These are not overly common items and you could probably buy one somewhere but if you actually own a 3D printer, you will have another option: you can just customize a wobble board using an open source design, print it on your 3D printer and bolt it to a circle of plywood, and that would cost much less.

3D Printable Wobble Board
Credit: J.M.Pearce.

There are many other of other open designs for health aids on the web – from simple splints to complex prosthetic hands. What they all offer in common is they are radically less expensive than the products on the market.

The extreme investment funds that might be had from using a personal 3D printer hasn’t gotten away from the notice of those of us who work in the sciences. Like the excessive mark-ups for anything related to healthcare, scientists likewise frequently suffer from shockingly expensive scientific equipment prices. 3D printers offer us a solution to that as well.

Bone Replacements and Heart Monitors Spur Health Revolution in Open Source 3D Printing (Op-Ed)

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No batteries included.
Credit: Oliver Quinlan, CC BY-NC

The advancement in the 3D printing industry has moved rapidly and it is presently ready to modify each part of our lives and health. Thousands of Europeans are enjoying 3D-printed metal orthopedic implants to support or replace missing bones and, in the US, thousands more have benefited from 3D printing utilized by dental specialists. Most people that need hearing aids have custom 3D-printed devices comfortably resting in their ears now.

It is hard not to get excited about the most recent 3D-printed wonders in the world’s labs like the 3D-printed “heart jacket”, which was effectively used to monitor a heart of a rabbit. Scientists used a sensor-studded silicone sheath to gauge things like contractions, temperatures and acid levels over the surface of the rabbit’s heart. With somewhat more time and effort, they can see that there is also a potential for a human implant.

The 3D printers utilized for orthopedic implants, hearing aids and heart monitors are all high-end, made by expensive manufacturing tools far expelled from the consumer printers that have caught open creative ability. Low-cost consumer 3D printers are generally also limited to printing in plastic. However, there are a surprising number of uses for such a relatively basic tool.

Artificial Heart 'Jacket' Made on 3D Printer

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The outer layer of the heart was made of silicon embedded with tiny sensors. The heart layer was made on a 3D printer Credit: Rogers et al

Utilizing a 3d printer, researchers have made a versatile layer that nearly emulates the external layer of the heart's wall.

The new membrane holds small sensors that can track the heart's temperature, ph and level of strain. The device could one day be used to treat patients with rhythm disorders in the lower chambers of the heart, as well as the rhythm disorder atrial fibrillation, the analysts said.

Heart rhythm irregularities are a typical problem, with one of the most well-known forms, atrial fibrillation, affecting 3 million to 5 million people in the U.S. yearly. Left untreated, rhythm irregularities can cause blood clots, which can prompt stroke.

People with atrial fibrillation are frequently treated with blood thinners or different medications that may remove the heart's pacemaker cells and replace them with electrodes. AT the same time, these techniques are fairly simplistic and don't give much feedback on the heart's condition.

The sensor-filled heart sleeve could one day be used to not only test for heart disease, but also to track the health of other organs, such as the kidneys, the specialists said. In addition, the sensors could one day measure an enzyme called troponin, a obvious marker of heart attacks. That could help doctors detect heart troubles significantly sooner than current tests.

A 3D Printed Human Liver Replica

Safer surgery?

A new method of 3D printing an anatomically accurate replica of the human liver is now helping to guide surgeons during tricky procedures, researchers report. The 3D-printed models of the human liver are made of transparent material that is threaded with colored arteries and veins. These livers could help surgeons prevent complications when performing liver transplants, or removing cancerous tumors, researchers said.

Other importance of the replica

The replica is definitely of great help for surgeons and nurses as they study, observe and conduct operations. That could also be useful for those who are still studying medical courses in school. Schools could use this kind of replica to study human liver more effectively and accurately. 3D Printing Philippines can provide your needs in 3D printing.

3D Revolution begins with the Printed Face

3D Printing Philippines got the news that a man in Wales was able to have his face reconstructed after a serious motorbike accident has brought the wonder of 3D printing to the mainstream. It’s the result of changes in regulation and improvements in the technology and is the start of something much, much bigger.

The use of a combination of CT scanning and 3D printing methods to treat patients who are suffering from injury or defect is incredibly powerful. As what happened in Stephen Power’s case, it allows expert surgeons to manipulate the precise geometry of the patient’s face or other part of the body before the operation. That means the necessary parts can be designed and manufactured in a normal, although slightly compressed, design timescale. Power suffered a number of impact injuries in his accident, he broke his cheekbones, top jaw and nose and fractured his skull. Several months later, doctors printed a symmetrical model of his face using CT scans and were then able to create implants and plates to rebuild his features. But the majority of the techniques used to help Power have actually been around for decades. A very similar story to this was detailed in a BBC documentary nearly 20 years ago.

The primary copyrights that have been held for 20 years – including a particularly important piece of intellectual property owned by 3D printing company Stratasys – have now expired. That means that we are likely to see 3D printing really come into its own. These copyrights largely covered the manufacturing processes involved in 3D printing and now that this knowledge is no longer locked up by companies, people like Power can benefit more easily. It has meant that low-cost 3D printing machines can be produced, enabling a better-served marketplace to emerge and a community of print-at-home enthusiasts, designers and innovators to get to work. They are printing toys, jewelry and even prosthetics. But the hold up has also been about technology. Innovation in the field, and particularly in metal 3D printing has really sped up in recent years.

Metal 3D printing produces components in biocompatible materials such as titanium from 3D data produced by a design system or CT scan. In the past five years these machines have improved to such an extent that they can now be used to make implantable parts. The University of Liverpool built the first metal 3D printer in the UK, which has led to the production of implants for dentistry, orthopedics and even veterinary treatment. And now the progress of 3D printing technology is gathering pace and this is largely due to more people being able to access and experiment with the devices in a variety of settings.

We’re likely to see a lot more stories like Power’s facial reconstruction in the future. For every wonder application that succeeds there are likely to be more failed ideas that never catch on but now that people all over the world can try things out, the possibilities are enormous. It will mean that 3D printing will be an every day occurrence and a normal way to treat patients rather than front page news.