The Thermometer Meets the Smart Phone: Technology that Help Moms and Saves Lives

It’s an essential element to being a good mom and a good doctor. It’s a gauge of the human body’s well being and plays a valuable role in the management of many diseases, not the least of which is infection.  Every intern, parent and caregiver knows that feeling when “their patient” spikes a temperature. Sometimes, it’s a human touch and yet other times it’s the touch of technology.

Taking a temperature is nothing new and the concept dates back to the 16^th and 17^th centuries.  And today, technology has made the process quick, efficient and accurate. But problems still exist, especially for that restless child who resists the process.

There’s an app for that! And here’s another case where your smartphone is another key tool for both health and wellness.

These days, with smart phones, we can take a photo and video, play games, locate our position and do countless of other useful things. In the future, allow smart phone become an accurate medical diagnosing instrument that, without physical contact, can instantly measure someones temperature and detect environmental hazards.

 

Today, thanks to a great progress in microelectronics, the infrared sensors became really tiny and even more sensitive. According to the patent, the infrared sensor is positioned inside a smart phone next to the digital camera lens. To measure temperature, the camera works as a viewfinder for a correct positioning the smart phone at about 1 inch from the patient’s temple. When the phone detects that its position is just right, it instantly takes the body temperature with a clinical accuracy sufficient for any diagnostic purpose. Thus, a doctor, nurse or mom no longer needs to carry a thermometer because it will be just there inside their smart phone. An additional benefit may also be the avoidance of physical contact and the potential for disease transmission. This new patent will be incorporated into future smart phone and give everybody a powerful health care tool.

But it doesn’t stop there. The technology can be used to measure the surface temperature of many objects, including something as important as our baby’s bath water. The progress in technology combined with consumer demand will drive innovation with a speed and direction that is almost impossible to predict. But if this slope of innovation continues, health and wellness will be an important beneficiary.

The World's 1st 3D-Printed Gun

An American gunsmith has become the first person to construct and shoot a pistol partly made out of plastic, 3D-printed parts. The creator, user HaveBlue from the AR-15 forum, has reportedly fired 200 rounds with his part-plastic pistol without any sign of wear and tear.

HaveBlue’s custom creation is a .22-caliber pistol, formed from a 3D-printed AR-15 (M16) lower receiver, and a normal, commercial upper. In other words, the main body of the gun is plastic, while the chamber ( where the bullets are actually struck) is solid metal.

The lower receiver was created using a fairly old school Stratasys 3D printer, using a normal plastic resin. It cost around $30 of resin to create the lower receiver, but “Makerbots and the other low cost printers exploding onto the market would bring the cost down to perhaps $10.” Commercial, off-the-shelf assault rifle lower receivers are a lot more expensive.

HaveBlue tried to use the same lower receiver to make a full-blown .223 AR-15/M16 rifle, but it didn’t work. Funnily enough, he thinks the off-the-shelf parts are causing issues, rather than the 3D-printed part.

While this pistol obviously wasn’t created from scratch using a 3D printer, the interesting thing is that the lower receiver is what actually constitutes a firearm. Without a lower receiver, the gun would not work; thus, the receiver is the actual legally-controlled part.

In short, this means that people without gun licenses or people who have had their licenses revoked could print their own lower receiver and build a complete, off-the-books gun. What a chilling thought. But, that’s the ambivalent nature of technology, the great enabler. In just the last few months, 3D printers have also been used to print organs, blood vessels, and drugs. In a few more years, when 3D printers move beyond plastic resins, who knows what we’ll be able to print.

*3D Printing:

3D printing is a method of manufacturing everything from shoes to jewelry, to guns and aerospace parts, using a computer-controlled printer. The fundamental rule of 3D printing is that it's an additive manufacturing technique, unlike machining, turning, milling, and sawing which are subtractive.

While there are different kinds of 3D printing, all 3D objects are generally built out of layers. A 3D printer starts with the bottom layer, waits for it to dry or solidify, and then works its way up. This layering process differs depending on the printer and the material it works with metal, plaster, polymer and resin but it also depends on whether it's an industrial or commercial 3D printer.