Thanks to Google glass: Houston boy virtually ‘visits’ zoo from his hospital bed

Six-year-old Jayden Neal got a glimpse of the Houston Zoo last week, thanks to Google Glass.

Neal has been a regular patient of Children’s Memorial Hermann Hospital in Houston since being diagnosed with type 1 diabetes about a year ago. The hospital recently teamed up with the Houston Zoo and the Google Glass Explorer program to give its pediatric patients a unique experience.

“We had a great time working on the project,” Natalie Camarata, social and multimedia manager at Memorial Hermann, said. “[The hospital] is right across from the Houston Zoo, so it was just a natural fit to be able to partner with them through Google Glass to be able to create that firsthand experience for these kids.”

Neal, who usually looks for animals at the zoo through his hospital room window, was able to get a close-up view of jaguars, sea lions and giraffes by talking with zoo workers through Google Glass..

Camarata says Neal took to the technology very quickly.

“When we were working with him, we told him, you know, you can Google whatever you want. And the first thing he did was Google diabetes,” Camarata said. “That there told me that he not only knew how to use the Internet already, he knew how to use it in a personal way and he was able to navigate this device like nothing.”

The hospital has one pair of Glass through the Google Glass Explorer program. Several pediatrics patients were chosen to participate in the zoo experiment. Though there are no formal plans for any more Glass experiments, Camarata said the reaction has been overwhelmingly positive.

“We have a new appreciation for the device and we’re excited to share this experience with our patients,” Camarata said.

Source: fox news


Can Google Glass Transform Medical Education?

Google Glass looks exciting for the medical world, and presents a particularly powerful opportunity for medical education(for examples, see Forbes article here or Phys.org here). A white paper by the Department of Emergency Medicine, Singapore General Hospital says, “simulation-based training has opened up a new educational application in medicine. It can develop health professionals’ knowledge, skills, and attitudes, whilst protecting patients from unnecessary risks”. Google Glass is taking simulation to the next level and making it more real, as the patients treated are real.

Yet the underlying concept of simulation-based-learning in medicine isn’t new. Neither are the individual components of Google Glass (such as the video recording feature and the possibility of sharing procedures online with any number of students). The biggest innovation might be having all this in one device. As Aristotle said, the whole is more than the sum of its parts.

Medical education is often a two stage process. In stage one, doctors in training need to study voluminous tomes and pass exams; stage one is the collection and storing of knowledge – perhaps too much knowledge. Richard Barker says in his book 2030, the future of medicine, that “as our bio-medical insights continue to fragment traditional diseases into multiple molecular disorders, keeping pace with advances gets tougher and tougher; … ‘head knowledge’ needs to be complemented by online decision support, distilling the wisdom and experience of the best specialist and putting it at the fingertips of the practitioner”. In other words, clinicians are starting to need real-time knowledge on tap.

Stage two focuses on learning through direct patient contact under the guidance of seniors, and Barker’s position suggests that stage two may never really end. Google Glass would support this stage of the curriculum, helping to simulate the practice of medicine, teach decision making, and then allow collaboration long after qualification. With a teacher demonstrating on patients (or that earlier revolution: a mannequin) with a headset camera, the learner is brought straight into the operating theater.

Google Glass is similar to a standard pair of glasses. It has an optical head-mounted display, sitting just above the right eye. Features include a built-in GPS, microphone and Bluetooth, and a camera which can record and live-stream videos to a Google hangout. Particularly useful is voice activation which would allow surgeons to, for example, do a web search for latest research or access EMRs or even real-time patient metrics without “breaking scrub” (compromising operating room sterility). As well as improving the provision of care, this ought to give students a more holistic understanding of each case.

Dr. Rafael J. Grossmann, Surgeon, mHealth Innovator and Google Glass Explorer was the first to perform a Google Glass-aided surgery, including remote teaching contexts and offering clinical advice remotely via Google hang-out. Orthopaedic surgeon Dr. Selene Parekh followed with a demo of foot and ankle surgery, and then plastic surgeon Dr. Anil Shah used the device while carrying out a rhinoplasty. Recently, Medical News Today wrote about a surgeon who live-streamed a procedure using Google Glass and a tablet device.

Grossman says that exposing students to the real life of a surgeon and their problems is critical for training and students should learn and mimic best practices early on. Furthermore, he adds that Google Glass education goes beyond the operating room, “Google Glass is a great start with practically limitless opportunities. “For example, how to connect with patients, how to teach bedside manner, how to prepare patients for surgery can all be best taught from real life examples. Google Glass records it and demonstrates best practice, from A to Z through the responsibilities of a practitioner,” he says.

Plus, of course, these Google Glass recorded procedures can be shared across the globe. Innovator Armando Iandolo, co-founder of Surgery Academy and his team have created an application for Google Glass that lets surgeons stream a heads-up view of procedures to students anywhere in the world. The big, bold innovation is to connect these streams in MOOCs (massive open online courses), says Iandolo. He and his co-founder are currently crowd-funding the idea on Indigogo. “Students will access an operating theatre online and watch a surgical intervention, live, for the procedure of their choice”, says Iandolo. “As we enter Universities, we want to become an integral part of the medical student’s study curriculum”.

MOOCs aren’t new either, but with the Surgery Academy everything seems to fall in place. By bringing the learner straight into theatre, simulation via Google Glass makes courses operate more like apprenticeships.

The patient would need to give their approval, but this is surely quite reassuring for the patient: which practitioner – and one good enough to teach – wants to screw up while being live-streamed to hundreds of students and fellow physicians?

The speed at which Google Glass eventually becomes a standard educational support tool is less certain, and we can learn from previous waves of innovation. In 2010, the Northern Ontario School of Medicine introduced a new mobile device program (medical students received laptops, iPhones and iPads). To assess its value, educators there how medical learners use mobile technologies. Their white paper concluded, “Students would adapt their use of mobile devices to the learning cultures and contexts they find themselves in.” Device value needs to be taught. It depends on how welcome new tech is perceived to be in classrooms, by students, teachers, and the wider ecosystem.

A typical fear is that, especially early in the curriculum (stage one above), medical students will miss out on basic knowledge. Search and find functions make it easier to zero in on an answer, but perhaps without the rich context and basic knowledge provided by reading cover to cover. Students – and teachers – could work just ‘for the test’.

Well, books have always had indices. It’s the process of search which has been accelerated, and there is no evidence that students would treat a digital medical textbook differently than its paperback version. In fact digital isn’t a replacement for the traditional textbook; it’s an opportunity to augment it. There is a generational shift in the learning styles of medical students, Mihir Gupta writes in a KevinMD article. Digital allows the stodgy textbook to be augmented with visual and multimedia, which will suit certain learning styles. “Innovative digital resources are vital for helping students retain knowledge and simplify difficult concepts”, says Gupta. These new resources are great for quick access to updated medical knowledge, but “it will not replace textbook learning, nor should it”.

Lucien Engelen, Director of the Radboud Reshape Center at Radboud University Medical Center, is currently working on various applications for Google Glass in medicine. He says that the only way to get Google Glass into education is “to make it part of education innovation”. He says, “Take some high profile doctors, professors and nurses and some patients and have them run some tests. All of a sudden the advantages (of Google Glass) seem to fall in place seamlessly”.

Frances Dare is Managing Director of Accenture Connected Health Services, which has partnered with Philips on a Google Glass proof of concept. She agrees with Engelen, cautioning that it is important to create an environment in which experimentation can take place and to understand the type of training needed to prepare clinicians to use Google Glass effectively and safely in practice.

But don’t bet against Google Glass. After all, educators have argued for decades over calculators in math class. Engelen says that he really doesn’t think of Google Glass as something special: it’s just another computer form-factor facing the same barriers of acceptance. It will take some time and discussion over privacy to achieve it, but the new wave is coming.

Source: HIT


How Google Glass could revolutionize medicine

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Here has recently been a slew of media attention to the possibility of an Apple Watch, and the soon to be released Google Glass. For those not familiar with the Google Glass Project, it is essentially a wearable device that mimics eyeglasses.

The hardware includes Wifi and Bluetooth capabilities (can work with Android and iOS devices), cameras, voice-activation commands, and a heads-up display.

This device will find many uses with the general populace, but what about the healthcare field, what does it mean for medicine?

Imagine several medical scenarios using Google Glass:

  • An emergency responder arriving at a motor vehicle accident is able to live stream to the emergency department the status of the patients and the associated trauma suffered to a patient. The ER is then able to assemble and prepare for a patient’s emergency treatment.
  • A surgeon live streams to residents and students a live surgery–so that they can see what work goes into a medical procedure first hand.
  • A visiting nurse seeing a patient in their own home video records and captures images of the patient’s wound (for which they are caring for) and sends them back to the physician.
  • A resident’s physical exam of a patient is streamed back to an attending physician, who can critique their work and make recommendations on questions to ask in real time. This could especially be useful when a resident consultant evaluates a patient while their attending is at home overnight.
  • A cardiologist in a cath lab overlays the fluoroscopy as they perform a femoral catheterization for a patient with a recent myocardial infarct.
  • A nurse scans the medication they are about to give the patient and confirms the correct drug and right patient by overlaying their patient profile with the person in front of them–possibly stopping a medical error.
  • A student brings up their notes and lab reports as they present their patient case to their attending, with data available in real time.
  • An oncologist can overlay the MRI scan over a patient, and show the patient and their family where the cancer exists.
  • The electronic health record at the hospital is available to caregivers, and able to be updated on major changes in the patients they oversee. For instance, the recent cultures from a septic patient’s wound comes back positive for MRSA and the physician changes their broad spectrum antibiotics to appropriate therapy based upon sensitivities.
  • A pharmacist is able to scan medications and verify the proper drugs after comparing the drug with images available in the database, ensuring the right drug is dispensed.
  • A physical therapist can see past sessions with a patient from previous recordings, overlaying their current range of motion, identifying changes as well as progression.
  • Any healthcare professional could walk up to a patient’s bed and instantly see all their vitals such as pulse, BP, O2 Sats, etc.

Could these be major changes that can be implemented by Google Glass or wearable computers? Let’s face it, medicine is changing. We are heavily involved with real time data to treat patients whose status frequently changes. The ability to utilize tools that can keep us connected and up-to-date may help prevent medical errors. It may also increase efficiency of care, collaboration with fellow providers, help educate new students, and lead to a potential major change in medical practice. No longer do we use the black bag of the 19th century physician, but rather we have graduated to using technology to increase our level of care.

Source: Imedical apps


Google Glass surgeon’s new best friend? What one surgeon is saying about tech

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It’s hard to think of a way we live that Google hasn’t touched. And now, you can add surgery to the
list.

It all starts with Google Glass, which lets an expert lend a helping hand in the operating room, even
when he or she is in another state.

At the University of Alabama-Birmingham, orthopedic surgeon, Dr. Brent Ponce, prepared for a shoulder
replacement. Behind his face shield he wore Google Glass — the wearable computer. Its built-in camera
streamed live video of the procedure to another surgeon 150 miles away in Atlanta, where Dr. Phani
Dantuluri not only watched the surgery, but offered a virtual hand.

A ghostly projection of Dantuluri’s hands was superimposed over what Ponce saw on the operating table.
The merged images appeared in Ponce’s Google Glass display.
Asked what it was like when he first put on the Google Glass, Ponce said, “There’s a little bit of a
light bulb experience. We were able to say, not just ‘go left or right’ or ‘up or down,’ but we were
able to say ‘right here,’ ‘right there,’ ‘go faster from here to here’.”

On one day, Ponce and Dantuluri were testing Google Glass paired with VIPAAR, a videoconferencing
platform that allows users to interact with the picture.

It may be another year before the combined technology goes mainstream. Ponce is the only doctor testing
it in surgery.
Ponce said, “With this technology, if I’m struggling, another surgeon is able to say, ‘Hey, get your
head in the game. Let’s do this, let’s do this.’ And they’re able to walk through it together. So it’s a
little bit more of a safety net.”

Asked if it turns surgery into collaboration, Ponce replied, “Without question.”

VIPAAR plans to expand the pilot program to include more surgeons by the end of next year.

Source: cbs news