Portable 3D Scanner to evaluate Elephantiasis Patients

Scientists at Washington College Med school in St. Louis allow us a transportable 3D scanner that will help health workers to quickly assess patients with elephantiasis, a disorder that causes inflamed braches. The scanner enables doctors to determine the amount and size of inflamed braches within the convenience of a patient’s home.

Roughly 120 million people worldwide are afflicted by elephantiasis, a parasitic disease transmitted by nasty flying bugs that triggers significant swelling and deformity from the legs. At the moment, health workers assess the seriousness of the condition utilizing a calculating tape to look for the size of the limb, however this is cumbersome and hard to standardize because the skin could be bumpy and uneven due to the swelling.

The present gold-standard assessment technique involves patients submerging both legs inside a water bath, and in line with the amount of water they displace, doctors can calculate the level of the legs. However, this method is impractical in your home, and needs a trip to a clinic or hospital, something that may be hard for inflamed patients and individuals in remote, low-resource settings.

The Washington College team created a small infrared sensor that may be mounted onto a tablet pc. The machine uses technology much like that present in some gaming systems, which permit gamers to manage a game title using gestures and the body movements. The unit can quickly scan a patient’s legs, and convey an online 3-D renovation from the legs.

The program can calculate leg dimensions and volumes a minimum of as precisely because the tape-measure or water bath techniques. “The most encouraging news would be that the scanner created highly accurate leads to only a small fraction of time from the other tests,” stated Philip Budge, a helper professor of drugs within the Division of Infectious Illnesses at Washington College.

“The checking tool also provides convenience,” stated Budge. “Many patients with inflamed braches frequently have great difficulty traveling using their homes towards the clinic to obtain their measurements taken. The scanner helps it to be easy to take very accurate limb measurements within the patients’ homes or villages, without cumbersome equipment or inconveniencing patients.”

Study in The American Journal of Tropical Medicine and Hygiene: Utilization of a singular Portable Three-Dimensional Scanner to determine Limb Volume and Circumference in Patients with Filarial Lymphedema…

Via: Washington College Med school in St. Louis…

Automatic-Aided Surgery – Current Challenges and Future Directions: Interview with Dr. Mona Orady

Over the past decade . 5, automatic-aided surgery has brought to smaller sized scars, less discomfort, and faster recoveries for patients. Concurrently, surgeons by using this technology have taken advantage of having the ability to perform surgeries inside a much more comfortable position, whilst experiencing greater visualization that has been enhanced precision. Wonderful these benefits, automatic-aided surgeries have become more and more common worldwide, especially in the U . s . States, where greater than 67 percent famous Intuitive Surgical‘s da Vinci robots are set up. Furthermore, just yesterday we covered the Food and drug administration clearance from the Senhance surgical automatic system from TransEnterix, the very first true competitor towards the da Vinci.  (Note: The photos from the automatic system in the following paragraphs have the Senhance, and therefore are thanks to TransEnterix.)

However, just like any disruptive technology, it faces some skepticism and challenges. We at Medgadget were in the MIS WEEK in Bay Area earlier this year and sitting lower with Dr. Mona Orady, Non-invasive Gynecologic Surgeon, Director of Automatic Surgery Services, St. Francis Memorial Hospital, Dignity Health Medical Group, to speak much more about the obstacles facing automatic-aided surgery and it is future.

Medgadget, Kenan Raddawi, M.D: Prior to getting began, inform us more details on your job in automatic-aided surgery and the reason why you made the decision to enter seo.

Dr. Mona Orady: I’ve been doing automatic surgery because the finish of 2007, just 2 yrs following the Food and drug administration approved using automatic aided surgery in gynecological surgery.

I recall the very first patient I’d after i was beginning to include automatic-aided surgery into my non-invasive surgery tool package. She would be a single mom of six children, with three jobs, along with a huge uterus because of fibroids. My first question to her was why have you wait such a long time to find treatment? Why didn’t you will find the surgery earlier? She responded, “Nobody explained which i might have the surgery refrained from taking six or even more days off work. Basically take six days off work, I will lose my job after which the house, and my children is going to be in the pub.Inches That patient is among individuals who helped me be a automatic surgeon, because I saw that automatic surgery could push the boundaries of laparoscopy and non-invasive surgery to incorporate patients who otherwise will not have a non-invasive option.

In automatic surgery, you’ve elevated vision, more precision, and elevated skill. Therefore, I saw the possibility to complete more difficult surgeries utilizing a robot. In those days, I did not be aware of degree that individuals limits might be pressed, however, greater than a 1000 complex surgeries later, I’ve discovered that the majority patients, regardless of how complex, will have a non-invasive surgical option.

Medgadget: What is your opinion would be the primary obstacles and challenges facing the adoption of automatic-aided surgery?

Dr. Orady: The greatest obstacles towards the adoption of automatic-aided surgery happen to be a couple of things: first, the price, and 2nd, working out. You’re speaking to somebody who has been very associated with residency training and education. I helped get the curriculum for residents training in the Cleveland Clinic. I implemented it, and that i helped train the residents within the enter in non-invasive surgery using a mix of didactic teaching, laboratory simulation, and on the job training.

The problem with automatic-aided surgery training is the fact that there’s a real dichotomy. You do not just learn ways to use the instrument, however, you should also learn to carry out the surgery. Whenever we train during residency, and almost in any schools, everyone concentrates on manual skill and becoming to understand the tool. However, just like important, and much more important, may be the knowledge of surgery being an art. If you’re teaching someone how you can paint, you do not provide him a brush and simply tell him ways to use the paint and just what colors to dip in. You need to educate him the idea of 3D depth perception, what lies beneath the surface, the sunlight, shadows, etcetera. It’s the same manner with surgery. We ought to educate the concepts of hemostasis, dissection techniques, and the way to avoid traumatizing tissue, etc. It’s an unfortunate reality that in many Obstetrics and Gynecology residencies, there’s a lot to understand in 4 years – obstetrics, gynecology, primary care, office procedures, automatic surgery – and frequently, one thing that will get neglected is surgical techniques. Because of this , the advent and interest in Non-invasive Surgical Fellowships is growing, and the requirement for the niche to separate as numerous others did, has become more apparent.

Medgadget: What are the technical/logistic factors that restrict the performance of automatic-aided surgery?

Dr. Orady: Let’s first discuss what many people working in the area of automatic surgery usually explain as missing or restricting factors, after which, discuss things i personally want after i execute a automatic-aided surgery. Lots of surgeons explain the truth that in automatic aided surgery, it’s not necessary haptic feedback. You lose a feeling of touch. In my experience, that has not been a large issue because after you have done this most cases, it become super easy to get the capability to feel with an alternate feeling of vision, so known as “visual hepatics”, and so i don’t take into account that being an issue. The publication of the size the robot and seeking to pier it’s been improved with newer models. A few of the newer surgical robots which are being developed are smaller sized, slimmer, and outfitted with longer arms to achieve the surgery site while allowing employees to gain access to the individual within an simpler way. When it comes to energy, In my opinion all automatic companies need to pay attention to their energy application. I helped write articles about the way forward for energy, and for me, while sticking with just traditional monopolar and bipolar energy is ok. But, automatic companies really should enter into the advanced bipolar energy, I’m not speaking concerning the sealing, cutting techniques, however i am speaking about advanced impedance recognition, having a pulsed waveform, and modifying the kind and creation of energy towards the tissue reaction. We view that Intuitive Surgical had the PK energy within their Si system and required them back their new Xi system. I have faith that is really a mistake, once we should not go backwards and really should always attempt to move towards using more complex energy for the patients.

Medgadget: What’s the one factor you want you’d any time you sit lower at the da Vinci console?

Dr. Orady: Undoubtedly If only for smaller sized instruments. Eight millimeters continues to be pretty big, especially since i have perform Microlaparoscopical and Minilaparoscopical surgery. I personally use 3 millimeters instruments in traditional laparoscopic procedures. Jumping from three millimeters – almost a scarless cut – to eight millimeters cut is exactly what sometimes steers me more lower the laparoscopy route as opposed to the automatic-aided route. The 2nd factor that If only I’d is really a dedicated and trained team. A passionate automatic team is among the most significant things for efficiency inside a automatic-aided procedure. The robot differs from other traditional surgical treatments. It’s a pc-based product, there’s lots of troubleshooting happening, and you need to be capable of working through and connect error messages efficiently. Therefore, to optimize the part from the robot, you’ll need somebody that is actually savvy in modifying things perfectly and rapidly.

Medgadget: Intuitive Surgical has already established without any competitors during the last decade. Do you consider this can change in the near future?

Dr. Orady: It certainly can change. It can’t stay like this forever. The da Vinci robot has been available since 1999, so almost twenty years. New automatic companies happen to be focusing on their robots for maybe ten years or even more although, not one of them happen to be Food and drug administration approved yet however, many are extremely close. [Note: this interview was conducted before the Food and drug administration clearance of Senhance from TransEnterix] Actually, another product is presently getting used in Europe and could be Food and drug administration approved over the following couple of days to several weeks. Now you ask ,, can they get caught up? Maybe, and many likely, most likely. Intuitive Surgical hasn’t really innovated much within the last ten years. They almost stored everything exactly the same, as well as when i pointed out before, go backwards sometimes, like removing advanced bipolar energy using their new Xi system. Also, Intuitive Surgical is focusing more about moving towards single port surgery rather of concentrating on smaller sized instruments. For me, this might not always be to right direction, owing to single port surgery, you finish track of a larger, more painful cut, and research has proven that. In my opinion future automatic firms that will concentrate on smaller sized incisions, while keeping the truth and vision, are the type which will succeed later on.

Medgadget: What is the way forward for automatic surgery? Do you consider Artificial Intelligence (AI) can lead to automatic-aided surgery? Shall we be moving towards more automation during these kinds of surgeries?

Dr. Orady: In my opinion tissue is extremely dynamic. You will find a lot of variables – the effectiveness of the tissue, the feel, and just how it stretches and reacts to tension and is very variable person to person. It’s an excessive amount of data to input right now to think that AI can completely dominate. Artificial intelligence will certainly help guide to our hands and eyes when we’re performing the process using overlapped imaging or any other recognition methods.

I have faith that in very specific procedures, like placing stents or perhaps in valvuloplasty, where it’s a fairly straightforward procedure with minimal steps, we may see more automation utilizing artificial intelligence. However, when it comes to intra-abdominal pelvic surgery, the variability and dynamic variation in anatomy make these kinds of surgical treatments really complicated so that you can automate. It is not easy enough to educate human brains how to sit in variables in anatomy and also the dynamic facets of tissue reaction and also to adjust and vary technique for everybody situation because the situation progresses. Thus, outdoors of utilizing AI to assist locate anatomy or educate people how to sit in the dynamic movement from the tissue, it might be hard to depend onto it to really carry out the procedures. I’m not going to say never, however i believe the quantity of investment you need to place in will far exceed the price of purchasing training good surgeons and teaching them ways to use the information which we are able to obtain using advanced imaging and advanced energy to merely perform better, better, and fewer invasive surgery.

Also, In my opinion what’s going to happen later on in surgical treatment is consolidation. We can’t educate 100 1000 physicians to do countless procedures. I believe everyone will probably be great in a couple of things and merely repeat individuals procedures. Repetition is essential. For surgeons making them repeat exactly the same surgery again and again, they will improve. Should you perform a hysterectomy monthly versus ten per month, the advance rate is going to be exponential. It’s just like a pianist who practices a bit of music daily versus monthly.

Yes, robots will end up more automated in performing some things, like real-time imaging. But, will a surgical procedure be practiced completely by AI with no surgeon? I believe at this time we’re too much from this.

Flashback: The Possible Future of Surgical Robotics: Interview with Chief executive officer of TransEnterix… TransEnterix Will get Food and drug administration Clearance for Senhance Surgical Robot…

Trapping Cancer Helps you to Study Dormant Cells and the way to Kill Them


Cancers frequently return following effective treatment, a procedure a minimum of partly because of the fact that dormant cells, that are particularly resistant against common therapies like chemotherapy, remain in your body. They’re elusive and for that reason hard to study, so progress on targeting such cells continues to be limited.

Now scientists at College of Minnesota-Twin Metropolitan areas allow us a method to choose dormant cancer cells using their company cancer cells and to ensure that they’re within their quiescent condition to be able to study them.

The process includes placing cancer cells inside a silica-poly(ethylene glycol) material that stops cells motionless about and proliferating. This stresses cells inside a unique way, but provides them an opportunity to survive because the silica-poly(ethylene glycol) is built to be porous so nutrients are given towards the cells.

Before long, typical cancer cells died off, while cells that can become dormant remained alive. Removing live cells three days once they were encapsulated created an origin of dormant-only cells. When these cells were then put into a medium appropriate for reproduction, they did indeed grow and proliferate within days.

Study in journal Technology: Immobilization platform to induce quiescence in dormancy-capable cancer cells…

Via: World Scientific Publishing…

Editors

At Medgadget, we set of the most recent medical technology news, interview leaders within the field, and file dispatches from medical occasions from around the globe.

Nitric Oxide Supplement Absorbing Hydrogel Releases Drugs to battle Rheumatoid Arthritis Symptoms, Other Illnesses


At the Institute for Fundamental Science in Daejeon, Columbia, scientists allow us a hydrogel that reacts to the existence of nitric oxide supplement (NO) and releases drugs when so activated. This sort of drug delivery system might be particularly effective for the treatment of rheumatoid arthritis symptoms, as immune cells within inflamed joints release toxic NO in big amounts. Injecting a gel that positively reacts to inflammation, absorbs NO, and immediately delivers anti-inflammatories or any other drugs may permit automatic lengthy-term charge of inflamed joints. Exactly the same applies with other illnesses and types of conditions involving inflammation.

The gel puffs up when nitric oxide supplement is within its atmosphere, but stays in the original shape regardless of what other gas exists. Because it puffs up and traps the toxic NO, it may be designed to release drug molecules embedded within its volume. The quantity of the discharge of the medication is effectively proportional to the consumption of NO.

A comment in the Institute for Fundamental Science explains a few of the details:

NO is really a transient gas, which stays in circulation for under ten seconds, before binding with other molecules. The study team created a gel attentive to such fugitive molecules, using acrylamide like a base material along with a new crosslinker to help keep it in position. Unlike the monomeric form, polymeric acrylamide hydrogel has little toxicity and may contain a lot of water. Additionally, the mix-linking agent (NOCCL) forms bridges between your acrylamide molecules developing a internet, which could trap drug molecules inside. When NO cleaves the NOCCL bridges, the gel changes its structure, frees the drug and absorbs new liquid.

Study in journal Advanced Materials: Therapeutic-Gas-Responsive Hydrogel…

Via: Institute for Fundamental Science…

Editors

At Medgadget, we set of the most recent medical technology news, interview leaders within the field, and file dispatches from medical occasions from around the globe.

Abbott Releases Proclaim DRG Dorsal Root Ganglion Stimulator for Chronic Discomfort


Abbott is releasing within the U.S. its Proclaim DRG neurostimulation system to battle chronic discomfort in patients with complex regional discomfort syndrome within their legs. The merchandise includes an implantable neuromodulator that energizes the dorsal root ganglion (DRG), an Ipad for programming the unit, as well as an ipod device touch for that patient charge of the unit. Inside a recent medical trial, dorsal root ganglion stimulation has proven markedly better outcomes over spinal-cord stimulation in lots of patients struggling with chronic discomfort within the lower extremities.

Bluetooth wireless connectivity can be used to alter the settings around the implant and also to control just how much stimulation it ought to administer. The program aboard the implant may also be updated wirelessly.

When compared with Abbott’s first generation DRG neurostimulator, the Axium, the brand new Proclaim DRG implant includes a greater battery existence, making it used continuously longer without substitute.

Being MR-conditional, patients using the Proclaim DRG implant can continue to receive magnetic resonance scans (as much as 1.5 Tesla), as lengthy as certain safeguards are taken.

“Both clinical and real life data have proven that DRG stimulation produces lengthy-term, significant discomfort relief for patients with complex regional discomfort syndromes – like individuals resulting after total knee arthroplasty, feet surgical procedures or hernia surgery,” in Abbott’s announcement said Timothy Deer, M.D., an interventional discomfort physician, president and ceo from the Spine and Nerve Center of the Virginias in Charleston, West Virginia, who studied the unit. “The capability to offer DRG stimulation around the Proclaim platform is an extremely exciting advancement for individuals people who treat patients using these debilitating conditions and wish to provide respite from hard-to-treat neuropathic conditions.”

Product page: Proclaim DRG Neurostimulator…

Via: Abbott…

Editors

At Medgadget, we set of the most recent medical technology news, interview leaders within the field, and file dispatches from medical occasions from around the globe.

Ultrasound System Maps Tongue Movement to assist with Speech Therapy

A group of French researchers is promoting a specialized ultrasound method to allow individuals to visualize the form from the tongue during speech. This “visual biofeedback” system may help with speech therapy.

At the moment, speech therapists will pay attention to someone’s pronunciation, and employ diagrams to assist let you know that to put the tongue within the mouth to create specific sounds. How easily someone can place a speech therapist’s advice into practice depends upon how easily they are able to comprehend the instructions and apply them to their personal speech.

For something similar to positioning the tongue within the mouth, it can be hard to follow along with advice whenever you can’t see that which you nor your counselor do. This latest device enables patients to determine their tongue position with regards to their throat and mouth, instantly. The concept would be to allow individuals to correct pronunciation problems faster and supply a reference for speech therapists to assist guide patients toward correct pronunciation.

The process involves placing an ultrasound probe, much like probes utilized by doctors to see the center, underneath the jaw. The machine then analyzes the movements from the tongue to produce an “articulatory speaking mind,” which supplies a graphical representation on screen from the face, lips, tongue, palette, and teeth.

To date, they has tested the machine within the laboratory using healthy loudspeakers. However, they’ve now begun a medical trial for patients who’ve gone through tongue surgery. Other applications include helping individuals to become familiar with a second language.

Visit a video from the system here:

Study in journal Speech Communication: Automatic animation of the articulatory tongue model from ultrasound pictures of the vocal tract…

Via: The Nation’s Center for Scientific Research…

HeartyPatch, a wide open-Source ECG for Heartbeat and Heartbeat Variability Tracking


Team Protocentral, a wide open source hardware firm from Bangalore, India, is raising crowdfunds to produce its HeartyPatch device. The HeartyPatch is really a single lead ECG patch that may track the center rate and heartbeat variability (HRV) when stuck towards the chest. Similar devices happen to be developed and commercialized formerly, however the HeartyPatch provides free accessibility software running it, allowing anybody to apply it for unique use cases.

The HeartyPatch features Bluetooth connectivity included in the little device, so data can be simply transferred onto tablets and computers for in-depth analysis. The whole device was made from inexpensive components, which makes it affordable in price conscious applications.

It’s all set to go as they are, so anybody may use it to trace the center rate and it is variability. Besides this being helpful for athletes, but cardiac arrhythmias can also be diagnosed with the aid of this product.

Listed here are the 4 available modes the devices can be employed in:

  • Continuous ECG streaming mode displays live ECG recording in the chest. This works much like a heart-rate monitor. Here is a screen capture from the device employed in ECG mode.
  • Beat-to-beat mode can be shown by flashing the on-board Brought or stream live, immediate heartbeat over BLE for fast recognition of alterations in inter-beat times.
  • Arrhythmia recognition mode runs the arrhythmia formula in tangible-some time and detects occasions of AFIB.
  • Heart-rate variability mode can be obtained when HeartyPatch is attached to the desktop application, which displays the cardio-tachogram (CTG), Poincaré plot (variance), and histogram of inter-beat times. Here is a plot of information obtained from an ECG simulator that’s physically attached to the HeartyPatch.

Here’s a brief video demonstrating the HeartyPatch:

Crowdfunding campaign: HeartyPatch…

Editors

At Medgadget, we set of the most recent medical technology news, interview leaders within the field, and file dispatches from medical occasions from around the globe.

Genetically Programmed Bacteria Come To Be Electronics

For those that fear the effects of genetic engineering and related fields, it’s time for you to dial up to eleven. That’s because researchers at Duke College have finally shown that they’re in a position to genetically modify bacteria to coax these to produce electronics, potentially leading to a different and surprising method for to interface with this physiques. The investigators’ first system is a microbial pressure sensor that, when squeezed, generates enough current for simple recognition.

Formerly, similar studies have trusted scientists to steer the development of the bacteria using containers of various shapes or via exterior stimuli for example electricity. The brand new development involves programming the development from the colony into the DNA from the bacteria, what is known a “synthetic gene circuit,” and governing the nutrients provided into it to create the preferred shape and size from the final object.

To make the ultimate result into a digital device, the bacteria are given an eating plan wealthy in gold nanoparticles. These nanoparticles get distributed through the colony because it grows, and supply the electrical conductivity essential to make electronics.

Some details based on Duke College:

The genetic circuit is sort of a biological package of instructions that researchers embed right into a bacterium’s DNA. The directions first tell the bacteria to make a protein known as T7 RNA polymerase (T7RNAP), which in turn activates its very own expression inside a positive feedback loop. Additionally, it creates a small molecule known as AHL that may diffuse in to the atmosphere just like a messenger.

Because the cells multiply and also be outward, the power of the little messenger molecule hits a vital concentration threshold, triggering producing two more proteins known as T7 lysozyme and curli. The previous inhibits producing T7RNAP as the latter functions as kind of biological Velcro that may latch onto inorganic compounds.

Here’s a relevant video demonstrating the microbial pressure sensor:

Study in Nature Biotechnology: Programmable set up of pressure sensors using pattern-developing bacteria…

Via: Duke…

Improved Brain Organoids for Zika Virus Research

Researchers at UCLA allow us a means to produce improved brain organoids, or “mini brains,” they claim mimic the dwelling from the mind more carefully than previous attempts. The investigators used the organoids to review the way the Zika virus infects and destroys brain tissue, and identify potential treatments, however the small brains may be helpful in studying nerve/neurodevelopmental disorders, for example autism, epilepsy, and schizophrenia.

Brain organoids happen to be included in Medgadget formerly. However, what sets the brand new organoids apart may be the researchers’ claims they more carefully mimic the dwelling from the mind than previous attempts. Like previous tries to make organoids, the study team began with human pluripotent stem cells, which could create any cell enter in the body. However, they used an enhanced quantity of pluripotent stem cells, specialized petri dishes, along with a growth factor known as LIF to stimulate cells to build up into brain organoids.

Organoids before (left) after contact with Zika (center), after treatment (right).

The team’s organoids possess a layered structure that resembles a persons brain’s onion-like layers. Mimicking the cortex within the mind, the organoids contain a number of cell types which are present in this brain region. Cells can talk to one another electrically, much like neural systems within the mind.

“While our organoids are by no means near to being completely functional human brains, they mimic a persons brain structure a lot more consistently than other models,” stated Momoko Watanabe, a UCLA investigator active in the study. “Other scientists may use our techniques to improve brain research since the data could be more accurate and consistent from experiment to experiment and much more similar to the actual mind.Inches

They used the organoids to know the way the Zika virus destroys neural stem cells within the tissue, that are crucially essential for brain growth during fetal development. By exposing the Zika-infected organoids to many drugs, they found three that may steer clear of the virus from entering brain tissue, suggesting they could be appropriate as treatments.

Study in Cell Reports: Self-Organized Cerebral Organoids with Human-Specific Features Predict Effective Drugs to Combat Zika Virus Infection…

Via: UCLA…

Small Breath Acetone Sensor to determine Fat Loss During Exercise, Help Monitor Diabetes

Individuals wishing to shed weight need to watch their diet program, however for optimal results they likewise have to lose existing fat within their physiques by exercising. Anywhere of exercise simply won’t do, as excess fat only burns when pressed to do this by specific physiological situations. Therefore, it might be nice to understand that one’s being active is really experienceing this fat loss goals.

It’s been known for some time that whenever we burn built-up fat, the acetone within our breath increases in concentration. Furthermore, acetone is another biomarker that tracks carefully with one’s bloodstream blood sugar levels, which makes it potentially helpful in an effort to identify and monitor diabetes.

Calculating the amount of acetone in one’s breath is tough, though, due to the high-moisture amount along with other breath components that comes with it, confusing most sensors. Researchers at ETH Zurich in Europe have finally created a small, highly accurate acetone breath sensor that could soon function as a core to keep fit wearables and diabetes diagnostic devices.

The brand new sensor, about how big a gold coin, is really selective it detects acetone without other chemicals present in our breath. Furthermore, it detects individual molecules of acetone per 100 million areas of anything else, a remarkable degree of precision.

We’ve got the technology was tested on volunteers riding a fixed bike outfitted using the breath sensor. It labored very well the scientists could reveal that, unlike that which was formerly believed, many people begin losing fat right after beginning to workout. Formerly, it had been believed that everybody needs to get going for a long time prior to the body will get to power it with body fat.

Here’s an ETH Zurich video concerning the new sensor:

Flashbacks: Accurate Acetone Measurement in Breath for convenient Diabetes Diagnosis… LEVL Measures Acetone in Breath to Identify Excess Fat Burning… New Acetone Breath analyzer May Replace Bloodstream Glucose Testing for Managing Diabetes… New Exhaled Breath Sensor to Place Illnesses, Monitor Health… Portable Acetone Detector to assist Monitor Fat Loss During Exercise… Breathalyzer Tech: Acetone Nanosensor Could Measure How Good You Manage Your Diabetes… New Breath Sensor for Indirect Glucose Monitoring, Cancer Detection…

Study in journal Analytical Chemistry: Noninvasive Excess Fat Burn Monitoring from Exhaled Acetone with Si-doped WO3-sensing Nanoparticles…

Via: ETH Zurich…