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It's dead money. You would think with AI Craze that Caren would move to get the iTbra to market, but she has some health issues and is more concerned on how to buy bitcoin.
Even https://acropolisllc.net/ is dead!
https://cyrcadia.asia/ back online!
Wearable Technology: Definition, Examples, Top Companies In 2021
22 JULY 2021
iTBra mentioned.
https://thevou.com/fashion/wearable-technology/
GetSer's negativism is only worry and anxiety disguised as knowledge.
Rescind Agreements with Cyrcadia Health and Cyrcadia Asia. It was never in our shareholder interest to enter into any agreements with either one of them. It is time to rescind all agreements! Both have been allowed ample time to bring the product to market and have failed to deliver. It is time to end these agreements and restore all of our shareholder value! Acropolis Capital should be prioritizing ending them for non-performance!
Artificial Intelligence in Medicine Market 2021
Key Companies Analysis- IBM, Atomwise, Zebra Medical Vision, Cyrcadia Health, AiCure, etc.
https://bisouv.com/uncategorized/4311658/artificial-intelligence-in-medicine-market-2021-size-share-industry-trends-growth-development-status-future-plans-analysis-by-2027-key-companies-analysis-ibm-atomwise-zebra-medical-vision-cyr/
Smart Underwear Market: Billion Dollar Global Business
Major Players in This Report Include, Victoria’s Secret (United States),Chromat (United States),Greenyarn (United States),Toray Industries, Inc. (Japan),New Textile Technologies GmbH (Germany),GUNZE LIMITED (Japan),Cyrcadia Health, Inc. (United States)
https://www.flanewsonline.com/smart-underwear-market-billion-dollar-global-business-with-unlimited-potential-victorias-secret-chromat-greenyarntoray-industries/
2021: It's also in the book.
Chapter 12 A Survey on Early Detection of Women's Breast Cancer Using IoT from the book AI Innovation in Medical Imaging Diagnostics
Click on the link below and click on preview on first result, then scroll down to page 216 and 217.
https://www.google.com/search?tbm=bks&q=A+Survey+on+Early+Detection+of+Women%27s+Breast+Cancer+Using+IoT
2021: A Survey on Early Detection of Women's Breast Cancer Using IoT
iTBra on pages 216 and 217.
https://www.igi-global.com/chapter/a-survey-on-early-detection-of-womens-breast-cancer-using-iot/271755
Mammography is the current gold standard diagnostic tool for breast cancer screening. But screening mammography has an important limitation: its results are significantly less accurate in women with dense breast tissue. Breast tissue density is a recognized medical condition that affects more than 40% of women worldwide. Dense breast tissue consists of less fat and more connective/fibrous and glandular tissue, and ranges in severity from Level A (fatty) to Level D (extremely dense) As the density of a breast increases, the ability of the mammogram to reveal cancer decreases. Because both dense breast tissue and breast cancer appear white on mammography images, finding cancer in these dense tissue breasts is akin to looking for a distinct snowflake in a snowstorm. The cancer risk in women with extremely dense breasts is up to 6 times higher compared to normal/fatty tissue and shows a much more rapid acceleration of the condition, Still, 70% of breast biopsies that are conducted as a result of suspicious findings on a mammogram are performed on non-cancerous tissue The staggering numbers of such unnecessary biopsies could be reduced with improved diagnostic screening in women with dense breast tissue.
One recent development, however, has really captured my attention because of its potential to help with the early detection of breast cancer. That's the idea behind the connected bra-dubbed the "iTBra" by its inventor, Rob Royea, CEO of Cyrcadia Health. With embedded temperature sensors, this new kind of wearable technology tracks changes in temperature in breast tissue over time. It uses machine learning and predictive analytics to identify and classify abnormal patterns that could indicate early-stage breast cancer. And women will be glad to know that they just need to wear the ITBra for 2 to 12 hours once a month as they go about their daily activities- there's is no painful squashing or prodding or radiation involved. It promises to reduce the emergency room wait time, track patient data accurately. and manage healthcare inventory. All these functions will improve the efficiency of the healthcare sector to an unimaginable extent.
The iTBra is composed of two wearable breast sensor patches, flexible and intelligent, they detect dynamic circadian temperature changes within the breast tissue. In contrast with mammography and ultrasound, which rely on specular reflective capabilities of varying tissue densities, the Cyrcadia Health Solution is tissue agnostic and is able to detect early circadian cellular changes in all tissue types and varied age groups. The abnormalities in the circadian rhythm-based temperature variances of cell cycles are present at the earliest stages of abnormal cellular growth and proliferation and serve as the early indicators of breast cancer. Exclusively patented predictive analytics technology identifies these abnormal cellular changes and reports results to the healthcare provider, used to assist in their clinical decision process.
Is this Royea's WAZI mental health thing? If so, Rob Royea looks younger!
https://meaningful.business/team/alex-royea/
How Ai Will Cure Cancer
https://cute766.info/how-ai-will-cure-cancer/
How Ai Will Cure Cancer
https://cute766.info/how-ai-will-cure-cancer/
Artificial intelligence has certainly contributed to many new breakthroughs in cancer treatment but it cannot cure terminal cancer as of now. of course, it can lead to early detection and diagnosis which is also a question of life and death for the patients. as for curing terminal cancer in the future?. Health science technology can artificial intelligence help to detect and cure cancer? at the usc michelson center for convergent bioscience, fei sha will bring an expertise in ai and his. Ai enters the fight to cure breast cancer in march of 2020, some positive news was buried in virus panic: using advanced stem cell technology, doctors cured a second man of hiv . in june, researchers released a new combination drug, a “truly life transforming” treatment for cystic fibrosis patients . Artificial intelligence, programming, technocracy would super ai cure cancer — or destroy the earth? max planck institute computer scientists say that we not only don’t but can’t know news february 8, 2021 artificial intelligence, programming, technocracy. Ai can also help customize treatment plans for patients with complex cancers, which some cancer data sharing platforms have begun offering. “there are more than 100 types of cancers with different.
An aromatase inhibitor is the best hormonal therapy to start with. when treating early stage, hormone receptor positive breast cancer, aromatase inhibitors have more benefits and fewer serious side effects than tamoxifen. Identifying the genes that are highly expressed in different tumours, and identifying the biological affect of their gene expression in a patient, is extremely crucial to designing specific treatments to help cure diseases such as cancer. Artificial intelligence (ai) in the form of machine learning is increasingly used in cancer research and holds great potential in support of medical diagnostics. algorithms have already been. Ai is already used to diagnose cancer and track its progression. now scientists developed a tool which can detect tumour morphological features typical for breast cancer cases with erbb2. Scientists in nci’s intramural research program are leveraging the capabilities of ai to improve cancer screening in cervical and prostate cancer. nci investigators developed a deep learning approach for the automated detection of precancerous cervical lesions from digital images. read more about this in mark's story.
Ai already is delivering breakthroughs in cancer diagnosis, but even optimists believe a cure is a decade away. Ai & cancer treatment research in the potential for ai to treat cancer is less progressed than in detection and diagnosis. several forays into treatment planning have been made by big name computing researchers like the ibm watson team and google's deepmind division. Artificial intelligence also holds a fair share in the future of technology in the healthcare sector. it is predicted that in future ai could assist doctors with cancer research, detection, and care. opportunities in diagnosis and treatment. the combined forces of ai and iot can help to cure cancer and save a considerable number of lives each year. Microsoft wants to use ai and machine learning to discover a cure for cancer "making a difference in health care will require all that microsoft can bring." 11. Cancer commons founder marty tenenbaum, phd, speaks at the precision medicine world conference (pmwc) in silicon valley on january 23, 2018. learn more: http.
Mark Zuckerberg Defends Ai Because It Could Cure Cancer
Mark Zuckerberg Defends Ai Because It Could Cure Cancer
Cancerai develops artificial intelligence technology to dramatically improve cancer prevention, detection, and treatment. our mission is to solve cancer and save lives. artificial intelligence is beginning to help predict cancer risk, detect cancer earlier, improve existing treatments, and accelerate new drug discovery. Sha currently partners with dr. david agus, the founding director and ceo of the lawrence j. ellison institute for transformative medicine, to develop a technology platform that would analyze tissue samples to diagnose breast cancer and yield more information, like cancer outcome and response to treatment.it would do so by leveraging machine learning, feeding a computer enough biopsy data. Ai and iot can improve cancer treatment. consumer technology companies are also in the midst of creating wearable technology that can help detect and diagnose cancer with the help of ai and iot. cisco is currently working with the ceo of circadia health to develop a bra that could help detect early signs of breast cancer. known as the itbra, it. To summarize these findings, ai researchers and clinicians will accelerate oncology research in three main ways: by further developing and integrating existing cancer registries, from the local to the international level. these are analyzed and interpreted for a better understanding of cancer mechanisms (from common to rare cancers). Ccipd researchers have preliminarily validated an ai tool to predict how likely the disease is to recur following surgical treatment for prostate cancer.
How Ai Will Cure Cancer
The team developed an ai solution that is able to extract vital clues about breast cancer by learning to spot patterns in images of tumors, using a cheap and widely available imaging process. naik. Described as a "once in a generation" discovery, google's deepmind ai has finally solved the riddle behind protein folding, promising better answers to diseases like cancer and covid 19. Cure cancer using ai. diagnosis. using advanced machine learning techniques to diagnose cancer in early stages. prevention. find out a combination of causing agents and lifestyle changes which would help prevent getting cancer. cure. using advanced machine learning techniques to find targeted treatment for cancer. Fiona nielsen, founder and ceo of repositive.io (a genomic data company), believes ai curing cancer is a way off, but possible if people get involved; “to ‘really find a cure’ it is. Some researchers are working diligently to try and find a cure for cancer. university of hawai'i cancer center researchers developed a computational algorithm to analyze data obtained from tumor.
To LLBO Bears---
To all the heroes that spend countless hours speaking, as they say, the truth and fraud of the stock, just to save investors a few pennies. We all know you have some skin in the game or why else would you spend time degrading a less than a penny stock! Otherwise, you lost substantially and are like a scorned wife that can not let it go! I would hope that it's because you have a vested interest in convincing others to sell, while you buy the very stock, you spend hours on discrediting. Otherwise, heroes would your time not be better spent talking about the froth in stock valuations and the Bitcoin Ponzi scheme.
It means the study has already recruited all subjects needed, and no further subjects are needed at this time.
Terrific! Very Encouraging!
To All My Fellow Longs, not selling a single share till the iTBra comes to market, saving the lives of countless women, and introducing a new age in medicine! The future is upon us, and the game-changing iTBra is imminent!
Email from Holmes from Twitter
https://twitter.com/BlueBullTrading/status/1363856875326906370/photo/1
IOT WEARABLES AND MEDICAL DEVICES FOR HEALTHCARE IN 2021
https://blog.techliance.com/iot-wearables-and-medical-devices-for-healthcare/
The Health Data Explosion video by RBC Capital Markets.
Click on Start Watching and Timestamp 1:16 has the CyrcadiaHealth Logo
https://www.rbccm.com/en/gib/healthcare/episode/the_healthcare_data_explosion
French Article "Will artificial intelligences beat cancer?"
https://www.esanum.fr/today/posts/les-intelligences-artificielles-vaincront-elles-le-cancer
Joris Galland is a specialist in internal medicine. After having worked at the Lariboisière hospital (AP-HP) he joined the CH Bourg-en-Bresse. Passionate about new technologies, he proposes in our blog " Connexion (s) " to explain the issues to us.
Cancer is the second leading cause of death in the world. With 8.8 million deaths in 2015, it is responsible for nearly one in 6 deaths. 1 In France, the overall number of new cancer cases has been increasing every year for the past thirty years. In question, the extension of life expectancy (explosion of cases of breast or prostate), behavioral and environmental factors but also the improvement of diagnostic methods.
Cancer is for some the failure of modern medicine . However, medicine has made significant progress in cancer screening (PSA assay), their diagnosis and targeted treatments of neoplastic cells. In the space of half a century, scientific research has succeeded in significantly improving the prognosis of certain cancers with the advent of biotherapies and gene therapies. Without forgetting the major role of prevention and / or screening campaigns. Artificial Intelligence (AI) is expected to revolutionize oncology in the next ten years. Here's how.
Pixels and "wearables"
Early detection of cancer is essential for improving the prognosis. The speed of diagnosis in imaging is already revolutionized by AI. While it takes ten years of training for a human brain to learn radiology, an AI from Google manages to dethrone the best radiologists in the diagnosis of lung cancer after only a few days of training. 2
Finally, what could be easier for an AI? The computer can image pixel by pixel, the human eye and brain cannot. Thanks to its analytical precision and deep learning, AI becomes an ally of the radiologist. In 2019, in the journal Nature , a team of researchers presented an algorithm for predicting the risk of lung cancer from low-dose CT images. When no previous image was available, the AI ??did better than the radiologist with a 5% reduction in false negatives.
Connected clothing (or wearables ) is another innovation, at the crossroads of the Internet of Things and AI. Do you know the bra that detects breast cancer? The American laboratory Cyrcadia offers a prototype called iTbra ™. This gilet-bra allows the detection of breast cancer at early stages with at least as much sensitivity as a mammogram. 3
Comprised of two smart breast patches placed in a bra, this wearable identifies temperature changes in breast tissue. Machine learning predictive analytics AI helps identify and classify abnormalities in breast tissue. In the event of an abnormality, the system will warn the patient to go see a doctor to perform the appropriate imaging examinations. The first results are promising and certification is in progress.
If this system is so good, why not use the same technology with a connected underwear that would detect cancer of the genitals? Or a T-shirt that would detect the presence of tumor? It sounds like science fiction, but the field of wearable is making great strides . The Hexoskin 4 t-shirt can already assess the patient's vital parameters, respiratory volumes, quality of sleep, etc. The device has been tested in Covid-19 patients, as part of home rehabilitation or in research work.
The contributions of the genome
The hope of oncologists does not rest only on the very early diagnosis of the first cancer cells. Ideally, this would be to improve the prediction of cancer , even before the formation of the first cancer cell. This is where advances in genetics come in.
In the 1990s, top researchers claimed that the human genome would never be sequenced, or not for hundreds of years. Advances in computer science have made this feat possible: some machines only need four hours to sequence the entire human genome and for only a few hundred dollars (this is called “NGS”, for Next Generation Sequencing ). In the next ten years, the sequencing speed is expected to improve exponentially and at modest costs.
If the sequencing of the genome is no longer a problem, the interpretation of the masses of data generated becomes problematic. No geneticist is able to interpret this flow of information. This is where AI comes in. A large genomic study carried out on nearly 10,000 women with ovarian cancer identified a common genetic variant that increases the susceptibility to tumor occurrence by 20. at 40%. 5 With NGS, it would be possible to screen for this variant in women, from birth, and to offer them close follow-up if necessary. We are no longer far from the world of the film Bienvenue à Gattaca ; a legal framework becomes essential.
From pharmacovigilance to relapse detection
AI allows, among other things, the analysis of big data. They have the ability to make links between a risk factor and cancer, even though the human brain would not have thought of it . For example, an AI has highlighted the link between the drug pioglitazone (antidiabetic) and bladder cancer, leading to withdrawal of the drug. If this algorithm, which only takes a few minutes to train, were deployed on a large scale, it would allow a real revolution in pharmacovigilance with the detection of side effects in near real time.
One of the roles of the oncologist is to predict and diagnose the risk of relapse of cancer in remission: here again, new technologies will be of great help. The MOOVCARE POUMON application is an application that detects a potential relapse of lung cancer. 6 Every week, it analyzes the evolution of symptoms using a questionnaire completed by the patient.
This application uses an algorithm that achieves a relapse detection sensitivity close to 100%. Above all, these can be detected five to six weeks earlier than scanners, conventionally performed every three months. The referring oncologist is then directly alerted. Tests are under study for breast cancer, kidney cancer, prostate cancer and lymphoma. Thanks to its efficiency and the actual benefit, the application is validated by the HAS and supported by social security.
A market opening up to web giants
This list of connected health projects in oncology is not exhaustive. Many other start-ups are constantly working to improve the prediction, early detection, diagnosis and treatment of cancers. The determining element, for these companies, is the collection of big data. This factor is not limiting for American GAFAMI or Chinese BATX. The giants of the web are therefore interfering more and more in the field of cancerology.
As we have seen, IBM is starting to diagnose rare cancers and identify the best treatment thanks to its super AI Watson . For its part, the biotechnology laboratory of Google X, named "CALICO", would work secretly on a project of Immortal Man, via the famous "DNA scissors" CRISPR-Cas9. The idea here is to increase humans by modifying their DNA so that they no longer fall ill. Once again, the establishment of a legal framework becomes urgent, if we do not want to fall into eugenics.
Google is also working on a nanoparticle that could diffuse into the blood in order, for example, to find cancer cells or fight them. This nanoparticle could even communicate directly with the person's watch to alert them in case of discovery of a disease. 7
Tencent, the Chinese multinational which operates the WeChat messaging application in particular, wanted to position itself in force. In 2017, it launched Artificial Intelligence Medical Innovation System (AIMIS), a medical imaging system based on artificial intelligence. AIMIS allows the screening of several diseases, including diabetic retinopathy and certain cancers. The system, currently undergoing clinical validation in around 100 hospitals in southern China, has enabled doctors to analyze more than 100 million images. According to the company, the image recognition accuracy rate is 90% for esophageal cancer and 97.2% for colorectal cancer. The punching power of these giants, while unfair to small businesses, will undoubtedly allow for dramatic advances in oncology.
And you what do you think ? Will cancer soon be a rare disease thanks to AI?
Co-inventor of iTBra
Dr. Eddie Ng is an Associate Professor at the School of Mechanical & Aerospace Engineering, NTU. He has published over 370 papers in SCI-IF international journals (255), international conference proceedings (117), textbook chapters (83) and others (22). He has co-edited 10 books and also co-authored a text book: "Compressor Instability with Integral Methods" published by Springer (2007). He is the Editor-in-Chief (lead) for the ISI Journal of Mechanics in Medicine and Biology; Founding Editor-in-Chief for the ISI indexed Journal of Medical Imaging and Health Informatics; Strategy Assoc. Editor-in-Chief for World Journal of Clinical Oncology; associate editor of eight referred international journals and guest editor for the Int. Journal of Computer Applications in Technology, Computational and Mathematical Methods in Medicine & Int. Journal of Medical Systems. His main area of research is thermal imaging, human physiology, biomedical engineering; computational turbomachinery aerodynamics; micro-scale cooling problems; computational fluid dynamics & numerical heat transfer. His latest work on human eye biomechanics and burn injury thermal physics is being used in the space suits for intense thermal loading in planetary missions. He is an invited keynotes speaker for more than 15 international scientific conferences/workshops. He is also active in offering consulting services and is a fellow of SAF-NTU Academy. He is also presently serving as panel member for the Biomedical Standards Committee, Singapore. The affable adjunct NUH scientist has a special interest in infrared (IR) physics & technology and has contributed greatly to research on IR, in particular on application of IR to biomedical sciences. As the co-inventor of 3 USA patents on multiple analytical software classifier programs to identify the different stages of breast cancer development using thermal data (iTBra) with Lifeline's First Warning SystemTM, he further explores the use of IR in the field of ophthalmology for early detection of health abnormality. Those 3 patents have been licensed by Cyrcadia Health, Inc. for the commercialisation and product roll-out of iTBra upon the final approval (phase 2) of FDA. This iTBra was granted for the CE Mark and on-going for phase 2 clinical validating with FDA (confident to be approved soon) and market entry of the inventions in Asia (India, SEA) and select European markets. Mahnaz Etehad Tavakol received her B.S. in Electrical Engineering from Purdue University, West Lafayette, Indiana, in 1987, and her M.S. in Applied Mathematics from Purdue University, West Lafayette, Indiana, in 1989. She obtained her Ph.D. from Isfahan University of Technology, Iran, in April 2011. She has lectured some courses at Isfahan University of Technology and Isfahan University of Medical Sciences, and conducted 6 projects as well. She is the first author of 6 chapters in 4 books, and 11 articles in ISI journals. She is also the associate editor of Journal of Medical Imaging and Health Informatics. She is presently a researcher at Isfahan University of Medical Sciences. Her research interests include application of thermal infrared imaging in medicine, bio signal processing, and system biology.
Japan article February 2021
(Translated below)
https://www.tel.co.jp/museum/magazine/019/report01_03/02.html
Wearables also detect breast cancer
Some companies are developing wearable devices equipped with functions not found in conventional activity meters (Reference Material 4). For example, a wearable device that detects breast cancer is under development.
Breast cancer is a serious illness for women, with 1.7 million new cases occurring each year worldwide. Doctors recommend regular mammography examinations, but tumors may not be found well early on. Therefore, Cyrcadia Health of the United States has started an attempt to perform early detection using the breast cancer detection device iTBra (Fig. 2). It wears one small wearable device on each side of the brassiere to detect small changes in the tissue. If this is attached, it can be measured for 24 hours, which enables early detection.
[Figure 2] wearable device to detect breast cancer
Source: Cyrcadia Health homepage from
Wearable device to detect breast cancer
The wearable device monitors changes in metabolic fever in a 24-hour cycle that correlates with the activation of tumor cells by breast cancer. The measurement data is sent to PCs and mobile devices to share information with doctors. This new technology is said to be effective in detecting cancers with high mammary gland density, which is equivalent to 40% of women. The number of biopsy tests can be reduced because each person can detect it early.
The advantage of this device is that it is non-invasive—that is, it can be inspected without damaging the human body. However, the accuracy is not 100%. However, it can be detected earlier if it is used as a screening for breast cancer and if in doubt it is confirmed by mammography.
Twitter $LLBO stock sentiment
https://twitter.com/search?q=%24LLBO&src=cashtag_click
"right now this system currently is only available in Asia."
Article says,
https://www.tomhacks.com/2021/02/healthcare-technology-trends.html
So is that what they will be updating us on, skyrocketing sales in Asia?
The Trend of Recent Years: Wearable Technology
By TheBabylon - February 8, 2021
https://thebabylon.co/diger/gelecegin-fikirleri/son-yillarin-trendi-giyilebilir-teknoloji/
What is this wearable technology?
Wearable technology, as the name suggests, is a general term for electronic devices that are designed for us to wear all day long, that can be worn as an accessory or can be directly implanted on the body, even as a temporary tattoo, which aims to make our lives easier and can do very interesting things with the help of technology.
Wearable technology has become one of the important categories of the Internet of Things, which we mentioned in our Industry 4.0 article. And due to the development of this Internet of Things, 500 billion devices are expected to be connected to the Internet by 2030, according to Cisco.
Wearable Technology Examples
• Smart watches: Apple Watch and other smart watches, one of the most famous of these devices, are generally designed to facilitate our lives, monitor our health and mobility. For example, someone who does not want to look at the phone too much during the day can immediately get all their notifications on his watch.
• With smart glasses, you can take photos and videos directly with your glasses and share them with your friends.
• In Louisville, Kentucky, wearable devices manufactured by AIR Louisville are used to monitor local air quality, measure pollutants, and identify hotspots for residents with respiratory problems.
•Smart tattoos are being developed that include flexible electronic sensors to monitor heart and brain activity, sleep disturbances and muscle function.
• A smartwatch built for people with Parkinson's disease monitors symptoms and transmits data, so more personalized treatment plans can be developed.
• Neviano smart swimsuits include a waterproof UV sensor that communicates with your smartphone to let you know when UV levels are high. This way, you will know that you need to apply a little more sunscreen.
Wearable Technology Pros and Cons
Undoubtedly, one of the most important advantages is monitoring the health status of patients and thus early diagnosis. Thus, cheaper and effective measures can be taken before a problem occurs.
Some studies have proven the positive effects of these devices. For example, one study found that the activities of patients who wore a monitor for 3 months increased, resulting in a decrease in weight and cholesterol levels.
One of the disturbing aspects of wearable technology is undoubtedly that the battery life of these devices is generally short. But of course this is a correctable bad side that improves over time. Since constantly plugging and unplugging can be uncomfortable for some people, companies are working to provide wireless charging options.
Another downside is that devices are found to occasionally measure data incorrectly. This can be dangerous, especially when measuring health-related data such as heart rate.
Ultimately, it's up to you to decide whether a wearable device is something you can take advantage of. With their growing popularity, it's important to weigh the pros and cons before making a commitment.
The Future of Wearable Technology
In fact, modern wearable technology is a new sector, but its popularity has increased very rapidly in recent years and it seems that it will continue to increase. There are still many companies that have not been able to enter this sector. But it seems that it will gradually affect most industries in the future. Due to the increase in this popularity, companies are constantly trying to produce more innovative devices. Here are a few predictions for what devices might be like in the future:
Less visibility:
Devices that are more difficult to spot by other people can be produced. In fact, some companies are already doing this. For example, we can give items such as necklaces that look like a normal accessory but send your location to friends and family in case of danger.
Long battery life:
As we mentioned above, one of the major problems of wearable devices right now is that their batteries cannot last very long. Many alternative ways are already being tried to solve this problem. For example, if devices that can convert body heat, solar energy or motion energy are produced, the battery problem can be largely eliminated.
Medical devices:
The devices we use now are generally devices that aim to improve our fitness status following our daily sports life. However, by taking the event to a higher level, studies are also being carried out for devices that monitor and solve our medical problems. For example, there is an artificial pancreas that is developed for diabetics and can provide automatic insulin by monitoring the blood sugar level in the body. Apart from that, Cyrcadia Health has developed iTBra, which can detect early signs of breast cancer and transmit information to a laboratory for analysis. In addition, studies are also being carried out for devices that can be buried under the skin. Such developments can change the lives of many people by enabling the monitoring of many medical activities.
You know, as the world, we are going through difficult times due to the pandemic. However, this epidemic, which affects our lives so much, has increased health awareness in the society and this has had positive effects on the wearable technology market, which develops devices for the health sector.
As we mentioned above, companies in the wearable technology sector are constantly trying to maintain their position in the market by making new product launches, joint ventures and agreements. For example, in June 2020, Fitbit introduced its Ready for Work solution to help employers manage workplace safety and health during the COVID-19 crisis.
This sector, which has a market size of 37.10 billion dollars in 2020, is expected to exceed 100 billion dollars by 2027.
iTBra mentioned in a Turkish video. When it's released, sales are going to start in China, India, and USA, but after that worldwide!
iTBra timestamp 4:30
Artificial Intelligence in Health | Smart Hospital
February 13, 2021
Digitalization in health is essential for effective, efficient and beneficial service in health.
Understanding the patient starts with data A doctor is like a detective and the patient's statements are insufficient to solve the incident, as the misdiagnosis will increase the cost for the patient, increase the time, delay the treatment and even die, so digitalization is a very important and vital issue.
such that there are more than 260 health practices worldwide and 70% of hospitals use at least one application for health conditions.
In the meantime, digitalization does not seem too costly to you, but you will see how profitable it will be in the long run and how life-saving it will be.
While explaining what the aims and benefits of a digital-smart hospital will be in a smart city-state, let's try to reinforce it with examples: let's get started ...
In the healthcare industry, the Internet of medical objects means direct connections of IoMT medical devices to each other. With these devices
- costs are reduced
- treatment improves results
- increases with patient experience and participation in treatment
- Improves disease management, provides instant monitoring of chronic diseases from a distance
Before these devices, of course, with digital diagnostic tools that facilitate remote examinations, the age of digital medicine is being passed.
- Travel and waiting times will be reduced and productivity will increase, of course, with clinic visits
- Surgeries performed or supported by robots will become widespread.
- With the help of wearable technology, general health, wellness and quality of life can be measured instantly.
- All the health data of people will be stored in "Big Data" and will be presented to doctors when necessary, but of course it will be supported by new legal regulations.
Remote patient care, one of the goals of smart hospitals, aims to monitor real-time patients by measuring various medical devices, implantable devices, wearables or other mobile devices, and sending these measurements to hospital staff. First of all, this reduces maintenance costs and results in patient recovery, while shortening waiting times and hospital stays in terms of smooth patient flow and increasing the satisfaction of patients or employees.
With improved diagnostic and surgical capabilities, new treatment methods are thought to be made by robots. However, they can also improve existing methods. Advanced patient safety with artificial intelligence. Devices that collect data on vital signs and drug intake or monitor life support machines provide patient safety if they can provide timely warning. they can increase
As for the equipment of smart hospitals, they meet around medical equipment for tele-monitoring and diagnostics ... For example, blood pressure, heart rate, ECG and other remote physiological measurements and drug delivery, medical equipment for administering therapy, automatic dose equipment, camera sensor and telephone internet connection, Includes topics such as telehealth computer system for recording physiological self-measurements
As for the devices to be used in the Smart Hospital, these are: portable external devices such as glucose meters (such as portable insulin pumps), wireless thermometers, implantable devices, pacemakers, life support machines, chemotherapy dispensing stations, auxiliary robots, patient tags bracelets smart badges such as clinical recognition systems, biometric scanners and many similar devices will be used. In addition, emergency communication applications for mobile devices can be used in addition to these.
In the Smart Hospital infrastructure: power and climate regulation systems including smart ventilation systems, temperature sensors, smart panels, patient and medical staff screens, smart patient room and management systems, smart locks (For example, interconnected locks such as wireless clips) ... In hospital units, it consists of departments such as smart operating theaters with surgical robots, hospital logistics robots, rehabilitation robots, robot nurses.
The Internet of medical objects, IoMT, already offers many opportunities for healthcare applications. Now it will be more concrete and realistic to show you some companies and institutions that have worked for this purpose in the world with examples ... let's start from the first
for example
The mechanism immediately alerts you when the Smart Belt eats more than necessary.
Pathway Genomics This company offers personalized health advice according to the genetic makeup of the person and sets a special diet program.
Crycadia's iTBra company can provide early diagnosis of breast cancer with its wearable technology device.
With the wearable technology developed by Cardiodiagnostics, it monitors the heart rhythms of patients and thus enables early intervention in critical situations.
IBM Watson Health company helps to solve data that health organizations cannot solve and understand with cognitive technology.
Quest diagnostic Quanum combines medical data with the data obtained from patients' examination results, allowing 1st step physicians to identify early memory loss or dementia diseases more easily
AICure has developed an application that observes the long-term conditions of the patients and helps them to adhere to the drug treatments.The application confirms that the medicine they take and the drug is drunk with the visual recognition system, this data is then sent to the relevant Health institution and the patient's physician. The patient is provided with regular medication
The developed Veebot robot is a robot that provides safer and faster blood collection from patients.
Kompai robots can speak, understand what they speak, remind you of the shopping list and play music to you
Robot Era can remind elderly people with dementia about their important work and information.
Artificial Intelligence has an important place in clinical research as well, as Atomwise has developed two different drugs and found them in one day thanks to Artificial Intelligence. Artificial Intelligence combined with virtual reality has opened the door to unlimited possibilities in medical education.
AdhereTech company offers a solution to improve the patient's commitment to treatment, as it is very difficult.The company produces medicine boxes that can be connected to the network wirelessly and instantly transmits the data generated in the medicine boxes, thus sending a message and warning to the patient when the patient forgets to take their medication.
By following the work flows of the hospital staff and the movements of the hospital, Stanley Healthcare enables all employees in the hospital to see the location of the equipment and the status of the patients with a system application.
Microsoft Azure IoT services also enable better patient care and management in healthcare institutions as well as reducing costs. Proper drug management By connecting cloud platform and many inventory managements, the hospital has achieved two-thirds savings in this way.
Honeywell Care Solutions collects health data from glucose meters and smart bracelets that measure blood pressure from devices that record physical activities.
HealthPatch, on the other hand, is a sensor attached to a disposable adhesive part and is used to monitor acute and chronic diseases. used for the analysis of parameters such as heart arrhythmia and body temperature.
There are many wearable technologies and devices, from smart shoes to smart glasses to smart socks. Most of them have entered our lives at this point, Smart hospitals and all countries are worth the citizen. The problem is at a critical value, which will provide countries with significant savings and, as you can see, keep their own people alive, in areas where costs are lost from many places, such as the increasing costs with long-term chronic diseases, the aging population and limited resources and the money paid to labor specialists.
Internet of Things by James Whittaker of Microsoft (February 2021)
10 things IoT allows you to do with your smartphone
- iTbra appears below, scroll down to number 2 Early detection
https://lav.thefunkonme.com/10-things-iot-allows-you-do-with-your-smart-phone-872338
AI Innovation in Medical Imaging Diagnostics (2021)
Refer to page 217.
https://books.google.com/books?id=QYDZywEACAAJ&printsec=frontcover#v=onepage&q&f=false
Life sciences 2025 — managing disruptions to gain competitive advantage
iTBra appears on page 4 in the table illustration.
https://assets.ey.com/content/dam/ey-sites/ey-com/en_gl/topics/life-sciences/life-sciences-pdfs/ey-life-sciences-2025-managing-disruptions-to-gain-competitive-advantage.pdf
650,000,000 Women and 16 Mammography Machines. Good Luck, India.
https://ascentialcdn.filespin.io/api/v1/conversion/ad698f0fefa64e39ba9e423c0e57ffc5?resize=960%2C960&format=jpg
Solution iTBra!
Health Data From Your Wearable Devices Can Prevent Major Diseases
https://www.sundried.com/blogs/news/wearable-devices-can-prevent-major-diseases
I agree. Recently, I have found a number of medical research papers and have posted the most recent ones. When the medical community is discussing the iTBra as the future of breast cancer diagnostic testing, it further shows the merits of this cutting-edge technology!
Can We Prevent Breast Cancer? - Lecture by Professor Carole Mathelin,
head of the Surgery department at ICANS, led the conference. ICANS (Institut de cancérologie Strasbourg Europe)
An introduction to the Cyrcadia Breast Monitor: A wearable breast health monitoring device.
https://www.sciencedirect.com/science/article/abs/pii/S0169260720315911
An introduction to the Cyrcadia Breast Monitor: A wearable breast health monitoring device
https://www.sciencedirect.com/science/article/abs/pii/S0169260720315911
Could Artificial Intelligence beat cancer?
https://www.esanum.com/today/posts/could-artificial-intelligence-beat-cancer
China Focus: Chinese cancer experts improve treatment plan for better survival rate
http://www.xinhuanet.com/english/2020-06/16/c_139143956.htm
China has a growing cancer problem, particularly breast cancer, here the iTBra, the solution to China's problem, is on exhibit at the AstraZeneca's booth during the second China International Import Expo (CIIE) in Shanghai, east China.
It's further evidence of the legitimacy of the iTBra and the groundbreaking technology that will definitively change the world and save countless lives in the future!
In case I forget to tell you, happy 79th birthday this coming April, Arnie! Wish you a long healthy life! Hopefully, JH will have a long life as well, to enjoy the fruits of his labor and the monumental accomplishment of introducing the iTBra to the world, saving the lives of countless women everywhere!