Medical technology, also referred to as biomedical technology , is engaged in the application of engineering principles and rules to the field of medicine. In the field of medical technology combines engineering know-how and expertise from industry professionals such as physicians and nurses. The objective of medical technology is to optimize medical treatments, as well as therapies, diagnoses and equipment such as ultrasound and MRI, for the benefit of patients. Ongoing research continuously leads to new developments, particularly with medical equipment such as ultrasound and MRI. innovations-report keeps readers up-to-date on these issues by publishing interesting articles and reports on the latest developments in medical technology fields , including ultrasound and MRI systems.
The area of medical technology that involves the development of medical equipment such as MRI, ultrasound and x-ray systems requires continuous research. In order to benefit patients, thelatest technology and engineering developments must be integrated as rapidly as possible into medical systems such as ultrasound and MRI. New developments that are relevant to those who are interested or involved in the field of medical technology occur every day. To keep readers abreast of these issues, innovations-report publishes interesting and easy-to-understand information on developments in medical technology, including systems such as ultrasound and MRI.
innovations-report offers readers up-to-date and interesting information from a variety of innovative scientific fields, such as medical technology. The latest research and clinical developments from in medical technology are presented in a clear and easy-to-understand manner, covering topics such as imaging processes, dialysis equipment, ultrasound, cell and tissue engineering, implants, MRI, orthopedic aids, dental materials and surgical technologies.
The segment of medical technology that involves maintaining and repairing equipment such as MRI, ultrasound and x-ray is immensely important. If ultrasound or MRI equipment does not function properly, which can lead to false results or therapies, the consequences for patients are unimaginable. And precisely because of its importance, the field of medical technology deserves a great deal of attention. innovations-report covers the key developments in medical equipment technology, including MRI, x-ray and ultrasound systems.
Ultrasound and MRI are two of the most frequently used systems in the field of medical technology. Depending on the type of tissue that needs to be examined, imaging processes such as ultrasound and MRI are carried out either with or without contrast agents. Ultrasound and MRI examinations are performed without ionizing radiation, whereas processes such as computer tomography require ionizing radiation. Basic knowledge of imaging processes such as MRI and ultrasound is essential for anyone involved in the field of medical technology. For these specialists and others who are interested in this area, innovations-report covers the latest research results originating from the field of medical imaging processes such as MRI and ultrasound.
In the field of medical technology, innovations-report covers the latest scientific findings and information related to medical technology, including innovations in the area of medical equipment such as MRI and ultrasound systems.
innovations-report is designed for anyone who wants to keep abreast of developments in the field of medical technology. Here you can find information about the latest innovations in medical imaging processes, including systems such as ultrasound and MRI.
The development of medical equipment, products and technical procedures is characterized by high research and development costs in a variety of fields related to the study of human medicine.
innovations-report provides informative and stimulating reports and articles on topics ranging from imaging processes, cell and tissue techniques, optical techniques, implants, orthopedic aids, clinical and medical office equipment, dialysis systems and x-ray/radiation monitoring devices to endoscopy, ultrasound, surgical techniques, and dental materials.
When someone breaks a bone in their lower leg, the fracture can often be complex, making the healing process lengthy and involved. In these cases, it is usual for the fractured bone to be surgically stabilized using an orthopaedic implant. Researchers at Saarland University and the German Research Center for Artificial Intelligence (DFKI) have developed a personalized therapeutic concept that significantly reduces the chances of a patient suffering post-operative complications. The procedure they have developed allows them to create an implant tailored precisely to the patient’s individual fracture.
While theatrical performers use the phrase ‘break a leg’ to wish each other good luck before going on stage, breaking a leg is really not something any of us...13.05.2020 | Read more
TU Graz researcher Francesco Greco has developed ultra-light tattoo electrodes that are hardly noticeable on the skin and make long-term measurements of brain activity cheaper and easier.
In 2015 Francesco Greco, head of the Laboratory of Applied Materials for Printed and Soft electronics (LAMPSe, http://lampselab.com/) at the Institute of Solid...13.05.2020 | Read more
Researchers at the Technical University of Munich (TUM) have developed an innovative x-ray method for lung diagnostics, which they now plan to test in one of its first applications for diagnosis of the respiratory ailment Covid-19 caused by Coronavirus. The method could clearly identify abnormalities typical of the illness and involves a significantly lower radiation dose than the computed tomography methods currently in use. Last week, the German Federal Office for Radiation Protection (BfS) issued the approval necessary for the tests.
Reliable methods for identifying the new Coronavirus are crucial during the pandemic it has caused. In addition to biochemical tests, x-ray methods can also be...08.05.2020 | Read more
Tool could allow for better understanding for diseases affecting the brain, regenerative therapies
Since Robert Hooke's first description of a cell in Micrographia 350 years ago, microscopy has played an important role in understanding the rules of life.05.05.2020 | Read more
The use of mechanical ventilation can save lives – and not just for COVID-19 patients who develop severe respiratory problems. But at the same time, the ventilation pressure puts immense stress on delicate lung tissue. Especially for patients with preexisting lung damage, the use of ventilators can prove deadly. A computational lung model that’s been developed by the Technical University of Munich (TUM) can be used to reduce damage caused by mechanical ventilation – and could increase survival rates for patients significantly.
For patients suffering from acute lung failure (Acute Respiratory Distress Syndrome, ARDS), mechanical ventilation is a lifesaving treatment.23.04.2020 | Read more
Scientists at TU Bergakademie Freiberg are currently testing a prototype of a pressure-controlled emergency ventilator. The device, which can be built with simple tools and is easy to maintain, could be used primarily in developing countries for the ventilation of emergency patients suffering from lung diseases.
To this end, the mine rescue team of TU Bergakademie Freiberg and the Institute for Machine Elements, Design and Production have combined their expertise.20.04.2020 | Read more
“Access checker” remotely measures body temperature in addition to heart and breathing rate
An innovative measurement method is helping to detect people infected with coronavirus from a safe distance. It detects fever, increased pulse rates and fast...15.04.2020 | Read more
Diabetic kidney diseases are the main cause of kidney failure in industrialised countries. An international, EU-funded R&D project – which is being headed by the Medical University of Innsbruck, and involves collaboration with the Medical University of Vienna and international partners – is being implemented with the aim of using computer software to provide personalised predictions of the disease’s progression and bring about improvements in individuals’ responses to treatment. Project findings will have the potential for application also in other chronic conditions.
An international consortium has started the R&D project “DC-Ren: Drug combinations for rewriting trajectories of renal pathologies in type II diabetes’.09.04.2020 | Read more
What does it actually look like deep inside our ears? This is has been very difficult to study as the inner ear is protected by the hardest bone in the body. But with the help of synchrotron X-rays, it is now possible to depict details inside the ear three-dimensionally. Together with Canadian colleagues, researchers from Uppsala University have used the method to map the blood vessels of the inner ear.
The study, which was published in the scientific journal Scientific Reports, can provide an explanation for why it is so effective to treat deafness in people...08.04.2020 | Read more
Published by Marc Tudela, Laura Becerra-Fajardo, Aracelys García-Moreno, Jesus Minguillon and Antoni Ivorra, in Access, the journal of the Institute of Electrical and Electronics Engineers
The project Electronic AXONs: wireless microstimulators based on electronic rectification of epidermically applied currents (eAXON, 2017-2022), funded by a...08.04.2020 | Read more
New insight into the spin behavior in an exotic state of matter puts us closer to next-generation spintronic devices
Aside from the deep understanding of the natural world that quantum physics theory offers, scientists worldwide are working tirelessly to bring forth a...
Kiel physics team observed extremely fast electronic changes in real time in a special material class
In physics, they are currently the subject of intensive research; in electronics, they could enable completely new functions. So-called topological materials...
Solar cells based on perovskite compounds could soon make electricity generation from sunlight even more efficient and cheaper. The laboratory efficiency of these perovskite solar cells already exceeds that of the well-known silicon solar cells. An international team led by Stefan Weber from the Max Planck Institute for Polymer Research (MPI-P) in Mainz has found microscopic structures in perovskite crystals that can guide the charge transport in the solar cell. Clever alignment of these "electron highways" could make perovskite solar cells even more powerful.
Solar cells convert sunlight into electricity. During this process, the electrons of the material inside the cell absorb the energy of the light....
Empa researchers have succeeded in applying aerogels to microelectronics: Aerogels based on cellulose nanofibers can effectively shield electromagnetic radiation over a wide frequency range – and they are unrivalled in terms of weight.
Electric motors and electronic devices generate electromagnetic fields that sometimes have to be shielded in order not to affect neighboring electronic...
A promising operating mode for the plasma of a future power plant has been developed at the ASDEX Upgrade fusion device at Max Planck Institute for Plasma...
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10.07.2020 | Life Sciences