In recent years, wireless communication technology has been widely used in the medical market at home and abroad, and the application of wireless medical equipment has grown rapidly. According to one report, sales of wireless medical devices in Europe will increase from 98 million in 2003 to $445.8 million in 2008, mainly because medical staff want to improve workflow, increase productivity and improve patient satisfaction, and increase New applications such as electronic medical records, clinical therapy decisions, etc. The US medical Wi-Fi market in 2003 reached $495 million, including Wi-Fi devices, Wi-Fi networks, system integration, medical surveillance, control and optimization. By 2010, the US Wi-Fi market will reach $2 billion, while revenue from wireless network operations and related services will increase to $7 billion. Market participants estimate that this fast-growing market will strongly promote the development of Wi-Fi medical devices, and it is expected that many Wi-Fi medical products will be launched on the market. The following describes the application of various wireless technologies in the medical field.
Often, it is difficult to predict when and where doctors and nurses need access to medical data or patient information, and moving from time to time is the biggest feature of their work. WLAN's powerful, reliable technology helps hospitals control costs and increase the flexibility of indoor devices. In the following medical applications, WLANs can be used to provide the necessary network connections:
Connection between multiple buildings
A WLAN can connect all the buildings in a hospital and enable them to access data in the host computing device. For example, if a pharmacist wants to know if a patient has a drug allergic reaction, they can use WLAN to quickly access medical records stored in another building.
Mobile care center
WLAN can help doctors and nurses who are patrolling in hospitals while still having access to network data at any time. As electronic medical record systems become more prevalent, WLANs can also provide easier access to these systems while reducing incidents of missing or misunderstanding patient information. It also increases productivity by reducing records. Hospitals can use WLAN to create a mobile care station that is made up of medical equipment and LAN workstations. It can improve the efficiency of data collection while allowing nurses to spend more time caring for patients.
Follow-up treatment
On June 29, 2004, the Beijing Municipal Health Bureau, Motorola and MedDay formed a unique alliance in China to fight chronic diseases and public health threats. At the beginning of its establishment, the Alliance will conduct a six-month follow-up treatment with the RegPoint solution for patients with hypertension and diabetes in some hospitals in Beijing. RegPoint is MedDay's disease monitoring and management system that integrates patient modules into a Motorola A760 flip-based smartphone based on the Linux operating system. Patients with diabetes, Parkinson's disease, permanent pain, AIDS, lung disease, bleeding disorders, obesity can use RegPoint to receive personalized medications. Whether they live in a city or a country, they can use the RegPoint installed on their Motorola phones to receive personalized treatments. RegPoint can also tell patients which medication to take and when to register the symptoms on their Rega solution in the Motorola A760. Data registered by the patient will be automatically transferred to their attending physician or other health care professional. These data can also be registered to RegPoint via devices such as weight scales, blood glucose meters or sphygmomanometers, and automatically transmitted to physicians using the latest "Bluetooth" technology via the RegPointPocket program on Motorola phones. These measures ensure that doctors can monitor the implementation of their treatment plans, correct patients' inappropriate use of prescription drugs, and identify medication errors and correct them in a timely manner.
South Korea has also launched medical mobile phones. In March 2004, South Korea held a large-scale medical equipment exhibition, a "medical mobile phone" that can measure blood sugar, fat and other data attracted the attention of most merchants. This kind of "medical mobile phone" is divided into several types, one of which is "diabetes mobile phone". This mobile phone has a built-in micrometer that can measure the blood sugar of the phone holder and send the measurement data to the relevant website where the phone owner's file is stored. After the doctor confirms the health status of the phone owner, the doctor will Information such as treatment suggestions is sent to the owner in the form of a text message. In addition, the "slimming mobile phone" with built-in slow step machine and body fat measuring instrument, "skin management mobile phone" for measuring skin moisture and massage function, and "maternal mobile phone" capable of seeing fetal development status are quite concerned by the field merchants. .
2. Mobile observation
From June to August 2003, France Telecom worked with CardioGap and the Avignon City Emergency Medical Assistance Service Center to test the program of uninterrupted transmission of medical information of patients on the way. With this solution, the dispatch of the Emergency Medical Assistance Service (le SAMU) provides real-time visibility into the delivery conditions and conditions of patients transported to emergency medical facilities through ambulances. The Emergency Rescue Center is linked to the GPRS system via a mobile medical emergency communication system. The ADSL, which is secured by security, is also linked to the ambulance, enabling the emergency medical assistance service center to continuously receive new equipment installed on the ambulance. Recorded data. The emergency rescue center can therefore observe the patient's status during the transportation process at any time.
The information exchanged is guaranteed by a virtual private network VPN that links the different networks through the Internet. Only computers belonging to the VPN network can read the transmitted data. Data transmission is done via a laptop with a touch screen and a GPRS modem. The French telecommunications subsidiary Orange's GPRS network can transmit data in an uninterrupted manner, exchanging information between the ambulance team in the ambulance and the emergency rescue center. The system currently under trial will be promoted and commercialized in early 2004.
Dried Beet,Dried Red Beet,Dried Beet Root,Dehydrated Red Beet, Beet Root Powder
Jiangsu Tiankang Food Co., Ltd. , https://www.tiankangfood.com