User Tools

Site Tools


ddsf:public:applications:medical

Differences

This shows you the differences between two versions of the page.

Link to this comparison view

Next revision
Previous revision
ddsf:public:applications:medical [2019/05/13 20:40]
admin created
ddsf:public:applications:medical [2021/07/14 15:53] (current)
murphy ↷ Links adapted because of a move operation
Line 1: Line 1:
-===== Medical =====+====== Medical =====
 +[[ ddsf:​public:​applications:​start | Return to Applications ]]
  
-DDS securely shares patient and device data to build smarter ​+ 
 +[[ddsf:​public:​guidebook:​06_append:​glossary:​d:​data_distribution_service_dds]] ​securely shares patient and device data to build smarter ​
 clinical information systems. It connects devices in hospital ​ clinical information systems. It connects devices in hospital ​
 rooms, integrates whole-hospital systems, and connects to the  rooms, integrates whole-hospital systems, and connects to the 
Line 10: Line 12:
 and other information systems in a clinical environment. and other information systems in a clinical environment.
  
-==== Medical Devices and Clinical Systems ==== +| Create a Case Study **WWW WWW...** (e.g., My NASA Project ) -> | {{NEWPAGE>​ddsf:​public:​applications:​medical#​pagetemplates:​casestudy }} | 
-The Medical Device “Plug-and Play” (MD PnP) Interoperability Program+ 
 + 
 +===== Medical Devices and Clinical Systems ====
 +[[ ddsf:​public:​applications:​start | Return to Applications ]] 
 + 
 +The Medical Device “Plug-and Play” (MD PnP) [[ddsf:​public:​guidebook:​06_append:​glossary:​i:​interoperability|Interoperability]] Program
 is using DDS in the reference implementation for their Integrated ​ is using DDS in the reference implementation for their Integrated ​
 Clinical Environment (ICE) to enable the integration of devices ​ Clinical Environment (ICE) to enable the integration of devices ​
Line 19: Line 26:
 Source: [[http://​mdpnp.mgh.harvard.edu/​ | Harvard University: MD PnP]] Source: [[http://​mdpnp.mgh.harvard.edu/​ | Harvard University: MD PnP]]
  
-==== Imaging Systems ==== +===== Imaging Systems ====
-Imaging systems require massive data flows and fast performance. ​+[[ ddsf:​public:​applications:​start | Return to Applications ]] 
 + 
 +Imaging systems require massive data flows and fast [[ddsf:​public:​guidebook:​06_append:​glossary:​p:​performance|performance]]
 DDS controls and optimizes network use to handle megabytes of  DDS controls and optimizes network use to handle megabytes of 
 load without losing data.  ​ load without losing data.  ​
  
 Source: [[https://​www.rti.com/​ge2015dec ​ | RTI: GE Healthcare'​s Industrial Internet of Things (IoT) Architecture ]]    Source: [[https://​www.rti.com/​ge2015dec ​ | RTI: GE Healthcare'​s Industrial Internet of Things (IoT) Architecture ]]   
 +
 +===== Integrated Clinical Medical Decision Systems =====
 +[[ ddsf:​public:​applications:​start | Return to Applications ]]
 +
 +DDS ties together devices, services, and displays in real time. 
 +
 +Source: [[ https://​info.rti.com/​hubfs/​Collateral_2017/​Customer_Snapshots/​RTI_Customer-Snapshot_60005_DocBox_V4_0718.pdf | RTI: DocBox]]
 +
 +
 +===== Ambulance-based Telemedicine =====
 +[[ ddsf:​public:​applications:​start | Return to Applications ]]
 +
 +For disaster relief operations or emergency medical services (EMS), time is much 
 +more than a matter of money—it'​s a matter of life and death. An ambulance-to-hospital ​
 +based telemedicine system is the best example of how mobile technology can help save 
 +lives, by providing real time patient information to the hospital via wireless ​
 +communications,​ enabling remote diagnoses and primary care, and reducing rescue ​
 +response time.    Telemedicine,​ as defined by the American Telemedicine Association (ATA),
 +is the use of medical information exchanged from one site to another via electronic ​
 +communications,​ to improve a patient'​s clinical health status.
 +
 +Telemedicine includes a growing variety of applications and services—from remote ​
 +health monitoring to medical education. Among these applications,​ ambulance-based ​
 +telemedicine uses the most up-to-date vehicle electronics and mobile communications ​
 +technology, aimed at providing a significant time advantage, expediting critical ​
 +treatment and improving patient outcomes.ability to care, the patient can be 
 +referred earlier to other hospitals or medical care centers to save time.
 +
 +On the hospital side, emergency room physicians and nurses can receive and review ​
 +the incoming data at a desktop PC or on a mobile device such as a tablet or smartphone, ​
 +and make preliminary assessments before the arrival of the patient. The ER docs can 
 +also zoom-in to see the wounds, discuss the situation with the emergency medical ​
 +technicians (EMTs), and instruct the EMTs to administer primary care or emergency ​
 +medical services, such as giving injections or fracture treatment.
 +
 +The emergency and trauma physicians can also triage cases remotely, and start to 
 +prepare a surgery team if needed, prior to the patient'​s arrival. If they decide ​
 +the available medical resources of the hospital are insufficient for the situation, ​
 +they can refer the case to an alternative medical care center, to save time.
 +Ambulance telemedicine is aimed at sparing every minute that can possibly be used 
 +to save lives. Such pre-hospital systems are also vital for patients suffering from 
 +a stroke or cardiac diseases. Earlier assessment and treatment of strokes during ​
 +critical moments can save lives and minimize aftereffects. ​ Ambulance-based telemedicine ​
 +is particularly valuable for residents living in remote areas, a long distance from 
 +hospitals and clinics, as well as for casualties in remote locations.
 +
 +
 +Source: [[https://​www.adlinktech.com/​en/​Telemedicine.aspx | Adlink: Ambulance Based Telemdicne ]]
 +
 +==== Medical Panel Computers and Monitors =====
 +[[ ddsf:​public:​applications:​start | Return to Applications ]]
 +
 +
 +ADLINK offers medical computers with Intel® Core™ i7 processors, delivering high 
 +computing performance and outstanding graphics processing capabilities. We design ​
 +our medical panel computers and monitors with optimum viewing capabilities and 
 +hygienic fully-sealed and easily cleanable housings. They can be used for patient ​
 +vital sign monitoring, nursing care, clinical diagnosis, PACS (picture archiving ​
 +and communication system), anesthesia monitoring and OR documentation. With additional ​
 +safety design and expansion capabilities,​ our medical panel computers and monitors ​
 +provide doctors and hospital staff with a reliable and flexible system with high 
 +usability and convenience for users.
 +
 +Source: [[https://​www.adlinktech.com/​en/​Medical_Healthcare_Medical_Panel_Computers_Monitors.aspx | Adlink: Medical Panel Computers & Monitors]]
 +
 +
 +/​**=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-=-
 +/* To add a discussion page to this page, comment out the line that says 
 +  ~~DISCUSSION:​off~~
 +*/
 +~~DISCUSSION:​on|Outstanding Issues~~
 +~~DISCUSSION:​off~~
ddsf/public/applications/medical.1557794413.txt.gz · Last modified: 2019/05/13 20:40 by admin