When uncovered to mild of a particular wavelength, the fl uorochromes will fl uoresce, emitting light of a longer wavelength than the incident light they take in. A detection gadget analyzes every cellular at a rate of up to ten,000 cells/2d. Operating steps Sample cells ought to be treated with reagents and are loaded into the tool. The operator may additionally need to application the desired wavelength and parameters measured the usage of a pc connected to the tool. Reported issues Operators need to be privy to the hazard of exposure to probably infectious bloodborne pathogens at some point of trying out approaches and have to use ordinary precautions, inclusive of sporting gloves, face shields or masks, and gowns. Use and upkeep User(s): Laboratory technician Maintenance: Laboratory technician; biomedical or medical engineer Training: Initial schooling by way of producer and manuals Environment of use Settings of use: Clinical laboratory Requirements: Adequate benchtop or fl oor area, line strength Product specifi cations Approx. Dimensions (mm): 600 x 450 x 500 Approx. Weight (kg): 50-a hundred Consumables: Reagents, sample cells Price variety (USD): 27,000 – 250,500 Typical product life time (years): 5-7 Shelf existence (consumables): Fluorescent dyes: 1 yr Types and variations Cell-sorting abilities can separate and analyze specifi c cell sorts in the pattern; version might also have more than one lasers or an autoloader. Cytometer UMDNS GMDN 16867 16503 Cytometers, Automated, FlowCytometers, Automated, Flow, Sorting 57839 Flow cytometry analyser IVD, automatic Other commonplace names: Flow cytometer, reticulocyte analyzer, cell sorter http://www.Who.Int/medical_devices/en/index.Html © Copyright ECRI Institute 2011 (not such as the GMDN code and tool name). Reproduced with Permission from ECRI Institute’s Healthcare Product Comparison System. © Copyright GMDN Agency 2011. GMDN codes and device names are reproduced with permission from the GMDN Agency. Core clinical equipment – Information Health problem addressed Fully automatic external defi brillators (AEDs) deliver a highamplitude modern impulse to the heart in an effort to restore regular rhythm and contractile function in patients who are experiencing ventricular fi brillation (VF) or ventricular tachycardia (VT) that isn’t followed via a palpable pulse. Product description AEDs decide whether defi brillation is needed and routinely charge and discharge to supply a shock. Semiautomated devices analyze the ECG and rate in preparation for surprise delivery, but the operator turns on the discharge. AEDs commonly consist of a reminiscence module or PC records card, disposable adhesive defi brillation electrodes, a display to provide status messages (affected person and/or defi brillator), to show the ECG waveform, or to prompt the user to initiate a shock. Principles of operation Automated defi brillators examine the ECG rhythm to determine if a defi brillation surprise is wanted; if it’s far, the defi brillator warns the operator and routinely charges and discharges. Most of those defi brillators use a unmarried pair of disposable electrodes to screen the ECG and deliver the defi brillator discharge, but a few also contain ECG shows. The simple design and simplicity of use of automated defi brillators requires very little training and operational skill. Operating steps The operator attaches two adhesive defi brillator electrodes to the cables or immediately to the AED and applies the electrodes to the patient.