FLUORITE® is a modern technological solution for conducting real-time PCR analysis, ensuring reliability, high performance, and quality of analysis. Designed for measuring fluorescence intensity during polymerase chain reaction (PCR) in biological samples.
The system is suitable for clinical diagnostic laboratories and laboratories of other profiles, allowing for the solution of various diagnostic tasks including quantitative and qualitative detection of infections, research of single nucleotide polymorphisms, and gene mutations in the human genome.
FLUORITE® offers precise and efficient temperature control, high-speed thermal cycling, and detection, making it an ideal choice for modern molecular diagnostics.
FLUORITE® combines cutting-edge technology with user-friendly design to deliver reliable and precise real-time PCR analysis for a wide range of applications in molecular diagnostics and research.
Rapid and accurate detection of bacterial and viral pathogens with high sensitivity and specificity
Analysis of gene expression, SNP genotyping, and mutation detection for research applications
Comprehensive testing solutions for animal health and disease monitoring
Detection of foodborne pathogens and GMO testing for quality control
DNA profiling and human identification for forensic investigations
Cancer biomarker detection and molecular profiling for research
Flexible platform for developing and validating custom PCR assays
Detection of environmental pathogens and monitoring of water quality
Experience industry-leading temperature accuracy of ±0.1°C across all 96 wells, ensuring consistent and reliable PCR results every time. The Peltier-based system provides rapid heating (7°C/sec) and cooling (5°C/sec) for efficient thermal cycling.
Simultaneously detect multiple targets in a single reaction with our advanced 4-channel optical system. Compatible with major fluorescent dyes including FAM/SYBR Green I, HEX/VIC, ROX/Texas Red, and Cy5, enabling complex experimental designs and multiplex assays.
The 7-inch touchscreen interface provides a user-friendly experience with drag-and-drop protocol setup, real-time data visualization, and one-touch data export. The system's compact footprint (475 × 355 × 484 mm) fits comfortably in any laboratory setting.
Connect via USB or Ethernet to export results directly to your laboratory information system (LIS). The system supports remote monitoring and control, allowing you to track experiments from anywhere in the lab or office.
Designed for continuous operation with minimal maintenance. The LED light source provides consistent excitation without the need for frequent bulb replacements, while the robust construction ensures years of trouble-free service.
From infectious disease testing to genetic research, food safety to forensic analysis, FLUORITE® adapts to your needs. The temperature gradient function allows optimization of annealing temperatures across the block in a single run.
The FLUORITE® system features industry-leading temperature control with ±0.1°C accuracy across all 96 wells, ensuring consistent and reliable PCR results. The advanced Peltier-based system delivers rapid heating at 7°C/sec and cooling at 5°C/sec, significantly reducing overall run times. This precision is maintained through intelligent algorithms that compensate for ambient temperature fluctuations, making it ideal for sensitive applications requiring exact temperature control.
FLUORITE®'s 4-channel fluorescence detection system enables simultaneous analysis of multiple targets in a single reaction. Compatible with all major fluorescent dyes including FAM/SYBR Green I, HEX/VIC, ROX/Texas Red, and Cy5, it supports complex experimental designs. The system's high-sensitivity optical system can detect even low-abundance targets, while the advanced signal processing minimizes background noise, delivering clear, reliable results for both research and diagnostic applications.
The FLUORITE® system is powered by user-friendly software with a 7-inch touchscreen interface that simplifies protocol setup and data analysis. Features include drag-and-drop experiment design, real-time amplification plots, and automatic threshold determination. With USB and Ethernet connectivity, results can be easily exported to laboratory information systems (LIS) or external storage.
Desired level of automation: single analysis step or complete cycle
Cost of consumables and equipment maintenance
Number of samples to be processed per working day (average and maximum)
List of tests required per sample
Type and quality of incoming biological material
Sample logistics and result turnaround time
Potential for increasing test volume
LIS and barcoding
Laboratory space considerations
| Parameter | Specification |
|---|---|
| Thermal Block Format | 96 × 0.2 ml |
| Reaction Volume | 10-100 µl |
| Temperature Range | 4°C - 100°C |
| Heating Rate | 7°C/sec |
| Cooling Rate | 5°C/sec |
| Temperature Accuracy | ±0.1°C |
| Temperature Uniformity | ±0.3°C |
| Optical System | 4-color fluorescence detection |
| Excitation Channels | 470nm, 530nm, 585nm, 625nm |
| Emission Channels | 520nm, 555nm, 610nm, 660nm |
| Data Acquisition | Real-time, endpoint, melt curve |
| Display | 7-inch touchscreen |
| Connectivity | USB 2.0, Ethernet, Wi-Fi (optional) |
| Power Requirements | 100-240 VAC, 50/60 Hz, 300W |
| Dimensions (W × D × H) | 475 × 355 × 484 mm |
| Weight | 30 kg |
| Operating Conditions | 15°C - 30°C, 20-80% RH (non-condensing) |
| Storage Conditions | -20°C to 60°C, 10-90% RH |
| Compliance | CE, IVD, RoHS, WEEE, EMC Directive |
ISS offers a wide range of X-ray equipment, including Vision equipment and software. Extensive experience
in the field of equipment for medical centers as well as qualified specialists allow us to work with
leading clinics in Europe.
All medical equipment that we provide you can get quickly and at the best price.
1.1 Beam specifications: Energy and radiation fields
The ElectronFlash linear accelerator works in electron mode only.
The standard device is provided with two different nominal electron energies: 7 MeV and
9 MeV.
ElectronFlash can provide different radiation fields, ranging from Ø 1 cm up to Ø 12 cm.
The flatness of lateral profiles, measured at zref depth, is equal or better than 7% at
the nominal distance 100 cm
between the sample and the electron exit window.
The symmetry of the radiation field is better than 3%.
Fields are available both in circular and in squircle shape with side (diameter) 1 cm, 2
cm, 3 cm, 4 cm, 5 cm, 6
cm, 7 cm, 8 cm, 9 cm, 10 cm, 12 cm. Additional fields can be provided on request.
1.2 Available Dose Rates
The ElectronFlash can vary its dose rate from 0.005 Gy/s up to 1200 Gy/s with reference
field Ø 10 cm.
Dose rate is varied by modifying all the parameters hereinafter listed, being these
settings one each other
independent:
− E-gun Peak current;
− E-gun pulse duration: it can be set in the range from 0.2 μs up 4 μs;
− Pulse Repetition Frequency (PRF): it can be set in the range from 1 Hz up 350 Hz with
1 Hz increment.
The ElectronFlash Control Interface allows to program an irradiation in three
modalities:
1. Single pulse irradiation;
2. Train of pulses;
3. Irradiation halted by Monitor Units reading.
If ElectronFlash irradiates in modality 2 (Train of pulses), intervals between pulse
trains (i.e., m pulses followed
by n pulses) from 5 ms to 1 min are programmable by the End User.
1.3 Control system
Machine and beam diagnosis is designed according to IEC 60601-2-1, the standard
describing the requirement
for a Medical Radiotherapy linac (Medical electrical equipment - Part 2-1: Particular
requirements for the basic
safety and essential performance of electron accelerators in the range 1 MeV to 50 MeV).
Safety and security interlocks are provided and displayed, in particular all the
interlocks that guarantee the safety
of the operators (doors, emergency buttons). Before executing any irradiation, the beam
energy and the desired
dose rate must be programmed and consequently displayed at Control System.
The Human Machine Interface (HMI) allows to display and edit the parameters hereinafter
listed:
− E-gun Peak current;
− E-gun pulse duration: it can be set in the range from 0.2 μs up 4 μs;
− Pulse Repetition Frequency (PRF): it can be set in the range from 1 Hz up 350 Hz
with
1 Hz increment.
− Monitor Unit – both MU set and delivered, as per EN 60601-2-1;
− Number of pulses: Number of pulses set and delivered.
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As a result of several years of work, they were able to install a new CT machine at
the
J. Endre Szántó United Social and Health Institute. The official handover ceremony
of
the device was held in the afternoon of December 14 at the clinic. As the opening of
the
event, Elek Boglárka Répásiné and her student Ivett Bodnár performed a short song
and
violin program. At the event, the director Dr. Géza Bobkó greeted the gathering and
introduced the institution. The dispensary was founded in 1984, at which time care
continued in several separate buildings scattered throughout the city.
The currently operating unit was built in 1990, which has been responsible for the
day-to-day care of patients since then. There are currently 30 specialist clinics
operating, where they primarily treat patients from the Szerencsi district, but
there
are overlaps with other areas as well. This year, a total of 128,000 patients
visited
the clinic until November 30, i.e. approximately 400 people per day. In 2017, they
dreamed that they would also like to perform CT examinations locally, for which they
submitted their application even then. Due to a lack of funds, they did not receive
the
grant then, but in 2021 they managed to win the amount of more than HUF 200 million.
Dr.
contributed to the implementation of the application. Deputy Minister Zsófia Koncz,
also
a Member of Parliament, said in her speech that her father already believed in this
project. He considers this development unique, as it is rarely possible to perform
CT
examinations in rural towns, and Szerencs is the first such town in the county. This
is
a great opportunity, as the time factor is important in health care, and less
waiting
time can often save lives. He emphasized that, as a result of a lot of work, this is
a
special gift to Szerencs and the region before Christmas.
The instrument was presented by radiologist Dr. Szilvia Varga. During his lecture,
he
first described the history of medical imaging devices, which have undergone
significant
changes in their methods and the time required for the examination over the decades.
The
device arriving at Szerencs is a SinoVision AlphaCT 358 Plus model, which has a
larger
75 cm diameter opening than the traditional CT opening. With the tender, they also
received a new ultrasound machine, a Mindray DC-70 type. Tibor Nyiri, the mayor of
the
city, took the floor, who considers the development of technology and healthcare to
be
of such a high standard. He emphasized that the fight against pathogens is
continuous,
viruses and diseases are part of everyday life. It is important that people receive
the
best care here in Szerencs as well. The head of the city emphasized that the
preparation
and implementation of a tender is a complex process that requires serious teamwork
and
collaboration. In his opinion, it is a reassuring feeling that the waiting and
response
times are getting shorter, as well as knowing that you can count on the workers
here.
After the mayor's speech, a toast was held to celebrate this momentous occasion.
After
the champagne toasts, the ribbon in the national color was cut, which officially put
the
new CT device into use. At the end of the event, the attendees had the opportunity
to
view the device and the spaces created for it. The tender for the development of the
outpatient specialist care center in the Szerencs region was thus concluded, and the
city's dispensary was further enriched as a result.
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If you have any questions or feedback, feel free to reach out to us!
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