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Unlock Precision and Clarity: Elevate Imaging Excellence with Diagnostic Radiology Monitors

Discover the power of precision and clarity in medical imaging with diagnostic radiology monitors. These advanced tools transform how healthcare professionals interpret images, improving patient care. At Hiliex Medical Imaging Technologies, you can diagnose radiology monitors from a brand you choose – new, refurbished, or upgradeable – you choose we provide.

What is a Diagnostic Radiology Monitor?

Diagnostic radiology monitors are specialized displays used by healthcare professionals, particularly radiologists and other medical imaging specialists, to view and interpret medical images such as X-rays, MRI scans, CT scans, and ultrasounds. These monitors are designed to meet stringent standards for image quality, consistency, and accuracy to ensure precise diagnosis and treatment planning.

    • 14-bits Grayscales Look-Up Table for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • DisplayPort & DVI
    • 14-bits Grayscales for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • 14-bits Grayscales for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • 14-bits Grayscales Look-Up Table for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • DisplayPort & DVI
    • 14-bits Grayscales for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • 2MP Monochrome Display
    • 21,3" Screensize
    • Maximum 1650 cd/m (500 cd/m typical)
    • Contrast 850:1
    • IQ Sensor, SBC, DAC
    • Self-Diagnosis Software
    • 14-bit via LUT
    • 1x DisplayPort; 1x DVI-D
    • World’s first 10-megapixel 30-inch
    • True 10-bit TFT LCD
    • World’s Top class of Luminance uniformity
    • Maximum 1250 cd/m² (typical 1000 cd/m²)
    • 1000 : 1 contrast ratio
    • Less than 1 watt in energy saving mode
    • User friendly USB port and control system
    • System self diagnostic function
    • LED light box
    • WIDE patent protected Stand-base
    • 12-bits Grayscales for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control(DAC)
    • 3MP Color-Display for Diagnostic
    • 21,3" Screensize
    • maximum luminance 600 cd/m
    • Contrast 600:1 (500:1 with LUC)
    • 12-bits LUT for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
    • 12-bits Grayscales for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Multiple LUT Modes
    • High Brightness: 1000 cd/m2.
    • Wide Viewing Angle: 170° Horizontal and Vertical.
    • DICOM 3.14 Compliance Out of Box.
    • Backlight Stabilization Sensor(SBC).
    • Multiple Preset Viewing Modes Built In.
    • Multiple Interface and Connectivity(IF1901MP).
    • Versatile video connectivity(IF1901MP only): VGA, DVI, BNC(SOG), S-video, Composite.
    • Medically Certified.
    • 14-bits LUT for Precise Expression
    • Built-in IQ Sensor® II for DICOM Calibration
    • Luminance Uniformity Control (LUC)
    • Digital Ambient Control (DAC)
     
    • 2MP Color medical display
    • 21.3-inch screen
    • A maximum of 860 cd / m (450 cd / m typical)
    • Contrast 1050: 1
    • IQ sensor, SBC, DAC
    • Self-diagnostic program
    •  21.3" Monochrome LCD
    •  3 megapixel
    •  1536x2048 pixel
    •  Maximum luminance 1700cd/m²
    •  LED Backlight

  • 3MP-based Display for Digital Mammography (with Independent Sub pixel Drive Technology)

    Digital mammography viewing demands an extraordinarily high level of precision from your LCD display. Totoku's MS33i2 redefines new standards of care by over-delivering resolution and clarity for improved accuracy in breast cancer screening. With integrated Independent Sub pixel Drive technology, the MS33i2 exceeds resolution values of traditional 5 Mega-pixel displays, and due to economies of scale, is more affordable than its 5 megapixel counterpart. Introducing the MS33i2, with Independent Sub pixel Drive technology enables a 3Mega-pixel-based LCD to render 9 mega Sub pixel images, exceeding the current standards of care for primary mammography diagnosis. The MS33i2 has been applied for FDA (510K) clearance for the use of Digital Mammography.

  • Excellent image reproduction with Independent Sub-pixel Drive technology beyond panel’s normal capability Cost-effective medical display

    - Independent Sub-pixel Drive technology (patent pending) to provide the highest resolution ever - Next-generation interface "Displayport." - Switching function between luminance and gamma - Advanced display quality control - Uniformity equalizer to minimize luminance and color unevenness across the screen - Hardware pivot function for fast drawing vertically - AR-coated models to provide accurate image reproduction - Built-in and energy- saving power supply

Types of Medical Diagnostic Display

Types of medical diagnostic displays include:

  1. Grayscale Monitors: Primarily used for displaying grayscale medical images like X-rays and mammograms.
  2. Color Monitors: Suitable for displaying color medical images such as MRI scans and ultrasound images.
  3. Multi-Modality Monitors: These displays can accurately render both grayscale and color images, making them versatile for various medical imaging modalities.
  4. High-Brightness Monitors: Specifically designed for viewing medical images in bright environments, such as operating rooms or interventional suites.
  5. 3D Monitors: Used for visualizing and manipulating three-dimensional medical images, commonly employed in surgical planning and interventional radiology procedures.

Why Diagnostic Radiology Monitors Matter?

Diagnostic radiology monitors matter because they are critical tools for accurate diagnosis and treatment planning in healthcare. High-quality displays with precise image reproduction are essential for detecting subtle abnormalities, assessing disease progression, and guiding therapeutic interventions. Reliable diagnostic monitors help minimize errors and improve patient outcomes by ensuring that medical images are viewed accurately and consistently.

Who Must Have Diagnostic Radiology Monitors?

Healthcare facilities and professionals who rely on medical imaging for diagnosis and treatment must have diagnostic radiology monitors. This includes hospitals, imaging centers, radiology practices, oncology clinics, and other medical facilities where medical imaging is performed. Radiologists, oncologists, surgeons, and other healthcare providers interpreting medical images also require access to diagnostic displays to perform their duties effectively.

Benefits of Diagnostic Radiology Monitors

The benefits of diagnostic radiology monitors include:

  1. High Image Quality: These monitors offer superior image quality with high resolution, contrast, and brightness, allowing for detailed visualization of anatomical structures and pathological findings.
  2. Consistency and Accuracy: Diagnostic displays are calibrated and optimized to ensure consistent and accurate image reproduction, reducing the risk of misinterpretation and diagnostic errors.
  3. Workflow Efficiency: By providing clear and precise images, diagnostic monitors help healthcare professionals streamline their workflow, leading to faster diagnosis and treatment decisions.
  4. Compliance with Standards: Diagnostic radiology monitors adhere to stringent regulatory standards and guidelines, such as DICOM (Digital Imaging and Communications in Medicine), ensuring compatibility and interoperability with medical imaging systems.
  5. Enhanced Collaboration: These displays facilitate collaboration among multidisciplinary healthcare teams by enabling the seamless sharing and review of medical images across different locations.

Key Features to Look for When Buying Medical Diagnostic Display

When buying a medical diagnostic display, key features to consider include:

  1. Image Quality Parameters: Look for monitors with high resolution, contrast ratio, luminance, and color accuracy to ensure optimal image quality.
  2. Calibration and QA Tools: Choose displays with built-in calibration and quality assurance tools to maintain image consistency and compliance with industry standards.
  3. Connectivity Options: Consider displays with various connectivity options, such as DICOM, HDMI, DisplayPort, and USB, to ensure compatibility with existing medical imaging systems.
  4. Ergonomic Design: Select monitors with adjustable stands, anti-glare screens, and ergonomic features to enhance user comfort and productivity during prolonged viewing sessions.
  5. Service and Support: Opt for displays from reputable manufacturers that offer comprehensive service contracts, technical support, and warranty coverage to minimize downtime and ensure long-term reliability.

Invest in Accuracy and Efficiency

Contact us today for a free consultation and discover how Hiliex can revolutionize how you diagnose patients.

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