16-bit:

The 16-bit LUT (Lookup Table) in Jusha displays allows for the expression of 65,536 shades of gray, providing smoother transitions and finer distinctions between adjacent gray scales. This high level of grayscale accuracy is crucial for detecting subtle differences in tissue density, aiding in the early detection and accurate diagnosis of medical conditions⁵.

DICOM Calibration: DICOM Calibration is a critical feature in medical diagnostic displays, ensuring that images are displayed with consistent brightness, contrast, and color accuracy according to the DICOM (Digital Imaging and Communications in Medicine) 3.14 standard. This calibration process involves adjusting the monitor’s settings to match the DICOM curve, which defines the relationship between the digital input values and the displayed luminance levels. Key benefits include consistency across devices, accurate diagnosis, dynamic LUT adjustments, improved stability, and compliance with standards. By maintaining consistent image quality, DICOM calibration helps radiologists and other medical professionals detect subtle differences in tissue density, leading to more accurate diagnoses. Regular calibration ensures that the monitor maintains its performance over time, reducing the risk of diagnostic errors due to display inconsistencies. Adhering to the DICOM 3.14 standard ensures that the monitor meets the rigorous requirements for medical imaging, providing confidence in the accuracy and reliability of the displayed images.

Full Screen Uniformity: Full Screen Uniformity is a crucial feature in medical diagnostic displays, ensuring consistent brightness and color accuracy across the entire screen. This is achieved through pixel-by-pixel calibration, which addresses variations caused by the characteristics of the liquid crystal panel. Key benefits include consistent image quality, reduced diagnostic errors, enhanced diagnostic confidence, compliance with DICOM standards, and improved workflow efficiency. By eliminating variations in brightness and color temperature, it minimizes the risk of missed or misjudged diagnoses, ensuring that subtle differences in tissue density are visible across the entire screen. Radiologists and other medical professionals can trust that the images they are viewing are consistent, regardless of where they appear on the screen, leading to more confident and accurate diagnoses. Full Screen Uniformity is essential for maintaining the high standards required in medical imaging, ensuring that healthcare professionals can rely on their displays for precise and consistent diagnostic information.

Lightbox Mode: Lightbox Mode is a feature that significantly enhances the functionality of medical diagnostic displays by boosting the monitor’s brightness to its peak levels. This allows the monitor to replace traditional lightboxes used for film reading, thereby improving work efficiency. Key benefits include enhanced brightness, improved efficiency, space-saving, cost-effectiveness, and versatility. By eliminating the need for separate lightboxes, it streamlines the workflow, allowing medical professionals to view and analyze images directly on their monitors. The increased brightness provides clear and bright images that are easy to read, even in well-lit environments. This feature reduces the need for additional equipment, freeing up valuable space in medical facilities and saving costs associated with maintaining and operating traditional lightboxes. Lightbox Mode enhances the usability and efficiency of medical diagnostic displays, making it easier for healthcare professionals to perform accurate and timely diagnoses.

Ambient Light Adaptive: The Ambient Light Adaptive feature in medical diagnostic displays ensures that the monitor adjusts its brightness and contrast in real-time based on the surrounding lighting conditions. This dynamic adjustment is crucial for maintaining image accuracy and diagnostic reliability. Key benefits include consistent image quality, accurate diagnosis, enhanced comfort, improved workflow, and energy efficiency. By automatically adjusting the display to maintain optimal brightness and contrast, it ensures that images are always clear and accurate, regardless of ambient light changes. This feature helps radiologists and medical professionals make precise diagnoses without being affected by external light variations. It also reduces eye strain by providing consistent lighting levels, making it easier for healthcare professionals to work for extended periods. Ambient Light Adaptive enhances the usability and reliability of medical diagnostic displays, ensuring that healthcare professionals can rely on their monitors for accurate and consistent diagnostic information in any lighting condition.

SmarTouch:

SmarTouch technology in Jusha displays offers a convenient way to switch between normal and maximum brightness with a simple shortcut key. This feature helps reduce eye strain for medical professionals who spend long hours analyzing images. SmarTouch ensures optimal brightness for detailed image analysis while providing a comfortable viewing experience during routine tasks⁶.

Integrated Front Sensor: The Integrated Front Sensor is a vital feature in medical diagnostic displays, designed to ensure consistent image quality and compliance with DICOM standards. This sensor continuously measures the display brightness in real-time and makes automatic adjustments based on the user’s environment and diagnostic needs. Key benefits include real-time adjustments, DICOM compliance, enhanced diagnostic accuracy, user convenience, and adaptability. By automatically calibrating the brightness, the sensor ensures that the monitor consistently meets DICOM standards, which is crucial for accurate medical diagnoses. Consistent brightness levels help radiologists and medical professionals detect subtle differences in tissue density, leading to more precise and reliable diagnoses. The sensor adjusts the display based on the actual environment and diagnostic requirements, providing a tailored viewing experience that enhances overall efficiency and comfort. The Integrated Front Sensor is essential for maintaining high standards in medical imaging, ensuring that healthcare professionals can rely on their displays for accurate and consistent diagnostic information.

JUSHA QA Compatibility: The JUSHA QA Compatible feature in medical diagnostic displays allows users to perform self-checks and calibrations, ensuring the monitor maintains high performance and accuracy over time. This capability is essential for mitigating the effects of panel aging and prolonging the monitor’s lifespan. Key benefits include self-calibration, mitigation of panel aging, prolonged lifespan, accurate imaging, and user convenience. Regular calibration helps counteract the natural aging process of the monitor’s panel, maintaining consistent image quality. By addressing aging effects and maintaining optimal performance, this feature extends the overall lifespan of the monitor. JUSHA QA Compatibility enhances the reliability and longevity of medical diagnostic displays, ensuring that healthcare professionals can depend on their monitors for accurate and consistent imaging.

Human Detection: The Human Detection feature in medical diagnostic displays is designed to enhance energy efficiency and prolong the monitor’s lifespan. This smart feature automatically turns off the monitor when no one is present, ensuring that energy is not wasted and the monitor is only active when needed. Key benefits include energy savings, extended lifespan, cost efficiency, convenience, and enhanced security. By turning off the monitor when no one is present, this feature significantly reduces energy consumption, making the monitor more eco-friendly. Reducing the active time of the monitor helps to minimize wear and tear, thereby extending its overall lifespan. Automatically managing the monitor’s power state eliminates the need for manual intervention, allowing healthcare professionals to focus on their tasks without worrying about turning the monitor on or off. The Human Detection feature enhances the efficiency and longevity of medical diagnostic displays, ensuring they are both cost-effective and environmentally friendly while maintaining high standards of performance.Jusha Shark Gill Design: The Jusha Shark Gill Design is an award-winning feature that seamlessly blends modern aesthetics with practical functionality. This innovative design element not only enhances the visual appeal of the monitor but also contributes to its overall performance and usability. Key benefits include modern aesthetics, functional integration, enhanced cooling, professional look, and award-winning innovation. The Shark Gill design incorporates sleek, contemporary elements that give the monitor a polished and professional appearance, making it a standout piece in any medical setting. Beyond its visual appeal, the design is crafted to improve the monitor’s functionality, ensuring that it meets the high standards required in medical environments. The sophisticated design reflects the advanced technology and high-quality performance of the monitor, instilling confidence in both medical professionals and patients. The Jusha Shark Gill Design elevates the aesthetic and functional aspects of medical diagnostic displays, ensuring they are both visually appealing and highly effective in their performance.

Integrated Double Screen

The Integrated Double Screen feature allows Jusha displays to show images from two different sources on a single screen. This eliminates inconsistencies between separate screens and provides a seamless viewing experience. This feature is particularly useful for comparing images side-by-side, enhancing diagnostic accuracy and efficiency⁷.

Spotlight

Spotlight Mode enhances specific areas of the image by increasing brightness and contrast in those regions. This feature is useful for highlighting areas of interest, making it easier for medical professionals to focus on critical details. Spotlight Mode can improve the detection of abnormalities and enhance diagnostic accuracy by drawing attention to subtle differences in tissue density¹.

WebQA

WebQA is a remote quality control system that allows for the monitoring and management of Jusha medical displays over a network. This feature ensures that all connected displays maintain optimal performance and compliance with medical standards. WebQA facilitates remote calibration, diagnostics, and updates, reducing the need for on-site maintenance and ensuring consistent image quality across multiple devices².

Appropriate Resolution:

Appropriate Resolution ensures that Jusha diagnostic displays provide the necessary pixel density for clear and detailed medical imaging. High-resolution displays, such as 3MP or 5MP, are essential for accurately rendering fine details in medical images, including X-rays, MRIs, and CT scans. This level of detail is crucial for precise diagnosis and effective treatment planning³.

Negatoscope:

The Negatoscope feature allows Jusha displays to function as digital lightboxes, providing high brightness levels for viewing traditional film-based radiographs. This feature eliminates the need for separate lightboxes, streamlining the workflow and saving space in medical facilities. The negatoscope mode ensures that film images are displayed with optimal clarity and brightness for accurate analysis².

Colour and Grayscale Auto Calibration:

Colour and Grayscale Auto Calibration (CGA) technology in Jusha displays ensures that both color and grayscale images are accurately calibrated. This feature distinguishes between color and grayscale pixels, applying DICOM calibration for grayscale images and GAMMA calibration for color images. CGA guarantees consistent and accurate image quality, essential for reliable medical diagnoses⁴.