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Jusha Medical Features Explained

Introduction

Medical diagnostic displays are equipped with advanced features to enhance precision and accuracy in medical imaging. These features include the 16bit LUT, DICOM Calibration, Full Screen Uniformity, Lightbox Mode, Ambient Light Adaptive, SmarTouch, Integrated Front Sensor, JUSHA QA Compatibility, Human Detection, Jusha Shark Gill Design, Energy Efficiency, Multi-stance Stand, CGA Technology, and Spotlight Mode. Each of these technologies plays a crucial role in ensuring high-quality imaging, which is essential for accurate diagnosis and effective treatment planning.

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.

 

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Enhancing Medical Imaging with the JUSHA-C820G Monitor

Introduction

The JUSHA-C820G monitor is designed to meet the highest standards in medical imaging. With features like DICOM calibration, integrated front sensors, and ambient light adaptation, it ensures accurate and reliable diagnostics. In this blog post, we’ll explore these features in detail and how they contribute to superior medical imaging.

DICOM Calibration

!DICOM Calibration
The JUSHA-C820G monitor complies with the DICOM 3.14 standard and includes a dynamic LUT. This ensures accurate and stable lesion diagnosis at any brightness, contrast, and color temperature. For more details on DICOM standards, you can visit DICOM Standards.

Integrated Front Sensor

!Integrated Front Sensor
Users can customize the black point, white point, and environmental brightness of the DICOM curve. Additionally, built-in sensors measure display brightness in real-time, automatically adjusting to the best settings and complying with DICOM standards. Learn more about our sensor technology.

JUSHA Qualitas QA Compatible

!JUSHA Qualitas QA
Users can check and calibrate the monitor themselves, which reduces the effects of panel aging. Consequently, this prolongs the monitor’s lifespan and ensures more accurate images. Discover more about JUSHA Qualitas QA.

Independent Dual Input Setup

!Independent Dual Input Setup
You can independently change the image settings for different video sources, such as calibration mode, resolution, and color depth. Thus, different image modes meet various requirements. Check out our video input options.

Ambient Light Adaptive and Compensation

!Ambient Light Adaptive
The monitor measures ambient light in real-time and adjusts the display accordingly to ensure accurate diagnosis. For further reading on ambient light sensors, visit Ambient Light Sensors.

SmarTouch

!SmarTouch
Medical image diagnosis often requires high brightness, which can damage eyesight with long-term use. To solve this, we offer a one-key brightening function. You can switch the display brightness between normal and maximum with a simple shortcut key, thereby providing great convenience. Learn more about SmarTouch technology.

X-ray Film View (XFV)

!X-ray Film View
The XFV can increase the monitor’s brightness to its peak value, replacing the traditional Lightbox for film reading and, as a result, increasing work efficiency. Find out more about X-ray Film View.

Conclusion

The JUSHA-C820G monitor is a powerful tool for medical imaging, offering a range of features that ensure accuracy, reliability, and convenience. By integrating advanced technologies like DICOM calibration, integrated front sensors, and ambient light adaptation, it sets a new standard in medical diagnostics.

For more information, visit our product page. JUSHA-C820G

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Is it time to upgrade or change your medical display?

Diagnostic grayscale displays are critical tools used in the medical industry for accurate diagnosis and evaluation of medical images. These displays are designed to provide high-quality, accurate grayscale images that can aid in the diagnosis of various medical conditions. However, like all electronic devices, these displays can deteriorate over time, which can affect their accuracy and reliability. In this article, we will discuss the points to consider when deciding whether it’s time for an update of your diagnostic grayscale displays, with an additional focus on Uniform Luminance, DICOM compliance, and Return on Investment.

  1. Age of the display: The age of the diagnostic grayscale display is an essential factor to consider when deciding whether to update or replace it. Most manufacturers recommend replacing diagnostic grayscale displays after five years of use. However, the lifespan of a display may vary depending on usage, maintenance, and environment. If your diagnostic grayscale display is more than five years old, it may be time to consider an update.

  1. DICOM compliance wiith industry standards is critical when it comes to diagnostic grayscale displays. The American College of Radiology (ACR) and the National Electrical Manufacturers Association (NEMA) have established specific standards that diagnostic grayscale displays must meet to ensure accurate and reliable results. Additionally, DICOM compliance is necessary for the proper display of medical images. DICOM compliance ensures that the images are displayed correctly and can be shared with other DICOM-compliant devices. If your diagnostic grayscale display does not comply with these standards or if it is outdated, it may be time to consider an update.

  1. Calibration and Uniform Luminance: Calibration is the process of adjusting a diagnostic grayscale display to ensure that it produces accurate and consistent images. Regular calibration is essential for diagnostic grayscale displays, as an uncalibrated display can produce images that are inaccurate and unreliable, leading to incorrect diagnoses and evaluations. Uniform Luminance is another critical factor to consider when deciding whether to update your diagnostic grayscale display. Uniform Luminance ensures that the display has consistent brightness across the entire screen, ensuring that the images are accurate and reliable. If you notice that your diagnostic grayscale display requires frequent recalibration, or that the Uniform Luminance is not achieving the desired results, it may be time to consider an update.

  1. Image quality: The image quality of a diagnostic grayscale display is critical to its usefulness and reliability. A diagnostic grayscale display that produces images with poor contrast, brightness, or resolution can lead to incorrect diagnoses and evaluations. If you notice that the image quality of your diagnostic grayscale display is deteriorating or that it is not meeting your requirements, it may be time to consider an update.

  1. Return on Investment: Return on Investment (ROI) is an essential factor to consider when deciding whether to update or replace a diagnostic grayscale display. While an update or replacement may require a significant initial investment, it can provide significant long-term benefits, such as improved accuracy, reliability, and efficiency. Additionally, a new diagnostic grayscale display may have additional features and functionalities that can improve workflow and productivity. By considering the potential ROI, you can make an informed decision about whether to update or replace your diagnostic grayscale display.

In conclusion, diagnostic grayscale displays are essential tools that require regular updates and maintenance to ensure their accuracy, reliability, and usability. When deciding whether to update or replace your diagnostic grayscale display, consider the age of the display, compliance with industry standards and DICOM compliance, calibration and Uniform Luminance, image quality, and return on investment. By doing so, you can ensure that your diagnostic grayscale display is always up-to-date and reliable, enabling you to produce accurate and reliable diagnostic images.

For more information, contact us open +270824698816 or email us info@fusionmedical.co.za

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Important elements that make up a Medical grade Diagnostic reporting Displays

Important elements that make up a Medical grade Diagnostic reporting Displays

Medical imaging technology has revolutionized the way doctors diagnose and treat patients. High-quality medical displays are essential for accurate diagnosis and treatment planning. Medical-grade diagnostic displays have several features that set them apart from consumer-grade displays. These features include high resolution, high brightness, color accuracy, uniformity, DICOM compliance, calibration, contrast ratio, and viewing angle. These features work together to provide medical professionals with the accurate and detailed images they need to make informed decisions about patient care. In this summary, we will discuss these features in more detail and explore their importance in medical imaging.

  1. High resolution: Medical-grade diagnostic displays typically have a higher resolution than consumer-grade displays. This allows for greater detail and accuracy when viewing medical images.
  2. High brightness: Medical displays must be bright enough to ensure that images can be clearly seen in well-lit rooms. This is especially important in operating rooms and other clinical settings.
  3. Color accuracy: Medical images must be displayed with high color accuracy to ensure that doctors and other medical professionals can make accurate diagnoses.
  4. Uniformity: The display must have uniform brightness and color across the entire screen to prevent image distortion and inaccuracies.
  5. DICOM compliance: Displays used for medical imaging must be compliant with DICOM (Digital Imaging and Communications in Medicine) standards to ensure that images are displayed correctly and consistently.
  6. Calibration: Medical-grade diagnostic displays must be calibrated regularly to ensure accurate color and brightness levels.
  7. Contrast ratio: The display must have a high contrast ratio to ensure that images are displayed with sufficient detail and clarity.
  8. Viewing angle: The display must have a wide viewing angle to allow multiple medical professionals to view the images simultaneously.

High resolution refers to the level of detail that can be displayed on a digital image or screen. It is typically measured in terms of the number of pixels that can be displayed horizontally and vertically on a display screen. The more pixels a display has, the higher its resolution will be, and the more detailed and sharp the images will appear.

In medical imaging, high resolution is particularly important because it allows for accurate diagnosis and treatment planning. Medical images, such as X-rays, CT scans, and MRIs, contain a vast amount of information that must be accurately displayed on a screen for medical professionals to interpret. If the resolution of the display is too low, critical details may be missed, potentially leading to incorrect diagnoses or treatment plans.

To achieve high resolution in a medical-grade diagnostic display, manufacturers often use advanced technologies such as high-density LCD panels, LED backlighting, and pixel-shifting techniques. These technologies allow for the display of more detailed images with greater accuracy and clarity.

Medical-grade diagnostic displays typically have higher resolution than consumer-grade displays. While consumer displays may have a resolution of 1080p or 4K, medical displays can have resolutions up to 8K or higher. This higher resolution allows for greater detail and accuracy when viewing medical images, and can help medical professionals make more informed diagnoses and treatment plans.

Overall, high resolution is an essential component of medical-grade diagnostic displays, as it allows for accurate and detailed imaging that is critical for medical diagnosis and treatment.

High brightness refers to a display technology that is designed to produce brighter and more vibrant images than traditional displays. This technology is used in a variety of applications, including digital signage, outdoor displays, and large format displays.

The brightness of a display is measured in units of nits or cd/m2, with higher numbers indicating a brighter display. High brightness displays typically have a brightness level of at least 700 nits, with some displays exceeding 1,000 nits or more.

One of the key features of high brightness displays is their ability to produce vivid and clear images even in bright sunlight or other high ambient light conditions. This makes them ideal for outdoor applications, where traditional displays may be difficult to see.

High brightness displays use a number of different technologies to achieve their bright and vibrant images. Some displays use LED backlights to provide bright and uniform lighting across the entire display, while others use advanced optical coatings to increase the amount of light that is reflected off the display.

In addition to their high brightness, these displays are also designed to be durable and weather-resistant, with features such as water-resistant casings, ruggedized construction, and anti-glare coatings.

High brightness displays are used in a variety of applications, including outdoor advertising, public information displays, retail displays, and digital signage. They are also used in industrial and military applications, where high brightness displays are needed for use in harsh environments.

Overall, high brightness displays offer a powerful and effective way to communicate with audiences in a variety of settings, providing clear and vibrant images even in the most challenging lighting conditions.

Colour accuracy is another critical factor to consider when comparing medical grade displays with commercial grade displays. Medical displays require high colour accuracy to ensure accurate diagnosis and treatment. In medical imaging, colour plays an essential role in distinguishing between healthy and abnormal tissue. Any subtle changes in the colour of the tissue can affect the diagnosis and, ultimately, the treatment outcome. Therefore, medical displays must have a high degree of colour accuracy to enable physicians to identify small changes in tissue colour accurately.

In contrast, commercial displays do not require the same level of colour accuracy. While colour accuracy is still important in commercial applications, it is not as critical as it is in medical imaging. In some commercial applications, such as advertising and marketing, the colour of the image may be adjusted for artistic or aesthetic purposes, rather than for accurate colour reproduction.

Medical displays achieve high colour accuracy through various technologies, such as LED backlighting, advanced colour calibration, and the use of colour gamuts such as sRGB, Adobe RGB, and DCI-P3. Additionally, medical displays undergo rigorous colour accuracy testing and are regularly calibrated to ensure consistent and accurate colour reproduction.

Commercial displays, on the other hand, may use less advanced colour calibration technologies and may not undergo the same level of colour accuracy testing as medical displays. This can result in variations in colour reproduction between different displays and even within the same display over time.

Overall, the high degree of colour accuracy required for medical grade displays sets them apart from commercial grade displays and highlights the importance of using the right type of display in medical imaging applications.

Uniformity of luminance refers to the consistency of brightness across the entire screen of a medical grade display. This is important because if there are areas of the screen that are brighter or darker than others, it can lead to inaccuracies in the interpretation of medical images, which can have serious consequences for patient care. To ensure uniformity of luminance, medical grade displays are manufactured with highly precise and calibrated components, including backlighting systems and display controllers. In addition, manufacturers typically perform extensive testing and quality control measures to ensure that each display meets strict uniformity standards before it is released to the market. Overall, uniformity of luminance is a crucial factor to consider when evaluating medical grade displays for use in healthcare settings.

DICOM (Digital Imaging and Communications in Medicine) Compliance refers to the adherence of a medical device or software to the DICOM standard, which is an international standard for the communication, management, and archival of medical imaging information. The DICOM standard specifies how medical images and associated information should be stored, transmitted, and viewed to ensure that images are displayed consistently and accurately across different systems and devices.

For diagnostic medical grade displays, DICOM compliance is crucial as it ensures that images are displayed accurately and consistently. Medical images, such as X-rays, CT scans, and MRIs, are used for diagnosis and treatment planning, and even slight variations in the display of these images can have significant consequences. DICOM compliance ensures that medical images are displayed in a manner that is consistent with their intended use and provides a level of confidence in the accuracy of the images.

To achieve DICOM compliance, medical displays must meet certain standards and requirements, such as displaying images according to the DICOM Grayscale Standard Display Function (GSDF) curve, which specifies how luminance values in medical images should be mapped to display luminance values. DICOM also requires displays to undergo regular quality control testing, including uniformity and luminance tests, to ensure that images are displayed accurately and consistently over time.

Overall, DICOM compliance is essential in ensuring the accuracy and consistency of medical images displayed on diagnostic medical grade displays. By adhering to DICOM standards, medical professionals can have greater confidence in the images they are viewing, leading to more accurate diagnoses and improved patient outcomes.

Calibration is the process of adjusting the settings of a device to ensure that it produces accurate and consistent results. In the context of diagnostic medical grade displays, calibration is a critical process that ensures that the display produces accurate and consistent images that can be relied upon for diagnostic purposes.

During the calibration process, a measurement device is used to analyze the output of the display and compare it to a set of standards or reference images. The calibration software then adjusts the display settings to bring it into compliance with these standards. This typically involves adjusting the brightness, contrast, and color accuracy of the display to ensure that it is displaying images as accurately as possible.

The importance of calibration in diagnostic medical grade displays cannot be overstated. Inaccurate or inconsistent displays can lead to misdiagnosis or missed diagnoses, which can have serious consequences for patient health. Calibration is therefore essential to ensure that the images displayed on the screen accurately reflect the underlying data and can be relied upon for diagnosis.

In addition to ensuring accuracy and consistency, calibration is also an important part of maintaining compliance with industry standards and regulations. Many regulatory bodies require regular calibration of medical displays to ensure that they are performing as expected and meeting the necessary standards for medical imaging.

DICOM calibration refers to the process of adjusting the display characteristics of a diagnostic medical display to meet the standards set by the Digital Imaging and Communications in Medicine (DICOM) organization. DICOM calibration is essential in ensuring that medical images are accurately displayed, which is critical for making accurate diagnoses.

DICOM calibration involves adjusting the brightness and contrast of the display, as well as the color temperature, to match the DICOM grayscale display function (GSDF) curve. The GSDF curve is a mathematical formula that ensures consistent and accurate display of grayscale images across different types of medical displays. Calibration also involves adjusting the gamma and white point settings of the display, to ensure that images are displayed with the correct brightness and contrast levels.

DICOM calibration is important for maintaining the accuracy and consistency of medical images, especially when images are compared over time or between different displays. Without proper calibration, there can be significant variations in image quality and brightness, which can lead to incorrect diagnoses or misinterpretation of medical images.

In addition to meeting DICOM standards, medical displays must also comply with other regulations and standards, such as those set by the US Food and Drug Administration (FDA) and the International Electrotechnical Commission (IEC). These regulations help to ensure that medical displays are safe and effective for use in diagnosing and treating patients.

Contrast ratio refers to the difference between the darkest and brightest areas on a display. In the context of diagnostic medical grade displays, contrast ratio is an important factor because it affects the ability of healthcare professionals to accurately diagnose medical conditions.

In medical imaging, the contrast ratio of a display is a critical factor in determining the visibility of certain details in an image. If the contrast ratio is too low, it can be difficult to distinguish between different shades of gray, which can lead to misdiagnosis or missed diagnoses. Conversely, if the contrast ratio is too high, it can create a harsh, overly bright image that can also lead to misinterpretation of the image.

To ensure that diagnostic medical displays have a consistent and accurate contrast ratio, manufacturers typically use a variety of calibration techniques. These techniques are designed to adjust the display’s settings to achieve optimal levels of brightness and contrast, while also ensuring that the display complies with relevant industry standards and guidelines.

In addition to proper calibration, healthcare facilities should also take steps to regularly inspect and maintain their diagnostic medical displays. This can include monitoring the displays for signs of wear and tear, cleaning the displays regularly to ensure optimal image quality, and replacing displays that are no longer functioning properly. By taking these steps, healthcare professionals can ensure that they are using diagnostic medical displays that are accurate, reliable, and capable of delivering high-quality medical imaging results.

Viewing angle refers to the range of angles at which an observer can accurately see an image on a display without experiencing any distortion or color shifting. It is an important factor to consider when selecting a medical grade display for diagnostic imaging, as healthcare professionals need to be able to view images from various angles and positions.

For medical professionals who are examining images with critical details, a wide viewing angle is important to ensure that the image is clearly visible from any angle. A narrow viewing angle could lead to issues such as color distortion, brightness reduction, and loss of contrast, which can ultimately lead to misdiagnosis or inaccurate treatment plans.

To ensure that a medical grade display provides a wide and accurate viewing angle, manufacturers typically use high-quality panel technologies and incorporate features such as wide viewing angle filters. These filters work by reducing the amount of light reflected off the screen and scattered in various directions, allowing for more consistent and accurate image viewing across a wider range of angles.

It is important to note that while wider viewing angles are typically desirable, there are limits to the range of angles that a display can support. Users should consult with manufacturers and test displays under real-world conditions to ensure that they provide adequate viewing angles for their specific needs.

For more information, contact us open +270824698816 or email us info@fusionmedical.co.za

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JUSHA Medical at UKIO

Along the Mersey, sea breeze over Liverpool opened the UKIO. From July 4 to 6, 2022, more than 120 exhibitors and more than 2,000 exhibitors from all over the world gathered in Liverpool to participate in the largest multidisciplinary imaging, oncology and radiology event in the UK. All the exhibitors presented up-to-date equipment and technology from the industry.The edge of the tablet is thinner than a smartphone and through its design, The CP610 is a streamlined Professional and stylish panel. The CP610 is ultra light w
eighing in at only 850g making it easily transportable. It comes shipped with dedicated leather case.

During the exhibition JUSHA showed 5M, 12M high-resolution professional mammography monitors with built-in DICOM standard LUT, suitable for PACS, digital mammography. The 3M and 6M medical professional color displays can meet the clinical diagnostic needs such as CT, MR, CR, and DR. In addition, the 84-inch extra-large screen intelligent integrated image consultation system achieved high-quality synchronous sharing with the keynote speaker desktop, real-time audio and video interaction, remote text communication and file sharing…. With its excellent product quality and professional service team, Jusha has been highly recognised by experts and scholars from all over the world.

As the theme of UKIO 2022 is: Harnessing disruption– clinical excellence in a time of chaos. In the post-epidemic era, Jusha is still setting its foot all around the world, always fighting for human health!

For more information, contact us open +270824698816 or email us info@fusionmedical.co.za

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American Medical Institutions Diagnosing Novel COVID-19 Pneumonia with Jusha.

Development Prospect of Jusha Medical

Jusha Medical is a global medical high-tech enterprise founded in 1996. The headquarters is located in Nanjing, PRC. Its high-tech industrial park is situated in Nanjing Jiangbei New Area. It governs two wholly-owned companies (each managing one wholly-owned subsidiary) and one holding company. Jusha Medical mainly engages in the R&D, production and sales of high-end medical digital X-ray equipment, overall solution for medical digital visualization, medical naked eye 3D display system, overall solution of intelligent operating room, high pressure injector and the products of infection-controlling cleaning, package and sterilization monitoring.

Since 2010, Jusha Medical has been making an overall arrangement of the transformation dominated by research and development. Presently, it has three R&D centers in Nanjing, Shanghai and Shenzhen, as well as the united R&D Department in Leeds, UK. Jusha Medical possesses the high-end R&D team, accounting for 30% of the total company staff. This is also the high-tech talent team with the top R&D strength in the domestic professional field. The annual investment in R&D accounts for 15% of the whole annual turnover. Presently, more than 800 domestic and international proprietary patents have been approved. Among them, many patents including “A Way Automatically Identifying and Calibrating Medical Colors and Gray Scale Images”, “An Effective Way Controlling the Highlighted Area Display of Console Display” and “Biological Indicator of Genetic Engineering” fill the gap of professional fields, which solved the issues perplexing the medical circles for many years.

Jusha Medical has set up numerous offices and after-sales service points globally. Its products and solutions have been applied for more than 70 countries and districts in the world, serving one billion patients globally for diagnosis and treatment. In recent years, Jusha Medical has increased its investment of R&D in the fields of medical image cloud platform, operating assistant robots, large-scale radiation equipment, infection control biological monitoring as well as the electronic monitoring interpretation. Magnificent achievements have been realized. Not only can it create value for the global customers, but also make its unique and valuable contributions to the human health undertaking.

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JUSHA CP-620 Portable Medical Monitor

The Jusha CP-620 Portable 6MP Diagnostic Medical Display Monitor is an exceptional medical display that offers a range of advanced features. However, when doctors need a mobile solution, the Jusha CP-620 Portable Medical Monitor can be their butler for portable diagnosis. Here are eight reasons why the CP-620 is an excellent choice for doctors on-the-go:

  1. Portable Solution: The Jusha CP-620 is a 6MP portable medical grade monitor that is designed for doctors who need a mobile solution. Its lightweight design and dedicated leather case make it easily transportable, so doctors can take it with them wherever they go.
  2. Accurate Medical Images: The CP-620 can display accurate medical images by connecting it to a personal laptop using the display port for video transmission. When using the USB Type-C port, both power and video transmission can work via one cable, providing a convenient and efficient solution for doctors.
  3. High Resolution Display: The CP-620 is equipped with a 6MP high-resolution display, capable of showing all details of the medical image that is displayed. This feature ensures that doctors can view medical images with the highest level of detail and accuracy, allowing them to make informed diagnoses.
  4. Compatibility with Different Medical Devices: The CP-620 can display either 1MP DSA Image or 5MMP Mammography image, meeting the requirements for medical diagnosis of CT, MR, DR, and Mammography images. This feature ensures compatibility with different medical devices, making it a versatile tool for doctors.
  5. 14 Bit Image Processing Chip: The CP-620 is equipped with a 14 Bit (RGB) image processing chip, which can display 16384 grayscale and 41398 trillion colours. This feature ensures that doctors can view detailed and accurate medical images, with every single pixel displayed.
  6. Strictly Meets DICOM Imaging Standards: Jusha measures and configures every grayscale of the CP-620 to ensure accuracy and consistent grayscale images of the product. They manufacture every monitor to strictly meet DICOM imaging standards, ensuring that doctors can rely on the monitor for accurate medical image display.
  7. Streamlined Professional Design: The edge of the CP-620 is thinner than a smartphone, and its streamlined, professional design is both stylish and practical. This feature ensures that doctors can carry the monitor with them wherever they go, without compromising on style or professionalism.
  8. Dedicated Leather Case: The CP-620 comes shipped with a dedicated leather case, providing an extra layer of protection during transport. This feature ensures that doctors can transport the monitor with ease, without worrying about damaging it during transport.

Overall, the Jusha CP-620 Portable Medical Monitor is an excellent solution for doctors who need a mobile solution. Its high-resolution display, compatibility with different medical devices, 14 bit image processing chip, and strict adherence to DICOM imaging standards make it a reliable and accurate tool for medical image interpretation. Its lightweight design, streamlined professional style, and dedicated leather case make it an excellent choice for doctors who require a portable medical display solution.

View our video on the CP610 via the following link

https://youtu.be/aTNd4Z6NdQ8 and for more information, contact us open +27(0)824698816 or email us info@fusionmedical.co.za

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Jusha C1210G 12MP medical image intelligent display terminal

With the increasing maturity and popularity of PACS technology, as well as the rapid development of various digital imaging equipment such as DR, CR, multi-row CT, 3D image, the selection and configuration of medical display has become the focus of attention of hospitals and PACS integrators. Medical display is the final rendering of medical images in the digital system, which carries the responsibility of replacing film, ensuring image quality, and finally realizing the observation and diagnosis of patients by doctors “soft film reading”. Radiologist’ requirements for medical display are also expanded from a simply display to accurate, healthy and efficient aspects, and intelligent medical display has become a trend.

Jusha defines a new form of diagnostic display with innovative technology. The 12M medical image intelligent display terminal C1210G has a large size of 31 inches and a high resolution of 12MP. It can not only perfectly match the simultaneous diagnosis of double breast images, but also use the “Jusha Intelligent Core” and Jusha intelligent technology to further optimise the workflow, providing you with unprecedented extraordinary experience

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