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GEV-H361
Geiwre
The Electronic Rhinolaryngoscope stands as a cutting-edge medical imaging solution tailored for high-definition visualization of the nasal cavity, pharynx, and larynx. It integrates top-tier optics, ergonomic design, and advanced digital imaging technology, making it an indispensable tool for accurate diagnosis and efficient examination of various Ear, Nose, and Throat (ENT) conditions.
This flexible video endoscope is crafted with an ergonomic and lightweight structure, effectively reducing the operator's work intensity during procedures. Its bullet-shaped insertion head facilitates easy entry into the body's natural cavities, ensuring a smooth and comfortable experience for both medical professionals and patients. The integrated video plug, combined with cold light lighting, eliminates the risk of tissue burns, prioritizing patient safety. Additionally, it comes with an independently packaged three-way adaptor featuring an optical fiber locking device, and a perfusion pump system compatible with both existing international and domestic brand equipment in the operating room. Each unit is supplied in aseptic independent packaging for single use, upholding strict hygiene standards.
The following table presents the detailed specifications of the Flexible Rhinolaryngoscopes:
Diameter(MM) | Length(customizable) | Inside diameter of working passage | Angle of bend | Pixel | Depth of field | Field angle |
2.8 | 380 | 1.2±0.04 | Turn up 210°Turn down 210° | 16W/30W | 5-150MM | 140° |
4.3 | 380 | 1.2±0.04 | Turn up 210°Turn down 210° | 16W/30W | 5-150MM | 140° |
5.8 | 380 | 2.2±0.04 | Turn up 210°Turn down 210° | 16W/30W/50W | 5-150MM | 140° |
Equipped with an advanced CMOS image sensor and high-quality optical lens, this rhinolaryngoscope achieves a resolution of 1920×1080. This high resolution enables the clear display of fine structures within human tissues, such as cell morphology and blood vessel distribution. It empowers doctors to accurately detect small lesions, including early-stage tumors and ulcers, which might be missed with lower-resolution devices.
Boasting accurate color calibration technology, the device truly restores the natural color of human tissues. This ensures that the images observed by doctors are consistent with the actual tissue colors, aiding in the judgment of pathological conditions based on tissue color changes. For instance, it can clearly show the degree of redness and swelling at inflammation sites and the color of hemorrhages, providing valuable diagnostic clues.
With a frame rate of up to 30 frames per second, the endoscope guarantees smooth dynamic image output. During endoscopic surgeries, doctors can clearly observe real-time dynamic changes of tissues and organs, such as the beating of the heart and gastrointestinal peristalsis, enabling precise and accurate operations.
The endoscope features a compact design and a small diameter, allowing it to enter the body through natural cavities or small incisions. For example, similar to a gastroscope entering the digestive tract through the mouth or an arthroscope entering the joint cavity through the joint space, this rhinolaryngoscope can reach the nasal cavity, pharynx, and larynx for examination and treatment, minimizing trauma to patients.
Primarily designed for the ENT field, the Flexible Rhinolaryngoscope is widely used for examining and diagnosing conditions in the nasal cavity, pharynx, and larynx. It can detect issues such as nasal polyps, pharyngitis, laryngeal nodules, and early-stage laryngeal tumors, providing clear and detailed images for accurate diagnosis and treatment planning.
Although mainly focused on ENT, its flexible design and high-quality imaging make it applicable in the respiratory department for auxiliary examinations. It can assist in observing the upper respiratory tract, helping doctors assess the connection between ENT conditions and respiratory disorders, providing a more comprehensive diagnostic perspective.
In medical research and education, this rhinolaryngoscope serves as a valuable tool. It can provide high-definition images for studying ENT diseases, and in educational settings, it helps medical students and trainees gain a better understanding of the anatomy and pathology of the nasal cavity, pharynx, and larynx through real-time visualization, enhancing their learning experience and practical skills.
High resolution imaging: The advanced CMOS image sensor and high-quality optical lens are usually used to achieve a resolution of 1920×1080, which can clearly show the fine structure of the internal tissues of the human body, such as cell morphology and blood vessel distribution, and help doctors accurately detect small lesions, such as early tumors and ulcers.
Excellent color reproduction: with accurate color calibration technology, it can truly restore the natural color of human tissue, so that the image observed by the doctor is consistent with the actual tissue color, which is helpful to judge the pathological condition according to the change of tissue color, such as the degree of redness and swelling of the inflammation site, the color of the hemorrhages, etc.
High frame rate image output: generally up to 30 frames per second frame rate, to ensure the smooth dynamic image, in endoscopic surgery, the doctor can clearly observe the real-time dynamic changes of tissues and organs, such as the beating of the heart, gastrointestinal peristalsis, etc., easy to precise operation.
Miniaturization and flexibility: the endoscope is compact in design and small in diameter, and can enter the body through the natural cavity or small incision. For example, the gastroscope can enter the digestive tract through the mouth, and the arthroscope can enter the joint cavity through the joint space, for examination and treatment of different parts, reducing the trauma of patients.
Respiratory department: Bronchoscopy can help doctors observe the trachea and bronchus, diagnose lung diseases, such as lung, bronchiectasis, etc., can also be used to remove foreign bodies in the airway or perform alveolar lavage and other treatments.
Urology: During cystoscopy and ureteroscopy and operation, the internal structure of the bladder, ureter and kidney can be clearly displayed, which is used for the diagnosis and treatment of urinary calculi, tumors, prostate hyperplasia and other diseases.
Gynecology: Hysteroscopy can be used to observe the lesions in the uterine cavity, such as uterine fibroids, endometrial polyps, etc., to provide intuitive image support for the diagnosis and treatment of gynecological diseases.
