Report ID: 10086157 |
Published Date: 21 Oct 2022 |
Report Format: |
Delivery Timeline: 48-72 Business Hours
" The Medical X-ray tube market value is estimated to be ~USD 3 billion in 2021 and is expected to expand at a compound annual growth rate of 5% during the forecast period from 2022 to 2030. With the innovation of electronic technology, the scale of the system has dropped significantly. With the advent of compact systems, X-ray machines can now be used in various fields such as airport security, baggage scanning, metallurgical applications, healthcare diagnostic equipment, non-destructive testing and other industrial applications.
Investment in diagnostic equipment, the demand for X-ray tubes in medical imaging is increasing, and more innovations have been made, which in turn has driven the growth of the studied market. Technical advances in X-ray tube sizes, as well as new and Improved X-ray-based imaging technology is being introduced to the market.
These technological advances help to develop new X-ray tubes that can make the entire process more efficient and can significantly improve the accuracy of many applications. In July 2019, Micro X manufactured a new carbon nanotube X-ray tube for its X-ray product platform. These CNT-based X-ray tubes are the first and only electron emission that does not use heating filaments, reducing size, weight, heat and power.
The total cost of the project is approximately US$3 million, including development work and new capital equipment. In the same year, it also signed an agreement worth 10 million Australian dollars with the defense company Thales Group to develop mobile X-ray products for security purposes. Thales and Micro-X will collaborate on the global sales and support of Micro-X’s mobile backscatter imager counter-terrorism device (ie, improvised explosive device) and security scanners at airport checkpoints. However, strict regulations and strict FDA regulations exist all over the world. The cost of manufacturing and designing X-ray tubes increases the cost of manufacturers and becomes a barrier for new entrants. Medical and healthcare applications benefit greatly from the current pandemic situation.
Many associations and regulatory agencies around the world have adopted computed tomography and X-ray imaging as the main inspection methods for checking patients for COVID-19-related symptoms. According to Siemens Healthineers, studies by multiple researchers have found that X-ray examinations are less sensitive to COVID-19-related lung shadows, ranging from 25% to 69%.
REPORTING SCOPE :
X-ray tube is a device that generates X-rays when charged. The kit is mainly composed of four parts, including anode, cathode, glass shell and protective shell. The electrode is placed in a vacuum glass enclosure, and the charge passes through the device. The electrons emitted from the electrodes travel in vacuum to reach the opposite electrode, causing X-rays to be emitted. Since their inception, these electronic tubes have found various applications in various industries, although the medical industry has always been the main consumer of these devices.
KEY MARKET TRENDS:
The healthcare industry is expected to bring significant growth to the research market. The healthcare industry relies heavily on diagnosis to resolve injuries and treat patients. In addition, the number of medical cases requiring X-ray diagnosis is increasing at a dizzying rate. It is estimated that about 40 million people worldwide have been injured in accidental road accidents. As technology advances and the healthcare industry increasingly adopts technology, many advances in medical radiation are reflected in equipment and technology. In recent years, one of the most important advances in interventional X-rays has been increasing attention to core and auxiliary technologies to provide high-quality, high-resolution images without a corresponding increase in radiation dose.
The company has developed Nanox.ARC and Nanox.CLOUD, which is an X-ray system that can scan the whole body and then send the image to the cloud. Although most medical images are stored in digital format, the original scan is captured by an X-ray tube, which uses a cathode ray tube and anode to generate the image.
A cathode ray tube emits electrons at the anode, which captures the electrons and directs them to the object being scanned. In addition, in November 2019, Royal Philips, a global healthcare technology provider, launched Incisive CT to help imaging departments and healthcare organizations achieve their most pressing financial, clinical, and operational goals. Philips will replace the Incisive X-ray tube, a key component of any CT system, without incurring additional costs during the entire life cycle of the system.
Advances are driven by advances in image quality, radiation dose management, and clinical applications. Computed tomography (CT) has become one of the cornerstones of imaging and radiology. In the medical field, dental applications that require smaller and shorter scans are found to use fixed X-ray tubes for imaging. According to Listerine Professional, oral disease is the most common health problem, affecting 3.9 billion people worldwide.
Therefore, in the dental field, the main demand for X-ray imaging that does not require a rotating anode X-ray tube is due to a fixed tube suitable for imaging purposes. In addition, there are regulations on radiation safety to ensure that radiography has no harmful effects on human health. For example, the American Dental Association (ADA) has worked with the FDA to develop recommendations for dental radiology examinations to supplement dentists’ professional judgment on how to best use diagnostic imaging.
KEY MARKET TRENDS:
The healthcare industry is expected to bring significant growth to the research market. The healthcare industry relies heavily on diagnosis to resolve injuries and treat patients. In addition, the number of medical cases requiring X-ray diagnosis is increasing at a dizzying rate. It is estimated that about 40 million people worldwide have been injured in accidental road accidents. As technology advances and the healthcare industry increasingly adopts technology, many advances in medical radiation are reflected in equipment and technology.
In recent years, one of the most important advances in interventional X-rays has been increasing attention to core and auxiliary technologies to provide high-quality, high-resolution images without a corresponding increase in radiation dose. The company has developed Nanox.ARC and Nanox.CLOUD, which is an X-ray system that can scan the whole body and then send the image to the cloud. Although most medical images are stored in digital format, the original scan is captured by an X-ray tube, which uses a cathode ray tube and anode to generate the image.
A cathode ray tube emits electrons at the anode, which captures the electrons and directs them to the object being scanned. In addition, in November 2019, Royal Philips, a global healthcare technology provider, launched Incisive CT to help imaging departments and healthcare organizations achieve their most pressing financial, clinical, and operational goals. Philips will replace the Incisive X-ray tube, a key component of any CT system, without incurring additional costs during the entire life cycle of the system. Advances are driven by advances in image quality, radiation dose management, and clinical applications.
Computed tomography (CT) has become one of the cornerstones of imaging and radiology. In the medical field, dental applications that require smaller and shorter scans are found to use fixed X-ray tubes for imaging. According to Listerine Professional, oral disease is the most common health problem, affecting 3.9 billion people worldwide.
Therefore, in the dental field, the main demand for X-ray imaging that does not require a rotating anode X-ray tube is due to a fixed tube suitable for imaging purposes. In addition, there are regulations on radiation safety to ensure that radiography has no harmful effects on human health. For example, the American Dental Association (ADA) has worked with the FDA to develop recommendations for dental radiology examinations to supplement dentists’ professional judgment on how to best use diagnostic imaging.
NORTH AMERICA REPRESENTS AN IMPORTANT PART :
Due to a sedentary lifestyle and unhealthy eating habits, the United States is witnessing an increase in the elderly population and an increase in the incidence of chronic diseases. In addition, with the increase of medical facilities, the development of medical infrastructure is expected to promote the market demand for medical X-ray tubes in the United States. For example, in 2019, the global medical device company EOS Imaging installed its fourth EOS system. At the Hospital of Special Surgery (HSS) in New York City, USA, this hospital provides low-dose whole-body stereoscopic radiographic images of patients in functional positions.
For example, in July 2020, Varex Imaging Corporation announced that it will showcase its latest X-ray tubes and sources, digital detectors, connection and control equipment, and software solutions at the 32nd European Congress of Radiology (ECR). One of the main sources of demand for X-ray tubes in the United States. The growing trend in the production of helicopters and commercial aircraft in the United States is the main factor driving the X-ray tube market in non-destructive testing applications. Since the US aerospace industry exports more than 60% of aerospace products, many foreign companies have been attracted to the US aerospace market.
The United States is also the world's largest aerospace market, with skilled labor and services, diverse products and extensive distribution systems. It is estimated that in the next two decades, the number of large commercial aircraft is expected to grow at an annual rate of 3%. It has reached 34,000 units annually, valued at US$4.5 billion. This demand in the aviation industry is an important factor in the growth of non-destructive applications, which has also translated into the demand for X-ray tubes in the United States.
MAJOR PARTICIPANTS:
Siemens AG Canon Electron Tubes & Devices Corporation Comet Koninklijke Group Philips NV Malvern Panalytical. "
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Report ID: 10086157 |
Published Date: 21 Oct 2022 |
Report Format: |
Delivery Timeline: 48-72 Business Hours
