市场调查报告书
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辐射剂量管理市场:按产品、模式、收益模式、应用和最终用户划分 - 2024-2030 年全球预测Radiation Dose Management Market by Offering (Services, Software), Modality (Computed Tomography, Fluoroscopy & Interventional Imaging, Imaging), Revenue Model, Application, End-User - Global Forecast 2024-2030 |
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辐射剂量控制市场规模预计2023年为7.9602亿美元,2024年达到9.0445亿美元,预计2030年将达到19.994亿美元,复合年增长率为14.06%。
使用电脑断层扫描、X 光和核医学的诊断影像的普及极大地促进了对辐射剂量管理解决方案的需求的增加。随着此类手术的增加,越来越需要监测和控制患者接触电离辐射的情况,以确保患者安全并遵守监管标准。整合辐射剂量管理系统使临床医生能够在保持影像品质的同时最大限度地减少不必要的辐射暴露,从而最佳地使用这些技术。随着公众对与辐射暴露相关的潜在风险的了解越来越多,患者越来越担心他们从多次影像处理中收到的累积辐射剂量。这种意识的不断增强导致医疗保健提供者对透明度和严格剂量控制的要求不断提高。卫生系统不断寻找在不影响护理品质的情况下降低成本的方法。有效的辐射剂量管理有助于避免因剂量不当而导致的重新检查,并减少与过度照射和不必要的影像检查相关的额外费用。医疗保健中巨量资料和分析的整合正在创造一个机会,利用诊断成像部门产生的大量资料来实现更聪明的剂量管理。采用资料驱动的方法不仅可以提高患者的安全,还可以提高业务效率和行业标准基准。医疗资讯科技的扩展和医疗保健领域的数位化趋势正在推动辐射剂量管理系统在电子健康记录(EHR) 中的整合。这种整合有助于更好地追踪、分析和报告辐射剂量,从而增加了对整体患者资料管理的需求。
主要市场统计 | |
---|---|
基准年[2023] | 7.9602亿美元 |
预测年份 [2024] | 90445万美元 |
预测年份 [2030] | 19.994 亿美元 |
复合年增长率(%) | 14.06% |
产品软体的发展可实现医院的无缝诊断业务
辐射剂量管理服务专为医疗机构设计,用于监测和优化诊断和治疗过程中向患者提供的辐射剂量。专注于病人安全和遵守监管标准。提供的服务包括现场评估、员工教育和培训计划、剂量追踪和报告以及製定和实施剂量优化策略的综合咨询。另一方面,辐射剂量管理软体解决方案提供先进的软体解决方案,以在各种医学影像处理中实现有效的辐射剂量管理。该软体能够准确追踪、监测和报告辐射暴露,有助于改善患者照护和遵守剂量管理通讯协定。另一方面,整合辐射剂量管理系统结合了硬体和软体组件,以实现无缝的辐射剂量管理体验。它可以与现有的医院资讯系统(HIS)、电子健康记录(EMR)以及图片存檔和通讯系统(PACS)集成,为剂量资料分析和管理提供中央枢纽。透过与现有工作流程整合降低复杂性并提高效率。独立辐射剂量管理软体满足了设施对独立于其他医院系统运作的独立辐射剂量管理软体的要求。这些工具适用于各种医疗保健环境,因为它们具有高度可自订性,不需要完整的系统集成,并且旨在满足实践的独特需求。
模态 定期对不同模态品管检查,采用精准定位,确保最小暴露,同时获得可靠的诊断结果
电脑断层扫描 (CT) 因其利用围绕患者旋转的 X 光创建详细的身体截面影像的能力而广为人知。 电脑断层扫描对患者的总医疗辐射暴露影响很大,因此有效的辐射剂量管理非常重要。利用剂量调变、最佳通讯协定选择和使用先进的影像重建软体等技术来最大限度地减少剂量,同时保持影像品质。萤光透视和介入成像是提供即时成像来指导手术的技术。这些对于心臟病学、胃肠病学和整形外科等领域至关重要。这些程序的动态性质可能会导致患者和工作人员受到高累积辐射剂量。放射诊断包括用于诊断和监测各种医疗状况的各种显像模式。诊断成像的辐射剂量会根据测试类型和所使用的设备而变化。严格标准化成像通讯协定、定期维护设备以及遵守辐射防护法规对于曝光控制至关重要。放射科医师的持续教育和培训在优化剂量而不影响诊断效果方面也发挥着重要作用。乳房X光摄影是一种特殊的医学影像诊断方法,利用低剂量X光对乳癌进行早期发现和诊断。乳房X光摄影的辐射剂量控制特别敏感,因为乳房组织对电离辐射敏感。数位乳房X光摄影和断层合成等先进技术已发展,可提高影像质量,且辐射比传统胶片系统更少。
收益模式:PPP(按次付费)模式更具成本效益,对病人有利。
在年度购买收益模式中,医疗机构为使用辐射剂量管理 (RDM) 系统支付一年的预付费用。此费用通常包括使用软体的许可、维护和客户支援服务。其目的是为预算目的提供可预测的成本。医疗保健提供者可以在合约期间不间断地存取 RDM 工具,从而实现一致的辐射剂量监测和管理,从而受益匪浅。该模型适用于处理大量成像程序并需要稳定、连续的 RDM 解决方案的大型设施。另一方面,按程序付费模式是基于交易的,医疗机构根据使用 RDM 系统影像处理数量进行申请。这种方法提供了可变的成本结构,对于具有可变影像处理量的设施是有利的。它弹性且扩充性,因为成本与使用直接相关。
应用 辐射剂量管理在肿瘤学研究和治疗上具有多种应用。
在心臟病学中,辐射剂量控制对于冠动脉摄影术、经皮冠状动脉介入治疗 (PCI) 和电生理学研究等诊断和介入手术至关重要。透过有效管理辐射剂量,医疗保健专业人员可以最大限度地降低辐射损伤的风险,同时确保高品质的影像,以帮助做出准确的诊断和治疗决策。肿瘤学严重依赖放射线治疗来根治性和安宁疗护各种癌症。使用适当的辐射剂量管理,可以向癌细胞提供最大剂量的辐射,同时最大限度地减少对周围健康组织的暴露。这对于实现治疗效果并减少与放射治疗相关的副作用和长期併发症的可能性至关重要。整形外科中的放射剂量控制对于需要透视的手术尤其重要,例如脊椎手术、关节关节重建和骨折融合术。准确的剂量管理可以保护患者免受不必要的辐射照射,并有助于减少治疗期间可能需要多次诊断影像的患者的累积剂量。此外,放射线照相术(包括 X 光、电脑断层扫描 (CT) 扫描和乳房X光摄影X 光照相术等成像方式)使用电离辐射在体内创建影像。放射照相中有效的辐射剂量管理遵循 ALARA(尽可能低)原则,并平衡诊断资讯的需求和尽量减少辐射暴露的需求,从而确保病人安全。
最终用途:先进的管理工具,专注于医院剂量管理通讯协定的准确性和可重复性
在门诊医疗中,辐射剂量控制在确保医院外提供的诊断影像服务中的病人安全方面发挥着重要作用。这些设施通常包括诊断影像中心、门诊诊所和私人医生办公室,它们利用 X 光、电脑断层扫描 (CT) 和萤光透视等诊断影像技术。准确追踪和管理辐射剂量对于防止重复手术过程中不必要的暴露和维持高医疗标准至关重要。门诊护理机构需要将剂量管理解决方案整合到工作流程中,以最大限度地减少患者等待时间并提供高效的服务。由于所执行的影像处理的数量和复杂性,医院是辐射剂量管理最密集的环境。医院配备了各种诊断影像设备,从常规 X 光到先进的介入放射学。这些环境中的辐射剂量管理需要强大的系统来追踪和分析部门和患者群体的辐射暴露。当医院实施剂量管理策略时,遵守监管标准、优化成像通讯协定以及确保患者和工作人员的安全是重要的考虑因素。研究机构和学术医疗中心通常处于医学影像技术进步的最前沿,并参与利用影像技术的各种临床试验。在这样的环境中,研究系统必须透过提供适合研究目标的详细资料来支持研究活动,同时确保受试者的安全。学者和研究人员使用剂量管理工具来评估和开发辐射使用的最佳实践,探索新的成像技术,并为全行业的标准制定做出贡献。
区域洞察
由于其先进的医疗基础设施和严格的病人安全法规,美国是辐射剂量管理的重要市场。诊断影像设备的使用不断增加以及需要频繁扫描的慢性疾病的流行也促进了市场需求。客户购买行为倾向于与现有系统无缝整合的先进软体解决方案,表现出对效率和扩充性的偏好。欧盟市场的特点是遵守严格的法规,例如欧洲指令 2013/59/Euratom,该指令要求尽量减少电离辐射暴露。欧盟内部对研发和创新的投资巨大,重点是开发在不影响诊断效果的情况下提高病患安全的技术。欧盟消费者的需求面向具有高互通性和资料保护标准的软体解决方案。在中东和非洲国家,医疗基础设施的发展不断进步,KEYWORD解决方案的市场不断扩大。对医疗保健系统的投资,加上医疗游客的增加,需要先进的辐射剂量管理通讯协定。采购决策受到技术进步和售后服务的影响。在政府推动医疗改革的推动下,包括印度、中国、日本和澳洲在内的亚太国家的医疗保健业务正在快速成长。由于医疗保健设施的增加和需要医疗服务的中阶的不断壮大,辐射剂量管理的区域市场正在扩大。
FPNV定位矩阵
FPNV 定位矩阵对于评估辐射剂量管理市场至关重要。我们检视与业务策略和产品满意度相关的关键指标,以对供应商进行全面评估。这种深入的分析使用户能够根据自己的要求做出明智的决策。根据评估,供应商被分为四个成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。
市场占有率分析
市场占有率分析是一种综合工具,可以对辐射剂量管理市场中供应商的现状进行深入而深入的研究。全面比较和分析供应商在整体收益、基本客群和其他关键指标方面的贡献,以便更好地了解公司的绩效及其在争夺市场占有率时面临的挑战。此外,该分析还提供了对该行业竞争特征的宝贵见解,包括在研究基准年观察到的累积、分散主导地位和合併特征等因素。这种详细程度的提高使供应商能够做出更明智的决策并制定有效的策略,从而在市场上获得竞争优势。
1. 市场渗透率:提供有关主要企业所服务的市场的全面资讯。
2. 市场开拓:我们深入研究利润丰厚的新兴市场,并分析其在成熟细分市场的渗透率。
3. 市场多元化:提供有关新产品发布、开拓地区、最新发展和投资的详细资讯。
4.竞争评估与资讯:对主要企业的市场占有率、策略、产品、认证、监管状况、专利状况、製造能力等进行全面评估。
5. 产品开发与创新:提供对未来技术、研发活动和突破性产品开发的见解。
1.辐射剂量管理市场的市场规模与预测是多少?
2.在辐射剂量管理市场的预测期间内,有哪些产品、细分市场、应用和领域需要考虑投资?
3.辐射剂量控制市场的技术趋势和法规结构是什么?
4.辐射剂量管理市场主要厂商的市场占有率为何?
5.进入辐射剂量控制市场的适当形式和策略手段是什么?
[184 Pages Report] The Radiation Dose Management Market size was estimated at USD 796.02 million in 2023 and expected to reach USD 904.45 million in 2024, at a CAGR 14.06% to reach USD 1,999.40 million by 2030.
The proliferation of diagnostic imaging procedures using CT scans, X-rays, and nuclear medicine has significantly contributed to the increased demand for radiation dose management solutions. As the volume of these procedures rises, there is a heightened need to monitor and control patient exposure to ionizing radiation, ensuring both patient safety and compliance with regulatory standards. Integrating radiation dose management systems helps clinicians optimize the use of these technologies by minimizing unnecessary exposure while maintaining image quality. As the public becomes more informed about the potential risks associated with radiation exposure, patients are increasingly concerned about the cumulative radiation dose received from multiple imaging procedures. This awareness has led to more demand for transparency and stringent dose management practices among healthcare providers. Health systems are continuously seeking ways to reduce costs without compromising the quality of care. Efficient radiation dose management can help in avoiding repeat examinations due to incorrect dosage, thereby decreasing the additional expenses associated with over-exposure and unnecessary imaging studies. With the integration of big data and analytics in healthcare, there is an opportunity to utilize the extensive data generated by imaging departments for smarter dose management. The adoption of data-driven approaches not only enhances patient safety but also improves operational efficiencies and benchmarking against industry standards. The expansion of health information technologies and the growing trend of digitalization in healthcare encourages the integration of radiation dose management systems within electronic health records (EHRs). This integration fosters better tracking, analysis, and reporting of radiation doses, catering to the growing need for holistic patient data management.
KEY MARKET STATISTICS | |
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Base Year [2023] | USD 796.02 million |
Estimated Year [2024] | USD 904.45 million |
Forecast Year [2030] | USD 1,999.40 million |
CAGR (%) | 14.06% |
Product: Advancement in the softwares offer the seamless diagnostic operations in the hospitals
Radiation dose management services are designed to help healthcare facilities monitor and optimize the radiation doses administered to patients during diagnostic and therapeutic procedures. The focus is on patient safety and compliance with regulatory standards. Services offered include on-site assessments, staff education and training programs, dose tracking and reporting, and comprehensive consultancy to develop and implement dose optimization strategies. Meanwhile, radiation dose management software solutions offers a suite of advanced software solutions to facilitate effective radiation dose management across various medical imaging procedures. This software ensures accurate tracking, monitoring, and reporting of radiation exposure, contributing to improved patient care and adherence to dose management protocols. Meanwhile, an integrated radiation dose management system combines hardware and software components for a seamless radiation dose management experience. They are capable of interfacing with existing hospital information systems (HIS), electronic medical records (EMR), and picture archiving and communication systems (PACS), providing a centralized hub for dose data analysis and management. By integrating with existing workflows, they help reduce complexity and improve efficiency. Standalone radiation dose management software facilitates the requirement of facilities seeking specialized standalone radiation dose management software that can operate independently of other hospital systems. These tools are flexible and customizable, designed to meet the unique needs of practice without requiring full system integration, making them suitable for a variety of healthcare settings.
Modality: Regular quality control checks of different modalities, accurate positioning employed to ensure minimal exposure while achieving reliable diagnostic results
Computed Tomography (CT) is widely known for its ability to create detailed cross-sectional images of the body, utilizing x-rays that rotate around the patient. Hence, effective radiation dose management is critical, as CT scans can contribute significantly to the total medical radiation exposure of patients. Techniques such as dose modulation, optimal protocol selection, and utilization of advanced software for image reconstruction are utilized to minimize dose while maintaining image quality. Fluoroscopy and interventional imaging are techniques that provide real-time imaging to guide procedures. They are integral in fields such as cardiology, gastroenterology, and orthopedics. Due to their dynamic nature, these procedures can result in high cumulative radiation doses to patients and staff. Diagnostic radiography encompasses a range of imaging modalities used to diagnose and monitor various medical conditions. Radiation dose in diagnostic imaging hinges on the type of examination and the equipment used. Rigorous standardization of imaging protocols, regular equipment maintenance, and adherence to radiation protection regulations are imperative for managing exposure. Continuous education and training for radiographers also play a vital role in optimizing doses without compromising diagnostic efficacy. Mammography is a specialized medical imaging modality that uses low-dose x-rays specifically for the early detection and diagnosis of breast cancer. Radiation dose management in mammography is particularly sensitive due to the vulnerability of breast tissue to ionizing radiation. Advanced techniques, such as digital mammography and tomosynthesis, have been developed to enhance the image quality with less radiation compared to traditional film-based systems.
Revenue Model: Pay-Per-Procedure model is more cost-effective and beneficial to the radiation dose management
Under the annual purchase revenue model, healthcare facilities pay an upfront fee to access the Radiation Dose Management (RDM) system for a year. This fee typically includes a license to use the software, along with maintenance and customer support services. The aim is to provide a predictable expense for budgeting purposes. Healthcare providers benefit from uninterrupted access to RDM tools throughout the subscription period, which allows for consistent monitoring and management of radiation doses. This model is well-suited for larger institutions that handle a high volume of imaging procedures and require a stable, ongoing RDM solution. Meanwhile, the Pay-Per-Procedure model is transaction-based, where healthcare institutions are billed based on the number of imaging procedures performed that utilize the RDM system. This approach offers a variable cost structure, which can be advantageous for facilities with fluctuating volumes of imaging procedures. It provides flexibility and scalability, as costs are directly correlated with usage.
Application: Radiation dose management has diverse applications in Oncological research and treatments.
In cardiology, radiation dose management is crucial during diagnostic and interventional procedures such as coronary angiography, percutaneous coronary intervention (PCI), and electrophysiological studies. By effectively managing the radiation dose, health professionals can minimize the risk of radiation-induced damage while ensuring high-quality imaging that aids in accurate diagnosis and treatment decision-making. Oncology relies heavily on radiation therapy for both curative and palliative treatment of various cancers. Proper radiation dose management ensures that the maximum dose of radiation is delivered to cancer cells while minimizing exposure to surrounding healthy tissues. This is vital in achieving therapeutic effectiveness and reducing the likelihood of side effects and long-term complications associated with radiation therapy. Radiation dose management in orthopedics is particularly important during procedures that require fluoroscopy such as spinal surgeries, joint replacements, and fracture fixations. Precise dose management helps protect patients from unnecessary radiation exposure and reduces the cumulative dose for patients who might require multiple imaging procedures throughout their treatment. Moreover, radiography, which includes a spectrum of imaging modalities such as X-rays, computed tomography (CT) scans, and mammography, uses ionizing radiation to create images of the body's interior. Effective radiation dose management in radiography is essential to ensure the safety of patients by adhering to the ALARA (As Low As Reasonably Achievable) principle, thus balancing the need for diagnostic information with the need to minimize radiation exposure.
End-Use: Hospitals advanced management tools to emphasize on precision and reproducibility in their dose management protocols
In ambulatory care settings, radiation dose management plays a crucial role in ensuring patient safety during diagnostic imaging services offered outside a hospital environment. These facilities often include imaging centers, outpatient clinics, and private physician practices that utilize imaging technology such as X-ray, computed tomography (CT), and fluoroscopy. Accurately tracking and managing radiation doses is vital for preventing unnecessary exposure during repeated procedures and for maintaining a high standard of care. Ambulatory care settings require tailored dose management solutions that integrate with their workflow to minimize patient wait times and provide efficient service. Hospitals represent the most intensive environment for radiation dose management due to the volume and complexity of imaging procedures performed. Hospitals are equipped with a range of imaging modalities from conventional X-ray to advanced interventional radiology suites. Radiation dose management in this setting necessitates robust systems that can track and analyze radiation exposure across departments and patient populations. Compliance with regulatory standards, optimization of imaging protocols, and assurance of patient and staff safety are key considerations for hospitals in implementing dose management strategies. Research institutes and academic medical centers often spearhead advancements in medical imaging techniques and are involved in a variety of clinical trials that utilize imaging technology. In these settings, radiation dose management systems need to support research activities by providing detailed data for study purposes while still ensuring the safety of research subjects. Academics and researchers use dose management tools to evaluate and develop best practices in radiation usage, explore new imaging technologies, and contribute to setting industry-wide standards.
Regional Insights
In the Americas, the United States represents a significant market for radiation dose management owing to its advanced healthcare infrastructure and stringent regulations regarding patient safety. The increasing use of diagnostic imaging equipment and the prevalence of chronic diseases requiring frequent scans contribute to the market's demand. Customer purchasing behavior leans towards advanced software solutions that integrate seamlessly with existing systems, indicating a preference for efficiency and scalability. The EU market is characterized by its adherence to strict regulations such as the European Directive 2013/59/Euratom, which mandates minimizing the exposure to ionizing radiation. Investment in research and innovation within the EU is significant, with a focus on developing technologies that enhance patient safety without compromising diagnostic efficacy. Consumer needs in the EU are geared towards software solutions with high interoperability and data protection standards. The Middle East and African countries are witnessing significant healthcare infrastructure development leading to a growing market for radiation dose management solutions. Investment in healthcare systems, coupled with an increasing number of medical tourists, demands sophisticated radiation dose management protocols. Procurement decisions are influenced by technology advancement and after-sales support services. Asia-Pacific countries including India, China, Japan, and Australia are experiencing exponential growth in the healthcare sector with a significant push from the government towards healthcare reform. The regional market for radiation dose management is expanding, driven by an increased number of healthcare facilities and a growing middle-class with health service demands.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Radiation Dose Management Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Radiation Dose Management Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Radiation Dose Management Market, highlighting leading vendors and their innovative profiles. These include Accuray Incorporated, Agfa-Gevaert Group, Bayer AG, Bracco S.p.A., Canon Inc., Dedalus S.p.A., Fujifilm Holdings Corporation, GE HealthCare Technologies, Inc., Guerbet, IBA Dosimetry GmbH, Imalogix, Infinitt Healthcare Co Ltd, Koninklijke Philips N.V., LANDAUER, Inc., McKesson Corporation, Medic Vision Imaging Solutions, Medsquare, Medsquare SAS, Mirion Technologies, Inc, Novarad, Novarad Corporation, PACSHealth, LLC, Qaelum NV, Sectra AB, Siemens Healthineers AG, SST Group Inc., and Thermo Fisher Scientific Inc..
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Radiation Dose Management Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Radiation Dose Management Market?
3. What are the technology trends and regulatory frameworks in the Radiation Dose Management Market?
4. What is the market share of the leading vendors in the Radiation Dose Management Market?
5. Which modes and strategic moves are suitable for entering the Radiation Dose Management Market?