市场调查报告书
商品编码
1402017
到 2030 年的医疗保健模拟市场预测:按产品/服务、技术、保真度、最终用户和地区进行的全球分析Healthcare Simulation Market Forecasts to 2030 - Global Analysis By Product & Service, Technology, Fidelity, End User and By Geography |
根据 Stratistics MRC 的数据,2023 年全球医疗保健模拟市场规模将达到 23 亿美元,预计到 2030 年将达到 70 亿美元,预测期内复合年增长率为 17%。
医学模拟是一种使用虚拟实境或模拟模型来帮助医疗保健专业人员在现实环境中练习程序和任务的培训方法。医学模拟允许有意识地应用临床技能,而不是学徒学习模式。医疗模拟允许医疗保健专业人员反覆练习和提高他们的临床技能,从基本程序到复杂的手术,从而提高熟练程度和信心。
根据世界银行集团的数据,低收入和中等收入国家的医疗保健支出从2011年的5.01%成长到2019年的5.32%。
更加关注病患安全
基于模拟的训练可以识别和纠正潜在的错误,使医疗保健专业人员能够从错误中学习,而不会损害患者的健康。随着人们越来越重视最大限度地减少医疗错误、改善患者治疗效果和提高医疗保健的整体质量,医疗保健模拟已发挥重要作用。此外,透过促进能力发展、培养团队合作以及培养持续学习和改进的文化,我们为改善病患安全做出了重大贡献。
医疗模拟器不足
无效或设计不当的模拟技术缺乏沉浸感,无法重现真实的临床场景,且教育价值有限。较差的模拟器会降低医疗保健专业人员的训练体验质量,影响技能发展和临床准备。由于无法提供全面且有影响力的培训所需的保真度和现实性,这些限制可能会阻碍有效的学习成果并降低采用动机。这阻碍了市场的成长和采用。
技术进步
虚拟实境(VR)、扩增实境(AR)、高保真模拟器和人工智慧(AI)等模拟技术中的增强智慧可以显着提高模拟的真实性、互动性和学习成果。此外,触觉回馈和感测器技术的进步提高了真实感,并实现更好的触觉回馈和程式技能发展。这些技术进步将提供更有效、更全面的医疗模拟培训机会,培养更有准备的医疗保健人员队伍,并最终改善患者照护和安全。
标准化挑战
不同仿真平台之间缺乏统一的指导方针和互通性问题阻碍了无缝整合和协作。模拟实践因设施和地区而异,这为共用资源、资料和最佳实践造成了障碍。标准化的缺乏使得通用协议、基准或品质保证措施的建立变得复杂,而这些措施对于一致和有效的模拟培训至关重要。因此,此类标准化挑战正在阻碍市场成长。
COVID-19 的疫情对医疗保健模拟市场产生了重大影响。由于封闭和社交距离措施扰乱了传统的医疗培训,基于虚拟和模拟的学习方法变得越来越重要。医疗保健模拟技术已成为确保医疗保健专业人员继续教育和培训、同时最大限度地减少物理互动的重要工具。
基于网路的模拟器产业预计将在预测期内成为最大的产业
据估计,基于网路的模拟器领域将占据最大占有率。基于网路的模拟器是医疗保健模拟市场的关键组成部分,为医疗保健行业的学习和培训提供了独特的优势和机会。基于网路的模拟器提供了可访问性和便利性,因为可以透过标准网路浏览器从具有网路连线的任何地方进行存取。此外,无需安装专用硬体或特殊软体,使学习者更轻鬆地进行基于模拟的培训。
低保真细分市场预计在预测期内复合年增长率最高
预计低保真度细分市场在预测期内将出现良好的成长。医疗保健中的低保真模拟是指使用简单、易于理解的模型和场景来模拟患者照护的特定元素。这种模拟对于初始训练和基本技能发展特别有用。这些模拟不需要昂贵的高科技设备,为学习者提供了一个安全、规范的环境来培养程式熟练程度、信心和肌肉记忆。廉价且简单的低保真模拟应用广泛,特别是在资源有限和教育环境中。
在估计期间,北美占据了最大的市场占有率。需要手术的慢性疾病的市场开拓、技术发展以及该市场领先企业的存在预计将成为该地区医疗模拟器设备成长的主要驱动力。此外,该地区越来越多地采用微创手术,预计将推动医学模拟市场的成长,因为模拟有助于体验真实的手术过程。
预计亚太地区在预测期内将实现盈利成长。改善患者治疗效果、提高临床技能和解决医疗保健专业人员短缺的需求正在推动该地区各国在医学教育和培训中越来越多地采用模拟技术。虚拟实境 (VR) 和扩增实境(AR) 的技术进步使模拟更加真实和身临其境,正在推动亚太地区医疗保健模拟的发展。此外,该地区对促进创新的承诺和庞大的人口数量创造了有利于医疗保健模拟发展的环境。
According to Stratistics MRC, the Global Healthcare Simulation Market is accounted for $2.3 billion in 2023 and is expected to reach $7 billion by 2030 growing at a CAGR of 17% during the forecast period. Medical simulation is a training method that uses virtual reality or simulation models to let medical professionals practice procedures and tasks in real-world settings. Medical simulation enables the deliberate application of clinical skills as opposed to the apprentice model of learning. Healthcare simulation allows practitioners to repeatedly practice and enhance their clinical skills, from basic procedures to complex surgeries, leading to increased proficiency and confidence.
According to the World Bank Group, healthcare spending in low- and middle-income countries has increased from 5.01% in 2011 to 5.32% in 2019.
Growing emphasis on patient safety
Simulation-based training enables the identification and correction of potential errors, allowing healthcare professionals to learn from mistakes without compromising patient well-being. With an increased emphasis on minimizing medical errors, improving patient outcomes, and enhancing the overall quality of care, healthcare simulation becomes instrumental. Moreover, it facilitates the development of competencies, fosters teamwork, and cultivates a culture of continuous learning and improvement, thereby significantly contributing to advancing patient safety.
Poorly designed medical simulators
Ineffective or inadequately designed simulation technologies may lack realism, fail to replicate authentic clinical scenarios, or offer limited educational value. Subpar simulators diminish the quality of training experiences for healthcare professionals, impacting skill development and clinical preparedness. These limitations hinder effective learning outcomes and may discourage adoption, as they fail to provide the necessary fidelity and realism required for comprehensive and impactful training. Thus, it impedes the market's growth and adoption.
Advancements in technology
Ongoing developments in simulation technologies, such as virtual reality (VR), augmented reality (AR), high-fidelity simulators, and artificial intelligence (AI), offer substantial improvements in simulation realism, interactivity, and learning outcomes. Furthermore, the evolution of haptic feedback and sensor technologies enhances realism, enabling better tactile feedback and procedural skill development. These technological advancements present opportunities for more effective and comprehensive healthcare simulation training, fostering better-prepared healthcare professionals, and ultimately improving patient care and safety.
Standardization challenges
The absence of uniform guidelines and interoperability issues between different simulation platforms hinder seamless integration and collaboration. Variations in simulation practices across institutions or regions create obstacles to sharing resources, data, and best practices. This lack of standardization complicates the establishment of common protocols, benchmarks, or quality assurance measures essential for consistent and effective simulation-based training. As a result, these standardization challenges hinder market growth.
The COVID-19 pandemic has significantly impacted the healthcare simulation market. Virtual and simulation-based learning methods have become more important as a result of lockdowns and social distancing measures that have disrupted traditional medical training. Healthcare simulation technologies have become crucial tools in ensuring the continuous education and training of medical professionals while minimizing physical interactions.
The web-based simulators segment is expected to be the largest during the forecast period
The web-based simulators segment is estimated to hold the largest share. Web-based simulators are a significant component of the healthcare simulation market, offering unique advantages and opportunities for learning and training in the healthcare industry. Web-based simulators offer accessibility and convenience, as they can be accessed through standard web browsers from any location with an internet connection. Additionally, this eliminates the need for dedicated hardware or specialized software installations, making it easier for learners to engage in simulation-based training.
The low-fidelity segment is expected to have the highest CAGR during the forecast period
The low-fidelity segment is anticipated to have lucrative growth during the forecast period. Low-fidelity simulations in healthcare refer to the use of simple, straightforward models and scenarios to mimic specific elements of patient care. These simulations are especially beneficial for early training and the development of foundational skills. Without the need for pricey, high-tech equipment, these simulations offer learners a secure and regulated environment in which to develop procedural proficiency, confidence, and muscle memory. The affordability and simplicity of low-fidelity simulations make them widely applicable, especially in resource-constrained settings or educational environments.
North America commanded the largest market share during the extrapolated period. Growing rates of chronic illnesses requiring surgery, technological developments, and the presence of significant players in this market are anticipated to be the main drivers of medical simulator device growth in this region. Further, the growing adoption of minimally invasive surgeries in the region is expected to boost growth in the medical simulation market, as simulation helps in getting hands-on with real surgical procedures.
Asia Pacific is expected to witness profitable growth over the projection period. The need to improve patient outcomes, develop clinical skills, and address the scarcity of healthcare professionals has led to a growing trend in the adoption of simulation technologies in medical education and training among the nations in this region. Technology advancements in virtual reality (VR) and augmented reality (AR), which increase simulation realism and immersion, are the driving forces behind the Asia-Pacific Healthcare Simulation. Additionally, the region's commitment to fostering technological innovation and its large population base create a conducive environment for the growth of healthcare simulation.
Some of the key players in the Healthcare Simulation Market include Laerdal Medical, Simulab Corporation, Canadian Aviation Electronics Ltd., Simulaids, 3D Systems, Kyoto Kagaku Co., Ltd., Limbs & Things Ltd., Gaumard Scientific Company, Surgical Science Sweden AB, Mentice AB and Intelligent Ultrasound.
In July 2023, 3D Systems and Oerlikon AM announced the companies have entered a collaboration agreement to further scale metal additive manufacturing.
In June 2023, Laerdal Medical, a leader in patient simulation, and SimX, a leader in virtual reality medical simulation, announced a partnership to help increase patient safety with a VR simulation training solution that prepares providers to deliver optimal care.