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基因治療學和RNAi

市場調查報告書

商品編碼

1738769

2026-2032 年光遺傳學市場（按產品類型、應用、技術和地區分類）

Optogenetics Market By Product Type (Light Instruments, Sensors, Actuators), Application (Cardiology, Retinal Disease Treatment, Neuroscience), Technique (Transgenic Animals, Viral Transduction, Cre-Dependent Expression) & Region for 2026-2032

出版日期: 2025年05月05日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

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簡介目錄

光遺傳學市場估值，2026-2032

光遺傳學市場因其在神經科學研究和治療應用領域的革命性潛力而日益受到青睞。這項新技術利用基因工程和光學原理，利用光來控制特定細胞的活動，在探測和改造生物系統方面擁有無與倫比的精度和特異性。預計到2024年，該市場規模將超過500.7億美元，到2032年將達到1,794.6億美元。

隨著對光遺傳學理解的不斷深入及其應用的不斷拓展，預計市場將因技術突破、研究資金的增加以及產學研合作而進一步成長。對經濟高效的光遺傳學技術日益成長的需求預計將推動市場在2026-2032年期間以17.30%的複合年成長率成長。

光遺傳學市場定義/概述

光遺傳學是一種利用光來控制活體組織中經基因改造表達光敏離子通道的細胞（通常是神經元）的技術。特定波長的光可以激活或阻斷這些通道，例如視紫質通道，從而精確控制細胞活動。這種方法使研究人員能夠即時觀察和改變神經元網路，從而深入了解大腦活動如何影響行為。光遺傳學徹底改變了神經科學，使得操縱自由活動動物體內的單一細胞類型成為可能，從而促進了對腦功能、記憶和神經系統疾病的理解。

光遺傳學不僅僅是基礎研究，它還有望應用於治療領域。在神經科學領域，它已被用於繪製與帕金森氏症、癲癇和憂鬱症等疾病相關的腦迴路圖譜，並用於恢復動物模型的視力。透過精準靶向功能失調的腦迴路，光遺傳學有望為神經和精神疾病帶來更有效的治療方法。光遺傳學和基因治療的進展也有望實現非侵入性、高度針對性的人體治療，從而有望用於治療失明、慢性疼痛，甚至增強和恢復記憶。

神經系統疾病的日益普及將如何推動光遺傳學市場的發展？

神經系統疾病盛行率的上升極大地推動了光遺傳學市場的發展。神經系統疾病是全球第二大死亡原因，並導致大量的傷殘調整生命年 (DALY) 的損失，因此對更優治療方法和研究的需求日益成長。光遺傳學是一種尖端技術，可以精確控制大腦活動，並有望幫助理解和治療這些疾病。對有效治療方法的需求日益成長以及對神經系統疾病的深入了解，正在推動光遺傳學領域的投資和創新。

神經科學研究資金的增加正在推動光遺傳學市場的發展。諸如美國國立衛生研究院（NIH）83億美元（2023會計年度）的神經科學研究預算以及歐盟透過「人腦計劃」超過10億歐元的投資等措施提供的大規模資助，將顯著提升研究能力和技術突破。資金支持的資金籌措將有助於開發更複雜的光遺傳學設備和技術，加速創新，並提升光遺傳學在各種神經學研究和治療中的應用，從而擴大市場成長。

高成本將如何阻礙光遺傳學市場的成長？

高昂的成本預計將限制光遺傳學市場的擴張。光遺傳學是一個高度專業化的領域，需要精密的設備，例如雷射系統和基因工程工具，而這些設備的開發和維護成本高。此外，研究、臨床試驗以及科學家和醫療專業人員的專業訓練成本也加重了財務負擔。這使得中小企業和研究機構難以進入市場，從而抑制了創新和廣泛應用。這些成本障礙也可能限制醫院和實驗室的進入，阻礙整個市場的擴張。

技術的複雜性將影響光遺傳學市場的成長。光遺傳學涉及複雜的技術，例如透過基因改造細胞來表達感光蛋白，以及利用光來精確控制神經元活動。這些技術挑戰使其在研究和臨床環境中的廣泛應用變得困難，因為它需要專業知識和設備。科學家和醫生的學習曲線陡峭，加上對現代化基礎設施的需求，可能會阻礙該行業的擴張。此外，這種複雜性也可能減緩光遺傳學研究轉化為實際藥物的速度，從而限制其擴充性和經濟應用。

The optogenetics market is growing in popularity owing to its revolutionary potential in neuroscience research and therapeutic applications. This novel technology uses genetic engineering and optics to regulate the activity of particular cells using light, providing unparalleled precision and specificity in investigating and altering biological systems. The market size surpass USD 50.07 Billion valued in 2024 to reach a valuation of around USD 179.46 Billion by 2032.

As the comprehension of optogenetics grows and its applications broaden, the market is likely to expand further, fueled by technological breakthroughs, increasing research funding, and collaborations between academia and industry. The rising demand for cost-effective and efficient optogenetics is enabling the market grow at a CAGR of 17.30% from 2026 to 2032.

Optogenetics Market: Definition/ Overview

Optogenetics is a technique that uses light to control cells in living tissue, usually neurons, that have been genetically engineered to express light-sensitive ion channels. Specific wavelengths of light can activate or block these channels, such as channel rhodopsin, allowing for precise control over cell activity. This approach allows researchers to view and change neuronal networks in real-time, providing detailed insights into how brain activity influences behavior. Optogenetics has transformed neuroscience by allowing scientists to manipulate individual cell types in freely moving animals, resulting in advancements in understanding brain function, memory, and neurological illnesses.

Optogenetics is used for more than just basic research; it has potential therapeutic applications. In neuroscience, it has been used to map brain circuits associated with disorders including Parkinson's, epilepsy, and depression, as well as to restore vision in animal models. Optogenetics has the potential to produce better treatments for neurological and mental illnesses by precisely targeting malfunctioning brain circuits. Advances in optogenetics and gene therapy may enable non-invasive, highly targeted therapies in humans, potentially leading to cures for blindness, chronic pain, and even memory augmentation or restoration.

How Will the Increasing Prevalence of Neurological Illnesses Drive the Optogenetics Market?

The rising prevalence of neurological illnesses is boosting the optogenetics market extremely. With neurological illnesses ranking as the second biggest cause of mortality worldwide and accounting for significant disability-adjusted life years (DALYs), there is an increasing demand for better therapies and research. Optogenetics, a cutting-edge approach that allows for precise control of brain activity, has the potential to help us understand and cure these disorders. The increasing demand for effective therapeutics and a deeper understanding of neurological illnesses drives investment and innovation in the optogenetics sector.

Increased funding in neuroscience research is propelling the optogenetics market ahead. The large financing from initiatives such as the NIH's $8.3 billion budget for neuroscience research in fiscal year 2023 and the EU's over €1 billion investment through the Human Brain Project considerably improves research capacity and technical breakthroughs. This increasing financial support allows for the development of more complex optogenetic instruments and techniques, accelerates innovation, and improves the use of optogenetics in a variety of neurological studies and therapies, consequently extending market growth.

How Does the High-Cost Hamper the Growth of the Optogenetics Market?

High expenses are anticipated to limit the expansion of the optogenetics market. Optogenetics is a highly specialized discipline that necessitates sophisticated equipment, such as laser systems and genetically designed tools, which can be costly to develop and maintain. Furthermore, the costs of research, clinical trials, and specialized training for scientists and medical professionals add to the financial burden. This makes it more difficult for smaller enterprises or research institutes to enter the market, thereby impeding innovation and uptake. These cost obstacles may also limit its accessibility to hospitals and research labs, hurting overall market expansion.

Technical complexity will have an impact on the growth of the optogenetics market. Optogenetics involves complex techniques such as genetically modifying cells to express light-sensitive proteins and using light to precisely control neuronal activity. These technical problems necessitate specialized knowledge and equipment, making widespread adoption challenging in research and clinical settings. The steep learning curve for scientists and physicians, combined with the need for modern infrastructure, may impede industry expansion. Furthermore, complexity can cause delays in the translation of optogenetic research into actual medicines, limiting its scalability and economic application.

Category-Wise Acumens

Will the Ability to Regulate Neuronal Activity Propel the Actuators Segment's Growth for the Optogenetics Market?

The capacity to control neural activity is projected to boost the actuators section of the optogenetics market. This is because optogenetics uses light to precisely control neurons, making it an effective tool for understanding and affecting brain networks. Actuators in optogenetics allow for real-time regulation of neural activity, which is critical for applications in neuroscience research, neurological disease therapy, and brain-machine interfaces. As research in these areas continues, the requirement for sophisticated actuator technologies capable of controlling neurons with great accuracy is expected to fuel market expansion.

The ongoing discovery of new actuator proteins with superior properties is expected to promote the expansion of the actuators segment in the optogenetics market. Enhanced actuator proteins can provide better precision, efficiency, and versatility in directing biological functions with light, which encourages their use in research and therapeutic settings. These developments lead to better experimental results and potential therapeutic solutions, making optogenetics more appealing to researchers and physicians. As these proteins improve, their range of applications expands, increasing overall market demand

Will the Capacity to Provide Stable and Long-Term Expression of Optogenetic Proteins Promote the Growth of the Transgenic Animals Segment in the Optogenetics Market?

The ability to offer consistent and long-term expression of optogenetic proteins will most likely drive the expansion of the transgenic animal segment in the optogenetics market. Stable expression guarantees that optogenetic proteins continue to operate over time, which is critical for long-term investigations and experiments in transgenic animals. These animal models are more valuable to researchers studying chronic illnesses or the long-term impacts of optogenetic therapies because of their reliability. As a result, demand for such transgenic models rises, propelling growth in this market segment.

The power to control expression will drive the expansion of the transgenic animal segment in the optogenetics market. Controlled expression enables precise regulation of gene activity in specific cells or tissues of transgenic animals, resulting in more accurate studies of gene function and the impact of optogenetic interventions. This precision increases the usefulness of transgenic models in research and drug development, resulting in greater utilization in the optogenetics sector. As researchers look for more precise and dependable models to study complicated biological processes and develop new treatments, the need for transgenic animals with regulated expression capabilities will increase.

Country/Region-wise Acumens

Will the Strong Research Infrastructure Lead the North American Region for the Optogenetics Market?

The region is home to world-class research institutions and universities that are leading advances in neuroscience and optogenetics. North America has the largest share of the market globally, thanks to significant funding from agencies such as the National Institutes of Health (NIH), which funded around $96 million in optogenetics-related research in 2021-a 15% increase over the previous year. This research support, combined with the region's emphasis on discovering treatments for neurological disorders such as Alzheimer's and Parkinson's, which afflict 6.7 million Americans aged 65 and up, is boosting demand for advanced optogenetic techniques. As these diseases continue to develop, with Alzheimer's cases expected to reach 13.8 million by 2060, the region's robust research infrastructure will play an important role in driving market expansion.

Significant investments are fueling the North American optogenetics market's expansion. Public financing, such as the $115 million granted by the NIH in 2022, a 20% increase over the previous year, and private investments totaling $450 million by 2023, are speeding progress in the field. These investments are driving innovation, extending neuroscience applications, and addressing the growing prevalence of neurological illnesses such as Alzheimer's and Parkinson's. The FDA's regulatory support for optogenetics-based therapeutics promotes market growth by enabling the translation of research into clinical applications.

Will the Rapid Economic Development Expand the Asian Pacific Region for the Optogenetics Market?

The Asia-Pacific region is experiencing the fastest growth in the optogenetics market. Rapid economic development is boosting the Asia Pacific optogenetics market. This economic expansion has resulted in greater spending in scientific research and healthcare, considerably expanding the optogenetics sector. As the region's economies grow, countries such as China and Japan devote significant resources to neuroscience research, including optogenetics. The increased frequency of neurological illnesses, including a projected increase in dementia cases from 20.1 million in 2021 to 61.4 million by 2050, is pushing the need for novel treatments. This combination of financial investment and increased healthcare demand is hastening the development and deployment of optogenetics technology in the region.

Government support is propelling the Asia Pacific optogenetics market to new heights of growth and placing it as the global leader. This support is demonstrated by significant expenditures in brain science, including China's $1 billion, Japan's $40 million per year for the Brain/MINDS initiative, and South Korea's $37 million. These investments are crucial due to addressing the increasing frequency of neurological illnesses such as dementia and Parkinson's disease, which is boosting demand for new therapies. The increase in government-funded optogenetics programs in China, which has grown by 25% per year since 2018, demonstrates the region's dedication to improving this sector, which will drive additional market expansion.

Competitive Landscape

The optogenetics market is a dynamic and competitive space, characterized by a diverse range of players vying for market share. These players are on the run for solidifying their presence through the adoption of strategic plans such as collaborations, mergers, acquisitions, and political support.

The organizations are focusing on innovating their product line to serve the vast population in diverse regions. Some of the prominent players operating in the optogenetics market include:

Coherent, Inc.,
Scientifica (Judges Scientific),
Noldus Information Technology,
Thorlabs Inc.
GenSight Biologics
Addgene, Elliot Scientific Ltd.
Bruker Corporation
Shanghai Laser & Optics Century Co.
(SLOC)
The Jackson Laboratory

Latest Developments

In June 2022, Bruker Corporation introduced the NeuraLight 3D Ultra module to assist advanced neuroscience and optogenetics research applications on its Ultima multiphoton microscopes.
In February 2023, GenSight Biologics announced the 1-year safety and efficacy results from the PIONEER phase I/II clinical study of GS030, an optogenetic therapy option for retinitis pigmentosa.