체외 미세 전극 어레이 시장 규모 및 예측, 세계 및 지역 점유율, 동향, 성장 기회 분석 보고서 : 제품별, 용도별, 지역별
Microelectrode Array in Vitro Market Size and Forecast (2021-2031), Global and Regional Growth Opportunity Analysis Report Coverage: By Product (Classical MEA, Multiwell-MEA, and CMOS-ME), Application (Cardiomyocytes, Nerve, and Others), and Geography
상품코드:1624235
리서치사:The Insight Partners
발행일:2024년 11월
페이지 정보:영문 197 Pages
라이선스 & 가격 (부가세 별도)
한글목차
체외 미세 전극 어레이 시장은 2023년 1,796만 달러에서 2031년 2,567만 달러에 달할 것으로 예상되며, 2023-2031년 연평균 4.6%의 CAGR을 기록할 것으로 예측됩니다. 시장 발전의 주요 요인으로는 신경과학 연구에서 미세 전극 어레이에 대한 수요 증가, 동물 실험 모델의 대체품 개발에 대한 관심 증가 등을 들 수 있습니다. 또한, 첨단 기능을 갖춘 미세 전극 어레이는 예측 기간 동안 시장을 견인할 가능성이 높습니다. 그러나 미세 전극 어레이의 높은 개발 비용은 시장 저해요인 중 하나입니다.
신경과학 연구에서는 신경세포배양에서 신약을 테스트하여 신경 활동에 미치는 영향을 평가하고 표적 치료제를 개발합니다. 연구자들은 알츠하이머병, 파킨슨병, 간질, 신경발달장애 등 다양한 신경질환 및 정신신경질환을 조사하기 위해 시험관 모델을 활용하고 있습니다. 이러한 신경질환의 유병률 증가로 인해 신경과학 연구에서 미세 전극 어레이 시스템에 대한 수요가 증가하고 있습니다. 체외 미세전극 어레이는 신경질환과 관련된 특정 세포 및 분자의 변화, 신경기능에 미치는 영향을 조사할 수 있습니다. 미세 전극 어레이를 사용하여 체외 세포 모델에서 신경 활동을 측정함으로써 연구자들은 신경 활동을 조절하고, 정상적인 네트워크 기능을 회복시키거나 질병과 관련된 이상에 대항하는 약물 화합물의 능력을 평가할 수 있습니다. 이 정보는 개발 초기 단계에서 유망한 약물 후보를 식별하는 데 필수적입니다. 신경과학 연구실에서 미세 전극 어레이의 사용이 확대됨에 따라 Axion BioSystems, Multi-Channel Systems, MaxWell Biosystems와 같은 시장 진입 기업들은 혁신적인 제품을 시장에 출시하는 전략을 채택하고 있습니다. 예를 들어, Axion BioSystems는 2024년 4월에 Maestro Volt를 출시하였습니다. 이 제품은 처리량이 낮은 학술 연구실을 위한 합리적인 가격의 벤치탑 미세 전극 어레이 시스템입니다. 신경학 및 심혈관 연구에 적합한 이 6웰 장비는 마에스트로 브랜드와 관련된 사용자 친화적인 기능과 고품질 제어 기능을 제공합니다. 따라서 신경 퇴행성 질환의 신약 개발을 위한 신경과학 연구의 급증은 체외 미세 전극 어레이에 대한 수요를 증가시켜 시장을 주도하고 있습니다.
경쟁사 비교 분석에서는 제품 포트폴리오(제품 만족도, 제품 특징, 가용성), 최근 시장 동향(인수합병, 신제품 출시 및 강화, 투자 및 자금 조달, 수상, 계약, 제휴 및 협력, 인지도, 확장), 경쟁 상황의 더 나은 의사결정과 이해를 돕기 위해 지역적 입지를 기반으로 체외 미세 전극 어레이 시장을 평가하고 분류합니다. 이 보고서는 세계 체외 미세 전극 어레이 시장의 주요 업체들의 최근 주요 동향과 혁신에 대해 심층적으로 조사했습니다. 주요 시장 기업으로는 Tucker Davis Technologies;Screen Holdings Co.Ltd., Plexon, Inc., Neuronexus, Neuralynx, Inc., MaxWell Biosystems AG, Harvard Bioscience, Inc., Blackrock Microsystems LLC, Axion BioSystems, Inc., 3Brain AG 등이 있습니다.
제품별로 인비트로 미세 전극 어레이 시장은 클래식 미세 전극 어레이, 멀티웰 미세 전극 어레이, CMOS 미세 전극 어레이로 분류되며, 2023년에는 멀티웰 미세 전극 어레이 부문이 가장 큰 시장 점유율을 차지할 것으로 예상됩니다. 응용 분야별로 인비트로 미세 전극 어레이 시장은 심근 세포, 신경, 기타로 분류되며, 2023년에는 심근 세포 부문이 가장 큰 시장 점유율을 차지할 것으로 예상됩니다.
체외 미세 전극 어레이 시장에서 사업을 전개하는 기업들은 다양한 유기적 및 무기적 전략을 채택하고 있습니다. 유기적 전략에는 주로 제품 출시와 제품 승인이 포함됩니다. 무기적 성장 전략으로는 인수, 제휴, 파트너십 등을 들 수 있습니다. 이러한 성장 전략을 통해 시장 진입 기업은 사업을 확장하고, 지리적 입지를 강화하며, 전체 시장 성장에 기여할 수 있습니다. 또한, 인수 및 제휴와 같은 전략은 고객 기반을 강화하고 제품 포트폴리오를 확장하는 데 도움이 됩니다. 체외 미세 전극 어레이 시장의 주요 업체들의 주요 발전은 다음과 같습니다.
2024년 9월 Axion BioSystems와 STEMCELL Technologies는 전략적 제휴를 맺고, STEMCELL은 Axion의 최첨단 Maestro Pro와 Maestro Edge multielectro array system을 북미와 유럽에서 판매하게 됩니다. 판매하게 되었습니다. 업계를 선도하는 Maestro Edge multielectrode array system은 Axion BioSystems에서 전 세계에서 직접 구매할 수 있습니다.
목차
제1장 소개
제2장 주요 요약
주요 인사이트
제3장 조사 방법
2차 조사
1차 조사
가설 책정
거시경제 요인 분석
기초 수치 개발
데이터 삼각측량
국가 레벨 데이터
제4장 체외 미세 전극 어레이 시장 상황
PEST 분석
제5장 체외 미세 전극 어레이 시장 : 주요 시장 역학
체외 미세 전극 어레이 시장 : 주요 시장 역학
시장 성장 촉진요인
신경과학 연구의 미세 전극 어레이 수요 증가
동물 실험 모델 대체품 개발에 대한 주목 상승
시장 성장 억제요인
미세 전극 어레이의 높은 개발 비용
시장 기회
첨단 기능을 갖춘 미세 전극 어레이
향후 동향
미세 전극 어레이 기술과 Organ-On-A-Chip의 통합
성장 촉진요인과 억제요인의 영향
제6장 체외 미세 전극 어레이 시장 - 세계 시장 분석
체외 미세 전극 어레이 시장 매출, 2021-2031년
체외 미세 전극 어레이 시장 예측 분석
제7장 체외 미세 전극 어레이 시장 분석 - 제품별
클래식 미세 전극 어레이
멀티 웰 미세 전극 어레이
CMOS 미세 전극 어레이
제8장 체외 미세 전극 어레이 시장 분석 - 용도별
심근 세포
신경
기타
제9장 체외 미세 전극 어레이 시장 - 지역별
북미
미국
캐나다
멕시코
유럽
영국
독일
프랑스
이탈리아
스페인
기타 유럽
아시아태평양
일본
중국
인도
한국
호주
베트남
필리핀
싱가포르
인도네시아
말레이시아
태국
기타 아시아태평양
중동 및 아프리카
남아프리카공화국
사우디아라비아
아랍에미리트
기타 중동 및 아프리카
중남미
브라질
아르헨티나
기타 중남미
제10장 체외 미세 전극 어레이 시장 : 업계 상황
제11장 기업 개요
Tucker Davis Technologies
SCREEN Holdings Co., Ltd.
Plexon Inc.
MaxWell Biosystems AG
Harvard Bioscience Inc.
Axion BioSystems Inc
3Brain AG
NeuroNexus Technologies Inc.
MicroElectrodeDevices
Blackrock Microsystems, Inc.
NMI Technologietransfer GmbH
BMSEED
제12장 부록
ksm
영문 목차
영문목차
The microelectrode array in vitro market is expected to reach US$ 25.67 million by 2031 from US$ 17.96 million in 2023; the market is estimated to grow at a CAGR of 4.6% during 2023-2031. Major factors driving the market growth include increasing demand for microelectrode arrays in neuroscience research and rising focus on developing alternatives for animal testing models. Further, microelectrode arrays with advanced features is likely to boost the market during the forecast period. However, high development costs of microelectrode arrays are among the market deterrents.
Neuroscience research involves testing new drugs on neuronal cultures to evaluate their effects on neural activity and develop targeted treatments. Researchers utilize in vitro models to investigate a variety of neurological and neuropsychiatric diseases, including Alzheimer's disease, Parkinson's disease, and epilepsy, as well as various neurodevelopmental disorders. The increasing prevalence of such neurological disorders increases the demand for microelectrode array systems in neuroscience research. Microelectrode arrays in vitro allow for the examination of specific cellular and molecular changes related to neurological conditions, and their effects on neural functions. By measuring neural activity in in vitro cell models using microelectrode arrays, researchers can assess drug compounds' ability to modulate neural activity, restore normal network function, or counteract disease-related abnormalities. This information is essential for identifying promising drug candidates at an early stage during development. With the growing utilization of microelectrode arrays in neuroscience research laboratories, market players such as Axion BioSystems, Multi-Channel Systems, and MaxWell Biosystems are adopting strategies to launch innovative products in the market. For instance, in April 2024, Axion BioSystems launched the Maestro Volt, an affordable benchtop microelectrode array system tailored for academic labs with lower throughput needs. This 6-well device, suitable for neurological and cardiovascular research, offers user-friendly features and high-quality controls associated with the company's Maestro brand. Therefore, a surge in neuroscience research for developing new drugs for neurodegenerative diseases boosts the demand for microelectrode arrays in vitro, which drives the market.
The comparative company analysis evaluates and categorizes the microelectrode array in vitro market based on product portfolio (product satisfaction, product features, and availability), recent market developments (merger & acquisition, new product launch & enhancement, investment & funding, award, agreement, collaboration, & partnership, recognition, and expansion), and geographic presence that aids better decision-making and understanding of the competitive landscape. The report profoundly explores the recent significant developments and innovations by the leading vendors in the global microelectrode array in vitro market. The key market players are Tucker Davis Technologies; Screen Holdings Co. Ltd.; Plexon, Inc.; Neuronexus; Neuralynx, Inc.; MaxWell Biosystems AG; Harvard Bioscience, Inc.; Blackrock Microsystems LLC; Axion BioSystems, Inc.; and 3Brain AG.
Based on product, the microelectrode array in vitro market is segmented into Classical MEA, Multiwell-MEA, and CMOS-ME. In 2023, the Multiwell-MEA segment held the largest share of the market. Based on application, the microelectrode array in vitro market is segmented into cardiomyocytes, nerve, and others. In 2023, the cardiomyocytes segment held the largest share of the market.
Various organic and inorganic strategies are adopted by companies operating in the microelectrode array in vitro market. The organic strategies mainly include product launches and product approvals. Inorganic growth strategies witnessed in the market are acquisitions, collaboration, and partnerships. These growth strategies allow the market players to expand their businesses and enhance their geographic presence, along with contributing to the overall market growth. Furthermore, strategies such as acquisitions and partnerships helped strengthen their customer base and extend their product portfolios. A few of the significant developments by key players in the microelectrode array in vitro market are listed below.
In September 2024, Axion BioSystems and STEMCELL Technologies entered a strategic partnership that will enable STEMCELL to sell Axion's state-of-the-art Maestro Pro and Maestro Edge multielectrode array systems within North America and Europe. The industry-leading Maestro MEA systems will also continue to be available for purchase worldwide directly from Axion BioSystems.
Table Of Contents
1. Introduction
1.1 The Insight Partners Research Report Guidance
1.2 Market Segmentation
2. Executive Summary
2.1 Key Insights
3. Research Methodology
3.1 Secondary Research
3.2 Primary Research
3.2.1 Hypothesis formulation:
3.2.2 Macro-economic factor analysis:
3.2.3 Developing base number:
3.2.4 Data Triangulation:
3.2.5 Country level data:
4. Microelectrode Array in Vitro Market Landscape
4.1 PEST Analysis
5. Microelectrode Array in Vitro Market - Key Market Dynamics
5.1 Microelectrode Array in Vitro Market - Key Market Dynamics
5.2 Market Drivers
5.2.1 Increasing Demand for Microelectrode Arrays in Neuroscience Research
5.2.2 Rising Focus on Developing Alternatives for Animal Testing Models
5.3 Market Restraints
5.3.1 High Development Costs of Microelectrode Arrays
5.4 Market Opportunities
5.4.1 Microelectrode Arrays with Advanced Features
5.5 Future Trends
5.5.1 Integration of Microelectrode Array Technologies with Organ-On-A-Chip
5.6 Impact of Drivers and Restraints:
6. Microelectrode Array in Vitro Market - Global Market Analysis
6.1 Microelectrode Array in Vitro Market Revenue (US$ Thousand), 2021-2031
6.2 Microelectrode Array in Vitro Market Forecast Analysis
7. Microelectrode Array in Vitro Market Analysis - by Product
7.1 Classical MEA
7.1.1 Overview
7.1.2 Classical MEA: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
7.2 Multiwell-MEA
7.2.1 Overview
7.2.2 Multiwell-MEA: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
7.3 CMOS-MEA
7.3.1 Overview
7.3.2 CMOS-MEA: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
8. Microelectrode Array in Vitro Market Analysis - by Application
8.1 Cardiomyocytes
8.1.1 Overview
8.1.2 Cardiomyocytes: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
8.2 Nerve
8.2.1 Overview
8.2.2 Nerve: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
8.3 Others
8.3.1 Overview
8.3.2 Others: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9. Microelectrode Array in Vitro Market - Geographical Analysis
9.1 Overview
9.2 North America
9.2.1 North America Microelectrode Array in Vitro Market Overview
9.2.2 North America: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.2.3 North America: Microelectrode Array in Vitro Market Breakdown, by Product
9.2.3.1 North America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Product
9.2.4 North America: Microelectrode Array in Vitro Market Breakdown, by Application
9.2.4.1 North America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Application
9.2.5 North America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.2.5.1 North America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.2.5.2 United States: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.2.5.2.1 United States: Microelectrode Array in Vitro Market Breakdown, by Product
9.2.5.2.2 United States: Microelectrode Array in Vitro Market Breakdown, by Application
9.2.5.3 Canada: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.2.5.3.1 Canada: Microelectrode Array in Vitro Market Breakdown, by Product
9.2.5.3.2 Canada: Microelectrode Array in Vitro Market Breakdown, by Application
9.2.5.4 Mexico: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.2.5.4.1 Mexico: Microelectrode Array in Vitro Market Breakdown, by Product
9.2.5.4.2 Mexico: Microelectrode Array in Vitro Market Breakdown, by Application
9.3 Europe
9.3.1 Europe Microelectrode Array in Vitro Market Overview
9.3.2 Europe: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.3 Europe: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.3.1 Europe: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Product
9.3.4 Europe: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.4.1 Europe: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Application
9.3.5 Europe: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.3.5.1 Europe: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.3.5.2 United Kingdom: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.2.1 United Kingdom: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.2.2 United Kingdom: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.5.3 Germany: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.3.1 Germany: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.3.2 Germany: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.5.4 France: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.4.1 France: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.4.2 France: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.5.5 Italy: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.5.1 Italy: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.5.2 Italy: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.5.6 Spain: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.6.1 Spain: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.6.2 Spain: Microelectrode Array in Vitro Market Breakdown, by Application
9.3.5.7 Rest of Europe: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.3.5.7.1 Rest of Europe: Microelectrode Array in Vitro Market Breakdown, by Product
9.3.5.7.2 Rest of Europe: Microelectrode Array in Vitro Market Breakdown, by Application
9.4 Asia Pacific
9.4.1 Asia Pacific Microelectrode Array in Vitro Market Overview
9.4.2 Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.3 Asia Pacific: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.3.1 Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Product
9.4.4 Asia Pacific: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.4.1 Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Application
9.4.5 Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.4.5.1 Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.4.5.2 Japan: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.2.1 Japan: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.2.2 Japan: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.3 China: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.3.1 China: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.3.2 China: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.4 India: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.4.1 India: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.4.2 India: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.5 South Korea: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.5.1 South Korea: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.5.2 South Korea: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.6 Australia: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.6.1 Australia: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.6.2 Australia: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.7 Vietnam: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.7.1 Vietnam: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.7.2 Vietnam: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.8 Philippines: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.8.1 Philippines: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.8.2 Philippines: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.9 Singapore: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.9.1 Singapore: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.9.2 Singapore: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.10 Indonesia: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.10.1 Indonesia: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.10.2 Indonesia: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.11 Malaysia: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.11.1 Malaysia: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.11.2 Malaysia: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.12 Thailand: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.12.1 Thailand: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.12.2 Thailand: Microelectrode Array in Vitro Market Breakdown, by Application
9.4.5.13 Rest of Asia Pacific: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.4.5.13.1 Rest of Asia Pacific: Microelectrode Array in Vitro Market Breakdown, by Product
9.4.5.13.2 Rest of Asia Pacific: Microelectrode Array in Vitro Market Breakdown, by Application
9.5 Middle East and Africa
9.5.1 Middle East and Africa Microelectrode Array in Vitro Market Overview
9.5.2 Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.5.3 Middle East and Africa: Microelectrode Array in Vitro Market Breakdown, by Product
9.5.3.1 Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Product
9.5.4 Middle East and Africa: Microelectrode Array in Vitro Market Breakdown, by Application
9.5.4.1 Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Application
9.5.5 Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.5.5.1 Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.5.5.2 South Africa: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.5.5.2.1 South Africa: Microelectrode Array in Vitro Market Breakdown, by Product
9.5.5.2.2 South Africa: Microelectrode Array in Vitro Market Breakdown, by Application
9.5.5.3 Saudi Arabia: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.5.5.3.1 Saudi Arabia: Microelectrode Array in Vitro Market Breakdown, by Product
9.5.5.3.2 Saudi Arabia: Microelectrode Array in Vitro Market Breakdown, by Application
9.5.5.4 United Arab Emirates: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.5.5.4.1 United Arab Emirates: Microelectrode Array in Vitro Market Breakdown, by Product
9.5.5.4.2 United Arab Emirates: Microelectrode Array in Vitro Market Breakdown, by Application
9.5.5.5 Rest of Middle East and Africa: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.5.5.5.1 Rest of Middle East and Africa: Microelectrode Array in Vitro Market Breakdown, by Product
9.5.5.5.2 Rest of Middle East and Africa: Microelectrode Array in Vitro Market Breakdown, by Application
9.6 South and Central America
9.6.1 South and Central America Microelectrode Array in Vitro Market Overview
9.6.2 South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.6.3 South and Central America: Microelectrode Array in Vitro Market Breakdown, by Product
9.6.3.1 South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Product
9.6.4 South and Central America: Microelectrode Array in Vitro Market Breakdown, by Application
9.6.4.1 South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Application
9.6.5 South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.6.5.1 South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast Analysis - by Country
9.6.5.2 Brazil: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.6.5.2.1 Brazil: Microelectrode Array in Vitro Market Breakdown, by Product
9.6.5.2.2 Brazil: Microelectrode Array in Vitro Market Breakdown, by Application
9.6.5.3 Argentina: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.6.5.3.1 Argentina: Microelectrode Array in Vitro Market Breakdown, by Product
9.6.5.3.2 Argentina: Microelectrode Array in Vitro Market Breakdown, by Application
9.6.5.4 Rest of South and Central America: Microelectrode Array in Vitro Market - Revenue and Forecast to 2031 (US$ Thousand)
9.6.5.4.1 Rest of South and Central America: Microelectrode Array in Vitro Market Breakdown, by Product
9.6.5.4.2 Rest of South and Central America: Microelectrode Array in Vitro Market Breakdown, by Application
10. Microelectrode Array in Vitro Market - Industry Landscape
