リキッドハンドリングシステムの世界市場規模：タイプ別、製品別、エンドユーザー別、地域範囲別、予測

リキッドハンドリングシステムの市場規模と予測

リキッドハンドリングシステムの市場規模は、2024年に39億9,000万米ドルと評価され、2026年から2032年にかけてCAGR6.27%で成長し、2032年までには62億米ドルに達すると予測されています。

リキッドハンドリングシステムは、さまざまな実験室や産業環境で液体を正確に分注、移動、分析するために使用される自動または半自動機械です。これらのシステムには、ピペット、ディスペンサー、ロボットリキッドハンドラーを含む様々な技術が組み込まれており、液体管理手順の精度と効率を向上させています。リキッドハンドリングシステムは、サンプル調製、ハイスループットスクリーニング、試薬分注のために、研究室、製薬開発、臨床診断、バイオテクノロジーで一般的に使用されています。

自動化、人工知能、ロボット工学の進歩は、リキッドハンドリングシステムを前進させているように見えます。検査室がより多くのスループットと人的ミスの減少を目指すにつれ、高度なリキッドハンドリング技術に対する需要が高まると予測されます。統合されたリアルタイムモニタリングソフトウェア、ユーザーフレンドリーなインターフェイス、他の検査機器とのコミュニケーションの改善などの革新により、生産性は向上すると思われます。個別化医療とバイオテクノロジー研究への継続的な注目は、複雑なプロセスと幅広い種類の液体を扱うことができる汎用性の高いリキッドハンドリングシステムへの需要を増加させると思われます。

リキッドハンドリングシステム市場は、CAGR6.27%で成長し、2032年末までに62億米ドルに達すると推定されます。

世界のリキッドハンドリングシステム市場力学

世界のリキッドハンドリングシステム市場を形成している主な市場力学は以下の通りです：

主な市場促進要因

製薬およびバイオテクノロジー産業における研究開発活動の増加：研究開発費の増加がリキッドハンドリングシステムの需要を押し上げています。全米科学財団によると、米国の研究開発費総額は2018年に6,061億米ドルに達し、ライフサイエンス産業がかなりの割合を占めています。この支出の増加は、正確で効率的なサンプル管理を保証する最新のリキッドハンドリング技術を要求しています。

慢性疾患の頻度増加と診断検査需要：慢性疾患の有病率の増加は診断検査の需要を増加させ、これがリキッドハンドリングシステム市場を牽引しています。世界保健機関（WHO）によると、慢性疾患は世界の死亡率の71％を占めています。米国疾病予防管理センター（CDC）によると、米国では10人中6人が慢性疾患に罹患しており、診断検査の需要が増加し、その結果リキッドハンドリングシステムの需要も増加しています。

個別化医療への注目の高まり：個別化医療への重点の高まりは、ゲノムおよびプロテオミクス研究におけるリキッドハンドリングシステムに新たな展望をもたらしています。米国食品医薬品局（FDA）によると、近年認可された新医薬品の25％は個別化医薬品です。この傾向は今後も続くと予測され、Tailored Medicine Coalitionは、テーラーメード医薬品が新薬承認全体の34％をまもなく占めるようになると予測しており、複雑なアッセイやサンプル処理に高度なリキッドハンドリング装置が必要とされています。

主な課題

メンテナンスとサポートの問題：リキッドハンドリングシステムが適切に機能するためには、定期的なメンテナンスとサポートが必要です。定期的なメンテナンスが行われないと、機器の信頼性が低下し、ダウンタイムの増加や生産性の低下を招きます。タイムリーなテクニカルヘルプの利用可能性も、特に専任のメンテナンススタッフがいない可能性のある中小企業にとっては問題となり得ます。

経済的要因と予算の制約：景気変動は、さまざまな分野の研究資金や予算に影響を与える可能性があります。資金が不足すると、組織は先進液体処理システムへの支出を延期または削減し、重要な技術へのアクセスを制限する可能性があります。このような状況は、研究開発、技術革新、およびライフサイエンス企業の全般的な進歩に悪影響を及ぼす可能性があります。

統合の複雑さ：リキッドハンドリングシステムを現在の研究室の操作や機器と統合することは困難な場合があります。様々なソフトウェア、機器、プロトコールとの互換性を確保するのは難しいかもしれません。統合の難しさは、ワークフローの混乱、より高いトレーニング要件、潜在的な研究の遅れを引き起こす可能性があり、これらすべてが生産性を低下させます。

主要動向：

自動化とロボティクス：リキッドハンドリングシステム市場における顕著な動向は、ラボにおける自動化とロボット技術の利用の拡大です。自動化されたリキッドハンドリングシステムは、実験のスループットを高め、人的ミスをなくし、精度を向上させます。研究需要が高まるにつれて、研究室は手順を合理化し、効率を高めようとしており、こうした高度なシステムの需要を煽っています。

カスタマイズとモジュール化：様々な研究アプリケーションの特定のニーズに対応するため、リキッドハンドリングシステムはますますカスタマイズ可能で柔軟になってきています。カスタマイズされたソリューションにより、研究室は独自のプロトコールやワークフローに合わせてシステムを調整することができ、それによって効率と精度が向上します。この傾向は、実験デザインにおける柔軟性の要求と、最高の性能の要求によってもたらされています。

ハイスループットスクリーニングの需要の増加：創薬やゲノミクスにおけるハイスループットスクリーニングアプリケーションの増加は、改良されたリキッドハンドリングシステムに対する需要を高めています。これらのシステムは、大量のサンプルセットの迅速な処理を可能にし、研究スケジュールの大幅な短縮をもたらします。より迅速で効率的なスクリーニング手順への需要が、リキッドハンドリングシステムへの投資を促進しています。

目次

第1章 イントロダクション

• 市場の定義
• 市場セグメンテーション
• 調査手法

第2章 エグゼクティブサマリー

• 主な調査結果
• 市場概要
• 市場ハイライト

第3章 市場概要

• 市場規模と成長の可能性
• 市場動向
• 市場促進要因
• 市場抑制要因
• 市場機会
• ポーターのファイブフォース分析

第4章 リキッドハンドリングシステム市場：タイプ別

• 手動式リキッドハンドリング
• 電子式リキッドハンドリング
• 自動リキッドハンドリング
• 半自動リキッドハンドリング

第5章 リキッドハンドリングシステム市場：製品別

• 自動ワークステーション
• ピペット
• ディスペンサー
• ビュレット

第6章 リキッドハンドリングシステム市場：エンドユーザー別

• 製薬・バイオ産業
• 受託研究機関
• 学術機関

第7章 地域別分析

• 北米
• 米国
• カナダ
• メキシコ
• 欧州
• 英国
• ドイツ
• フランス
• イタリア
• アジア太平洋
• 中国
• 日本
• インド
• オーストラリア
• ラテンアメリカ
• ブラジル
• アルゼンチン
• チリ
• 中東・アフリカ
• 南アフリカ
• サウジアラビア
• アラブ首長国連邦

第8章 競合情勢

• 市場シェア分析
• 主要戦略

第9章 企業プロファイル

• Agilent Technologies
• Bio-Rad Laboratories Inc.
• Corning Incorporated
• Eppendorf AG
• Hamilton Company
• PerkinElmer Inc.
• Promega Corporation
• Thermo Fisher Scientific Inc.
• Danaher Corporation
• Tecan Trading AG
• 10x Genomics.

第10章 市場展望と機会

• 新興技術
• 今後の市場動向
• 投資機会

第11章 付録

• 略語リスト
• 出典と参考文献

Liquid Handling Systems Market Size And Forecast

Liquid Handling Systems Market size was valued at USD 3.99 Billion in 2024 and is projected to reach USD 6.2 Billion by 2032, growing at a CAGR of 6.27% from 2026 to 2032.

Liquid handling systems are automated or semi-automatic machines used to precisely dispense, move, and analyze liquids in a variety of laboratory and industrial environments. These systems incorporate a variety of technologies, including pipettes, dispensers, and robotic liquid handlers, to improve the precision and efficiency of liquid management procedures. Liquid handling systems are commonly used in research labs, pharmaceutical development, clinical diagnostics, and biotechnology for sample preparation, high-throughput screening, and reagent dispensing.

Advancements in automation, artificial intelligence, and robotics appear to be driving liquid handling systems forward. As laboratories aim for more throughput and less human error, the demand for advanced liquid handling technologies is projected to rise. Productivity will be increased by innovations such as integrated real-time monitoring software, user-friendly interfaces, and improved communication with other laboratory instruments. The ongoing focus on personalized medicine and biotechnology research will increase the demand for versatile liquid handling systems that can handle complex processes and a wide range of liquid types.

Liquid Handling Systems Market is estimated to grow at a CAGR of 6.27% & reach US$ 6.2 Bn by the end of 2032

Global Liquid Handling Systems Market Dynamics

The key market dynamics that are shaping the global liquid handling systems market include:

Key Market Drivers:

Increasing R&D Activities in Pharmaceutical and Biotechnology Industries: The increase in R&D spending is boosting the demand for liquid handling systems. According to the National Science Foundation, total R&D spending in the United States hit USD 606.1 Billion in 2018, with the life sciences industry accounting for a considerable percentage. This increased expenditure demands modern liquid handling technologies to ensure precise and efficient sample management.

Increased Frequency of Chronic Diseases and Demand for Diagnostic Tests: The increased prevalence of chronic diseases increases the demand for diagnostic testing, which drives the liquid handling systems market. According to the World Health Organization, chronic diseases account for 71% of global mortality. According to the Centers for Disease Control and Prevention (CDC), 6 out of every 10 persons in the United States have a chronic disease, increasing demand for diagnostic tests and, as a result, liquid handling systems.

Increasing Focus on Personalized Medicine: The growing emphasis on customized medicine is offering new prospects for liquid handling systems in genomes and proteomics research. According to the US Food and Drug Administration (FDA), 25% of all new pharmaceuticals licensed in recent years have been personalized medicines. This trend is projected to continue, with the Tailored Medicine Coalition forecasting that tailored medicines will account for 34% of all new drug approvals soon, necessitating advanced liquid handling equipment for complex assays and sample processing.

Key Challenges:

Maintenance and Support Issues: In order to perform properly, liquid handling systems must be maintained and supported on a regular basis. Without regular maintenance, equipment can become less reliable, resulting in increased downtime and loss of productivity. The availability of timely technical help can also be an issue, especially for smaller firms that may lack dedicated maintenance staff.

Economic Factors and Budget Constraints: Economic fluctuations can have an impact on research funding and budgets across multiple sectors. When financing is short, organizations may postpone or reduce expenditures in advanced liquid handling systems, limiting access to critical technologies. This circumstance can have a negative impact on research development, innovation, and the general advancement of the life sciences firm.

Complexity of Integration: Integrating liquid handling systems with current laboratory operations and equipment can be difficult. It may be difficult to ensure compatibility with varied software, instruments, and protocols. Difficulties with integration can cause workflow disruptions, higher training requirements, and potential research delays, all of which reduce productivity.

Key Trends:

Automation and Robotics: The growing use of automation and robotic technologies in laboratories is a prominent trend in the liquid handling system market. Automated liquid handling systems increase experiment throughput, eliminate human error, and improve accuracy. As research demands rise, laboratories attempt to streamline procedures and increase efficiency, fueling the demand for these advanced systems.

Customization and Modularity: To address the specific needs of various research applications, liquid handling systems are becoming increasingly customizable and flexible. Customized solutions enable laboratories to adjust systems to unique protocols and workflows, thereby increasing efficiency and accuracy. This tendency is driven by the requirement for flexibility in experimental design as well as the demand for peak performance.

Increased Demand for High-Throughput Screening: The growth of high-throughput screening applications in drug development and genomics is driving up demand for improved liquid handling systems. These systems enable the quick processing of massive sample sets, resulting in much shorter research timetables. The demand for faster and more efficient screening procedures is driving investment in liquid handling systems.

Global Liquid Handling Systems Market Regional Analysis

Here is a more detailed regional analysis of the global liquid handling systems market:

North America:

The North American region is currently leading the global liquid handling systems market, owing to its strong pharmaceutical and biotechnology sectors, large research activities, and advanced healthcare infrastructure. According to the Pharmaceutical Research and Manufacturers of America, the U.S. biopharmaceutical industry would invest around USD 102.3 Billion in R&D in 2021, more than tripling its investment since 2010. This major investment highlights the need for better liquid handling technologies to help with medication research and development. The 17% growth in active Investigational New Drug (IND) applications between 2016 and 2020 indicates a growing number of clinical trials requiring precision liquid handling for sample preparation and analysis.

The focus on customized medicine and genetics research is driving market expansion. The COVID-19 pandemic has expedited the deployment of automated liquid handling systems in diagnostic laboratories, with over 1.1 billion COVID-19 tests performed in the United States as of October 2024, emphasizing the importance of efficient liquid handling processes. Moving forward, the North American liquid handling systems market is likely to expand as advances in life sciences research, increasing laboratory automation, and the rising need for high-throughput screening drive investment and innovation.

Asia Pacific:

The Asia Pacific region is experiencing rapid growth in the global liquid handling systems market, owing to significant investments in healthcare infrastructure, robust R&D activities, and the rapid expansion of pharmaceutical and biotechnology sectors in countries such as China, India, and Japan. India's domestic pharmaceutical market is estimated to reach USD 65 Billion by 2024, while Japan's biotechnology sector is projected to increase from USD 40 Billion in 2020 to USD 120 Billion by 2032. The growing emphasis on precision medicine and genomics research, as evidenced by China's USD 9.2 Billion investment effort, raises the demand for innovative liquid handling systems.

The COVID-19 pandemic has spurred the implementation of automated liquid handling equipment in diagnostic laboratories, with over 370 million COVID-19 tests performed in the Western Pacific region by October 2024, according to the World Health Organization. Demand for liquid handling technology is also being driven by the region's rise of Contract Research Organizations (CROs), which is predicted to expand at a CAGR of 9.8% between 2020 and 2027. Looking ahead, the Asia Pacific liquid handling systems market is expected to grow to USD 5.2 Billion by 2025, driven by increased funding for life sciences research, increased R&D spending in pharmaceuticals and biotechnology, and a growing awareness of the efficiency and accuracy benefits of automated liquid handling solutions.

Global Liquid Handling Systems Market: Segmentation Analysis

The Global Liquid Handling Systems Market is Segmented on the basis of Type, Product, End-User, And Geography.

Liquid Handling Systems Market, By Type

• Manual Liquid Handling
• Electronic Liquid Handling
• Automated Liquid Handling
• Semi-automated Liquid Handling

Based on Type, the market is bifurcated into Manual Liquid Handling, Electronic Liquid Handling, Automated Liquid Handling, and Semi-automated Liquid Handling. The fastest-growing segment is automated liquid handling, which is being driven by an increase in laboratory demand for efficiency, precision, and high throughput. This market benefits from advances in robotics and automation technology, which simplify complex liquid handling operations and reduce human error. Manual liquid handling remains a dominant segment due to its broad use in many laboratory settings, especially in resource-limited locations and smaller laboratories where automation may not be possible.

Liquid Handling Systems Market, By Product

• Automated Workstations
• Pipettes
• Dispensers
• Burettes

Based on Product, the market is segmented into Automated Workstations, Pipettes, Dispensers, and Burettes. Pipettes are the most popular section due to their long history and critical significance in laboratories for precise liquid measurement and transfer. They are widely used in a variety of purposes, including academic research and clinical diagnostics, making them a laboratory standard. Automated workstations are the fastest-growing market, owing to technological developments and an increased demand for efficiency and precision in high-throughput conditions. These automated systems increase efficiency by integrating numerous liquid handling processes, eliminating human interaction and errors, and making them appealing to laboratories looking to streamline operations.

Liquid Handling Systems Market, By End-User

• Pharmaceutical and Biotechnology Industry
• Contract Research Organization
• Academic Institutes

Based on End-User, the market is segmented into Pharmaceutical and Biotechnology Industry, Contract Research Organization, and Academic Institutes. The pharmaceutical and biotechnology industries dominate the market, owing to their reliance on precise liquid handling for drug discovery, development, and testing. The industry's enormous investments in R&D fuel demand for improved liquid handling technologies. Contract research organizations (CROs) are the fastest-growing segment, as they increasingly use advanced liquid handling technologies to improve the efficiency and accuracy of their research services. The increasing number of clinical trials and pharmaceutical corporations' outsourcing of research activities has fueled CRO growth.

Liquid Handling Systems Market, By Geography

• North America
• Europe
• Asia Pacific
• Rest of the World
• On the basis of Geography, the Global Liquid Handling Systems Market is classified into North America, Europe, Asia Pacific, and the Rest of the World. The North American region currently dominates the liquid handling systems market due to its strong pharmaceutical and biotechnology sectors. The Asia-Pacific region is enjoying the highest growth, owing to increased investments in healthcare infrastructure and increased R&D activity.

Key Players

The "Global Liquid Handling Systems Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are Agilent Technologies, Bio-Rad Laboratories, Inc., Corning Incorporated, Eppendorf AG, Hamilton Company, PerkinElmer, Inc., Promega Corporation, Thermo Fisher Scientific, Inc., Danaher Corporation, Tecan Trading AG, and 10x Genomics. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

• Liquid Handling Systems Market Recent Developments
• In August 2024, Starlab International, a laboratory product maker, purchased the remaining shares of Life Systems Design, a leading manufacturer of liquid handling devices.
• In July 2024, Revvity will release the Fontus Automated Liquid Handling Workstation, a novel liquid handler for NGS and diagnostic research.

TABLE OF CONTENTS

1. Introduction

• Market Definition
• Market Segmentation
• Research Methodology

2. Executive Summary

• Key Findings
• Market Overview
• Market Highlights

3. Market Overview

• Market Size and Growth Potential
• Market Trends
• Market Drivers
• Market Restraints
• Market Opportunities
• Porter's Five Forces Analysis

4. Liquid Handling Systems Market, By Type

• Manual Liquid Handling
• Electronic Liquid Handling
• Automated Liquid Handling
• Semi-automated Liquid Handling

5. Liquid Handling Systems Market, By Product

• Automated Workstations
• Pipettes
• Dispensers
• Burettes

6. Liquid Handling Systems Market, By End-User

• Pharmaceutical and Biotechnology Industry
• Contract Research Organization
• Academic Institutes

7. Regional Analysis

• North America
• United States
• Canada
• Mexico
• Europe
• United Kingdom
• Germany
• France
• Italy
• Asia-Pacific
• China
• Japan
• India
• Australia
• Latin America
• Brazil
• Argentina
• Chile
• Middle East and Africa
• South Africa
• Saudi Arabia
• UAE

8. Competitive Landscape

• Market Share Analysis
• Key Strategies

9. Company Profiles

• Agilent Technologies
• Bio-Rad Laboratories Inc.
• Corning Incorporated
• Eppendorf AG
• Hamilton Company
• PerkinElmer Inc.
• Promega Corporation
• Thermo Fisher Scientific Inc.
• Danaher Corporation
• Tecan Trading AG
• 10x Genomics.

10. Market Outlook and Opportunities

• Emerging Technologies
• Future Market Trends
• Investment Opportunities

11. Appendix

• List of Abbreviations
• Sources and References