Laboratory Supplies Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Product (Equipment, Disposables), by region, and Competition
Published Date: November - 2024 | Publisher: MIR | No of Pages: 320 | Industry: Healthcare | Format: Report available in PDF / Excel Format
View Details Buy Now 2890 Download Sample Ask for Discount Request CustomizationLaboratory Supplies Market – Global Industry Size, Share, Trends, Opportunity, and Forecast, 2018-2028 Segmented By Product (Equipment, Disposables), by region, and Competition
| Forecast Period | 2024-2028 |
| Market Size (2022) | USD38.02 billion |
| CAGR (2023-2028) | 6.80% |
| Fastest Growing Segment | Equipment Segment |
| Largest Market | North America |
Market Overview
Global Laboratory Supplies Market was valued at USD 38.02 billion in 2022 and is anticipated to witness an impressive growth in the forecast period with a CAGR of 6.80% through 2028. Laboratory supplies are a broad category of materials, equipment, reagents, and consumables used in scientific and research laboratories for various purposes. These supplies are essential for conducting experiments, investigations, analysis, and quality control across diverse scientific fields and industries. Equipment includes various laboratory apparatus and instruments used for specific scientific tasks. Examples of laboratory equipment include microscopes, centrifuges, spectrophotometers, analytical balances, pipettes, incubators, and autoclaves. Consumables are single-use or disposable items used in laboratories for specific tasks. They include items like pipette tips, petri dishes, culture plates, sample vials, syringe filters, and cuvettes. Consumables are often used to avoid contamination and ensure the accuracy of experiments. Industries such as materials science, metallurgy, and chemical manufacturing require laboratory supplies for materials testing, quality assurance, and composition analysis.
The pharmaceutical and biotechnology sectors are continuously evolving, with increasing investments in drug discovery, development, and manufacturing. This sector's growth fuels the demand for laboratory supplies, particularly for quality control and clinical research. The increasing demand for diagnostic tests, including clinical, molecular, and genetic diagnostics, stimulates the laboratory supplies market. Diagnostic laboratories require various supplies to conduct tests for disease diagnosis and monitoring. Growing concerns about environmental pollution, climate change, and water and air quality drive the demand for laboratory supplies used in environmental monitoring and testing, including sensors, spectrometers, and reagents. Advances in genomics, proteomics, and personalized medicine are pushing the need for specialized laboratory supplies, such as DNA sequencers, PCR instruments, and cell culture media. The adoption of digital technologies and automation in laboratories is driving the need for modern laboratory supplies, including robotic systems, automated liquid handling, and data management tools. A growing emphasis on sustainability is driving the development and adoption of eco-friendly laboratory supplies and equipment.
Key Market Drivers
Pharmaceutical and Biotechnology Advancement
Pharmaceutical and biotechnology companies require state-of-the-art laboratory equipment for drug discovery, development, and quality control. This demand drives the development of advanced laboratory instruments, such as mass spectrometers, high-performance liquid chromatography (HPLC) systems, and next-generation sequencers. To meet the unique needs of pharmaceutical and biotechnology research, specialized reagents and consumables are developed. These include molecular biology reagents, cell culture media, and high-purity chemicals critical for experimentation and production. Automation is increasingly integrated into pharmaceutical and biotechnology laboratories to enhance efficiency and reduce human error. Robotics, liquid handling systems, and automated sample preparation equipment have become essential in high-throughput screening and analysis. Bioprocessing equipment, such as bioreactors and cell culture systems, is crucial for biotechnology companies involved in the production of biopharmaceuticals. The advancement of these systems has a direct impact on laboratory supplies in this sector.
Advances in genomics and proteomics have led to the development of specialized laboratory supplies, including DNA sequencers, mass spectrometers, and proteomics reagents, which are essential for understanding the molecular basis of diseases and developing targeted therapies. Strict regulatory requirements in the pharmaceutical industry necessitate precise quality control measures. Laboratory supplies, such as analytical balances, validation equipment, and software solutions, are designed to meet these stringent quality and compliance standards. The pharmaceutical industry relies on laboratory supplies for clinical trials, including diagnostic tests and patient monitoring equipment. These supplies are essential for ensuring the safety and efficacy of new drugs. Pharmaceutical and biotechnology companies often require customized laboratory supplies to address specific research and manufacturing needs. Manufacturers work closely with these companies to develop tailored solutions.
The vast amount of data generated in pharmaceutical and biotechnology research requires sophisticated laboratory information management systems (LIMS) and data analysis tools, which are part of laboratory supplies in these industries. Single-use bioprocessing technologies, such as single-use bioreactors and disposable filters, are increasingly used in biotechnology to reduce contamination risks and enhance efficiency. Advances in pharmaceutical research have fueled the growth of personalized medicine. Laboratory supplies for genetic testing and patient-specific treatment are essential components of this field. Biotechnology companies working on the development of biofuels and environmental solutions require laboratory supplies for environmental monitoring and analysis. This factor will help in the development of the Global Laboratory Supplies Market.
Increasing Biomedical Research
Biomedical research is a major driver of the demand for laboratory supplies. Laboratories conducting biomedical research, whether in academic institutions, research organizations, or the biotechnology and pharmaceutical industries, rely on a wide range of laboratory supplies to support their investigations. Biomedical research often involves the development and improvement of diagnostic tools and assays. Laboratory supplies such as reagents, test kits, and diagnostic equipment are essential for these purposes. The study of genes, genomics, and genetic variations is a significant focus of biomedical research. This field demands specialized laboratory supplies, including DNA sequencers, PCR instruments, and genetic analysis reagents. Proteomics, the study of proteins and their functions, is another critical aspect of biomedical research. Proteomics research relies on laboratory supplies such as mass spectrometers, protein analyzers, and gel electrophoresis equipment. Biomedical researchers often work with cell cultures and tissue engineering for the study of diseases and the development of regenerative therapies. This requires laboratory supplies such as cell culture media, cell culture incubators, and tissue engineering scaffolds.
Biomedical laboratories need laboratory supplies for molecular biology applications, such as DNA and RNA extraction kits, polymerase chain reaction (PCR) reagents, and cloning vectors. Microscopy is a fundamental tool in biomedical research. Microscopes and imaging equipment, along with associated supplies, are used to examine tissues, cells, and cellular structures. The storage and management of biological samples are crucial for biomedical research. Biobanking equipment and supplies, including cryopreservation systems and sample storage containers, are required. Stem cell research, including the isolation and cultivation of stem cells, requires laboratory supplies such as stem cell culture media, cell sorting instruments, and cell characterization reagents. Immunological research, including the development of vaccines and immunotherapies, relies on laboratory supplies such as antibodies, immunoassays, and flow cytometry instruments.
In the pharmaceutical and biotechnology industries, laboratory supplies are needed for clinical trials, including diagnostic tests, patient monitoring equipment, and sample storage solutions. The pharmaceutical and biotechnology sectors require laboratory supplies for drug formulation, quality control, and pharmacological testing. This includes analytical instruments, chemical reagents, and drug delivery systems. Biomedical research often involves the handling of hazardous materials. Laboratory safety equipment, biosafety cabinets, and personal protective equipment (PPE) are vital to ensure the safety of researchers. The large volume of data generated in biomedical research necessitates laboratory information management systems (LIMS) and data analysis tools as part of laboratory supplies. This factor will pace up the demand of the Global Laboratory Supplies Market.
Rising Demand of Diagnostic Testing
Diagnostic laboratories, healthcare institutions, and research facilities rely on a wide range of laboratory supplies to perform various diagnostic tests, which are essential for disease diagnosis, monitoring, and patient care. Clinical laboratories perform a wide range of diagnostic tests, including blood tests, urinalysis, and molecular diagnostics. These tests require laboratory supplies such as reagents, diagnostic kits, and clinical chemistry analyzers. The field of molecular diagnostics, including PCR testing and DNA sequencing, relies on specialized laboratory supplies such as nucleic acid extraction kits, thermocyclers, and genetic analysis reagents. Immunoassays, which are used for detecting specific antibodies or antigens, are common in diagnostic testing. Immunoassay kits, ELISA readers, and related laboratory supplies are essential for this purpose. Laboratories conducting histopathology and cytology tests rely on laboratory supplies for specimen processing, staining, and microscopy, including microtomes, stains, and slide preparation materials. Diagnostic tests for infectious diseases involve laboratory supplies such as culture media, microbiological incubators, and viral diagnostic reagents.
Hematological testing, which involves analyzing blood samples, relies on laboratory supplies such as hematology analyzers, blood collection tubes, and blood bank equipment. Point-of-Care Testing (POCT) devices, including glucose meters and rapid diagnostic tests, are widely used in healthcare settings. Laboratory supplies for POCT include test strips, lancets, and portable analyzers. Imaging tests, such as X-rays, MRI, and CT scans, require specialized equipment and supplies, including contrast agents and protective gear for radiologic technologists. Continuous patient monitoring relies on laboratory supplies like sensors, electrodes, and monitoring equipment for parameters such as ECG, blood pressure, and oxygen saturation. Autoimmune diagnostics, used for the detection of autoimmune disorders, require laboratory supplies like autoimmune assay kits and specific reagents.
Clinical and forensic toxicology laboratories utilize laboratory supplies for toxicology testing, including mass spectrometers and toxicology reagents. Diagnostic testing for allergies involves laboratory supplies like allergen extracts and immunoassay kits for allergy panels. Drug testing laboratories require supplies for screening and confirmation tests, including drug test kits and chromatography equipment. To monitor drug levels in patients, laboratories need laboratory supplies for therapeutic drug monitoring, including immunoassay kits and liquid chromatography systems. Cardiac marker testing, which is vital for diagnosing heart conditions, relies on laboratory supplies like troponin assays, cardiac marker panels, and cardiac biomarker analyzers. This factor will accelerate the demand of the Global Laboratory Supplies Market.
Key Market Challenges
Supply Chain Disruptions
Unforeseen global events, such as the COVID-19 pandemic, can disrupt the supply chain by causing factory closures, transportation delays, and workforce shortages. These disruptions can lead to supply shortages and delays in product delivery. Disruptions in global shipping and transportation networks, including container shortages, port congestion, and changes in shipping routes, can affect the timely delivery of laboratory supplies. This may lead to increased shipping costs and delays. Supply chain disruptions in the sourcing of raw materials, such as plastics, chemicals, and metals, can impact the production of laboratory supplies. Shortages of critical materials can lead to increased costs and delayed production. Factory closures or reduced production capacities, whether due to natural disasters, labor disputes, or other factors, can result in delays in the manufacturing of laboratory supplies. Challenges in warehousing and distribution, including the need for social distancing and safety measures in distribution centers, can impact the efficiency of getting products to end-users. Supply chain disruptions can lead to quality control issues, as companies may rush production or source materials from less reliable suppliers to meet demand, potentially leading to compromised product quality. Supply chain disruptions can result in price volatility for laboratory supplies. Increased demand and reduced supply can lead to price increases, which can impact laboratories' budgets.
Price Pressures
The laboratory supplies market is highly competitive, with numerous suppliers and manufacturers offering a wide range of products. This competition can lead to price pressures as companies strive to offer competitive pricing to gain or maintain market share. Developing and manufacturing advanced laboratory supplies, especially specialized equipment, and innovative reagents, can be costly. These R&D expenses can put pressure on suppliers to recoup their investments, potentially leading to higher prices. Fluctuations in the costs of raw materials, such as plastics, metals, and chemicals, can directly impact the production costs of laboratory supplies. Suppliers may need to adjust their prices in response to these cost fluctuations. Economic downturns or recessions can lead to reduced laboratory budgets in various sectors, including research, healthcare, and academia. In such times, laboratories may seek cost-effective alternatives or delay purchasing, creating price pressures. In the healthcare sector, changes in reimbursement policies and budget constraints can lead to pressure to reduce costs, affecting the pricing and purchasing decisions for laboratory supplies. Bulk buyers, such as large hospital networks and research institutions, often negotiate prices with suppliers. These negotiations can lead to lower per-unit prices but may also pressure suppliers to offer competitive terms.
Key Market Trends
E-commerce and Digitalization
The rise of e-commerce has led to the emergence of online marketplaces specializing in laboratory supplies. These platforms allow laboratories to browse, compare, and purchase a wide range of supplies, including equipment, reagents, and consumables, with the convenience of online shopping. Many laboratory supply companies have moved from traditional paper catalogs to digital catalogs, which can be easily accessed online. Digital catalogs provide up-to-date product information, pricing, and specifications, making it easier for customers to find what they need. Digital platforms provide transparency in pricing, allowing customers to compare prices and product offerings from different suppliers. This transparency can lead to more competitive pricing and informed purchasing decisions. Digitalization streamlines the procurement process. Laboratories can create digital purchase orders, track orders, and manage their inventory electronically, reducing paperwork and administrative burdens. E-commerce has expanded the reach of laboratory supplies. Laboratories can access products from suppliers worldwide, expanding their options and potentially finding unique or specialized items. E-commerce facilitates various digital payment methods, including credit cards, electronic funds transfer (EFT), and digital wallets, streamlining the payment process.
Segmental Insights
Product Insights
In 2022, the Global Laboratory Supplies Market largest share was held by equipment segment and is predicted to continue expanding over the coming years.
Regional Insights
The North America region dominates the Global Laboratory Supplies Market in 2022.
Recent Developments
- In January 2023,Siemens Healthineers has unveiled the establishment of a Centre of Excellencededicated to Immunoassay Instrument Research and Development (R&D) inSwords, Ireland. This new centre is geared towards pioneering ground-breakingadvancements in laboratory instruments used for the detection of infectiousdiseases, cancer, and blood disorders. Siemens Healthineers will make asubstantial multi-million-euro investment in the existing manufacturing andengineering site, which serves as a global supplier of medical diagnosticequipment. The Irish Government, through IDA Ireland, is supporting thisinitiative. This investment will not only create new employment opportunitiesbut also empower healthcare professionals to enhance patient care through increasedprecision, efficiency, and reliability in diagnostic laboratories. The Center willbe at the forefront of scientific and engineering innovation. Theseimprovements to current diagnostic methodologies aim to augment diseasedetection capabilities, with the objective of delivering quicker, more preciseresults that offer deeper insights into patient conditions. This advancementwill address the substantial demands of high-throughput and intricaterequirements in hospitals and laboratories, both in Ireland and worldwide.
- In July 2020, ThermoFisher Scientific has unveiled an innovative product, compliance, and servicepackage, designed to align with current Good Manufacturing Practice (cGMP)standards, with the primary goal of expediting the setup process for clinicaland commercial cell and gene therapy manufacturing. Introducing the ThermoScientific Cell Therapy Systems (CTS) Series Laboratory Equipment, thiscomprehensive solution streamlines and enhances the equipment installation andvalidation process required for cGMP. The CTS Series encompasses a wide rangeof essential laboratory equipment commonly used in cell and gene therapymanufacturing, including biological safety cabinets, centrifuges, and CO2incubators. Each product is accompanied by a thorough factory acceptance testdocumentation package, containing essential items such as operatingcertificates, performance specifications, user guides, and technical manuals.Additionally, this portfolio is backed by top-notch field compliance services,which encompass installation setup, IQ, OQ, and supplementary support such astemperature mapping and calibration.
- In June 2020, WatersCorporation has recently launched the Waters Arc HPLC System, ahigh-performance liquid chromatograph designed for routine testing acrossvarious industries, including pharmaceuticals, food, academia, and materials.This system particularly targets quality control labs engaged in batch releasetesting for small molecule pharmaceuticals. Additionally, Waters has unveiledthe Waters Empower BC LAC/E with SecureSync, an improved data backup andrecovery solution tailored for organizations with distributed lab setups. TheArc HPLC System caters to laboratories seeking a robust and modern HPLCsolution that can run established HPLC methods, regardless of the originalliquid chromatograph brand on which they were developed, while maintaining theprecision of chromatographic retention times. Notable features include minimalanalyte carryover, exceptional injection accuracy, and a high backpressuretolerance of up to 9,500 psi at 5.0 ml/min. It offers all the capabilities of atop-tier HPLC system in a competitively priced package, elevating routinetesting to a higher level of performance.
Key Market Players
- AgilentTechnologies, Inc.
- Bio-Rad Laboratories,Inc.
- Bruker Corp.
- Danaher Corp.
- FUJIFILMHoldings Corporation
- PerkinElmer Inc.
- Sartorius AG
- ShimadzuCorporation
- Thermo FisherScientific Inc.
- WatersCorporation
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Report Scope
In this report, the Global Laboratory Supplies Market has been segmented into the following categories, in addition to the industry trends which have also been detailed below
- Laboratory Supplies Market, By Product
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- Laboratory Supplies Market, By region
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Competitive Landscape
Company Profiles
found at Customizations
Company Information
- Detailed analysis and profiling of additional market players (up to five).
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