United States Medical Gas and Equipment Market Overview,2030

The United States medical gas and equipment market has evolved into one of the most technologically advanced sectors in modern healthcare, shaped by decades of innovation, regulation, and rising clinical demand. The introduction of centralized oxygen supply systems in hospitals such as Massachusetts General Hospital in Boston during the mid-20th century marked the transition from individual cylinder use to integrated pipeline networks that define current infrastructure. Medical gases in the U.S. are now classified under federal medical standards, including oxygen, nitrous oxide, medical air, nitrogen, carbon dioxide, and gas mixtures such as heliox used in respiratory therapy at institutions like the Cleveland Clinic. These gases are delivered through highly regulated systems featuring manifold banks, bulk tanks, and cryogenic storage units that maintain purity under U.S. Pharmacopeia and FDA compliance. The growing prevalence of chronic respiratory diseases including COPD, which affects over 16 million Americans according to the Centers for Disease Control and Prevention, has driven the expansion of intensive care capacity and home oxygen therapy programs. Hospitals such as Mayo Clinic in Rochester have adopted on-site oxygen generation using Pressure Swing Adsorption technology to reduce dependence on bulk liquid supply chains. Engineering service providers across the country design and maintain systems integrated with building management platforms that monitor gas flow, alarms, and leak detection through smart IoT-based dashboards. The National Fire Protection Association’s NFPA 99 standard governs the safe design and maintenance of these systems, ensuring compliance with strict fire and safety codes. Environmental challenges in production have prompted suppliers to adopt cleaner technologies and cylinder recycling initiatives to minimize emissions from cryogenic plants. Training and safety certification programs provided by the Compressed Gas Association and hospital technical staff ensure adherence to quality, operational safety, and routine gas purity testing that keep the U.S. medical gas network among the most advanced and reliable globally.

According to the research report, ""United States Medical Gas and Equipment Market Overview, 2030,"" published by Bonafide Research, the United States Medical Gas and Equipment market is expected to reach a market size of more than USD 8.21 Billion by 2030.The COVID-19 pandemic accelerated innovations in on-site oxygen generation and mobile delivery units, with General Electric Healthcare and Philips Healthcare integrating gas management systems into advanced ventilators and anesthesia workstations. The surge in home-based oxygen therapy drove increased demand for portable devices like the Inogen One concentrator series, which became essential for patients requiring long-term respiratory care. Companies such as Airgas Healthcare, Air Products and Chemicals, and Linde Gas North America dominate large-scale production, while firms like BeaconMedaes and Amico Group specialize in pipeline systems, manifolds, and alarm networks used across major hospitals including Johns Hopkins Hospital and Cedars-Sinai Medical Center. Strategic collaborations have also shaped the sector, such as the partnership between Air Liquide Healthcare and the Veterans Health Administration to enhance oxygen supply resilience in federal hospitals. Logistics and supply chain modernization have gained importance after disruptions during the pandemic, prompting investments in regional production facilities and automated bulk delivery monitoring using telemetry. In states like Texas and California, local production plants now generate oxygen on-site to improve supply independence and reduce transportation costs. Startups like CAIRE Inc. and OxyGo are introducing compact, low-cost oxygen concentrators designed for home use and telemedicine integration, enabling remote patient monitoring through digital platforms. Research institutions such as the National Institutes of Health have expanded medical gas applications in biotechnology and cryopreservation, increasing collaboration with suppliers for precision gases used in stem cell and vaccine research. Government-backed programs including the U.S. Department of Health and Human Services’ emergency preparedness initiatives continue to strengthen oxygen infrastructure in rural and emergency settings, ensuring reliable access to life-supporting gases while advancing digitization and automation across the nation’s healthcare delivery systems.

In the United States market for medical gases and equipment the segment covering medical gases involves pure gases such as oxygen nitrous oxide helium nitrogen and carbon dioxide supplied via cylinders bulk liquid containers and on-site generation plants with major providers like Air Liquide Healthcare and Linde maintaining a vast distribution network and infrastructure. The equipment segment in turn includes gas delivery and storage systems such as regulators manifolds pipelines flowmeters vacuum systems and monitoring equipment which are critical in hospital settings and home-care applications alike. United States hospitals rely on these equipment systems to ensure uninterrupted and safe delivery of gases especially during surgeries emergency care and respiratory therapies. Because U.S. healthcare providers must comply with rigorous standards the equipment side sees considerable investment in smart delivery systems digital monitoring and integrated safety alarms. Together the two segments of gases and equipment are interlinked bulk gases require compatible storage and delivery equipment while the equipment segment advances with innovations like patient-specific flow control and digital interfaces for hospital central systems. Local examples include home oxygen delivery systems distributed by companies such as Lincare Holdings Inc. which serve patients outside acute care settings. U.S. market spans from basic supply of medical gases to advanced delivery and monitoring equipment serving hospitals clinics and home care operations thereby reflecting the comprehensive infrastructure required in the nation’s healthcare system.

In the United States the therapeutic application of medical gases and associated equipment is driven by treatment of respiratory illnesses including COPD asthma pneumonia and complications from events such as COVID-19 where oxygen therapy and ventilator support are essential in hospital intensive-care units and home-based long-term oxygen therapy. Diagnostic applications include use of gases like helium and carbon dioxide in imaging systems or as calibration gases in laboratory and clinical settings where accurate gas composition is required for diagnostic equipment such as blood-gas analyzers. In the pharmaceutical industry scenario gases such as nitrogen and oxygen play a role in drug manufacturing processes sterilization cryopreservation and biopharmaceutical production facilities across the U.S., laboratories in states like Massachusetts and California depend on high-purity gas deliveries and specialized delivery equipment to support biotech workflows. The others category covers applications such as anesthesia in outpatient surgery centers use of nitrous oxide for dental analgesia and industrial uses in life-science research facilities where specialized gas mixtures and delivery hardware are required. For example large hospital systems in Texas invest in manifold systems and vacuum pumps to support minimally invasive surgery and catheterization labs. Thus across therapeutic diagnostic pharmaceutical manufacturing and other application niches the U.S. market for medical gases and equipment supports a broad range of healthcare operations from direct patient care to underlying life-science infrastructure.

In the United States market for medical gases and equipment hospitals form a predominant end-user segment where facilities such as tertiary care centres in New York and regional medical centres in Florida invest heavily in central manifold systems piped oxygen networks vacuum stations and on-site gas generation units to serve operating rooms intensive care units and emergency departments. In the home healthcare segment companies like Lincare Holdings serve patients in their homes by delivering portable oxygen concentrators nebulizers home ventilators and associated gas supplies under Medicare reimbursement frameworks. Ambulatory surgical centers, more common in states like California and Arizona, rely on compact gas delivery equipment and portable cylinders to support outpatient procedures and sedation services. Pharmaceutical & biotechnology companies in U.S. hubs such as the San Francisco Bay Area and Research Triangle Park in North Carolina use high-purity gas systems and specialty delivery equipment as part of drug development manufacturing and analytic operations. Academic & research institutions including medical schools and university hospitals such as those affiliated with Johns Hopkins and Harvard deploy custom pipeline systems specialized vacuum and gas delivery in their labs and teaching hospitals to support both clinical care and research initiatives.  

Considered in this report
• Historic Year: 2019
• Base year: 2024
• Estimated year: 2025
• Forecast year: 2030

Aspects covered in this report
• Medical Gas and Equipment Market with its value and forecast along with its segments
• Various drivers and challenges
• On-going trends and developments
• Top profiled companies
• Strategic recommendation

By Product Type
• Medical Gases
• Medical Gas Equipment

By Application
• Therapeutic
• Diagnostic
• Pharmaceutical Industry
• Others

By End-User
• Hospitals
• Home Healthcare
• Ambulatory Surgical Centers
• Pharmaceutical & Biotechnology Companies
• Academic & Research Institutions Show more