Medical Oxygen Therapy: Innovations And nexAir’s Contribution
Oxygen Therapy is also commonly referred to as Supplemental Oxygen. It is a form of treatment used for people who do not have enough Oxygen in their system, hence, the term “Supplemental”. Certain health conditions can restrict a person’s access to Oxygen. People with breathing disorders such as Asthma, Sleep Apnea, Pneumonia, Pulmonary Hypertension, Cystic Fibrosis, and Bronchiectasis can have this challenge and can use medical Oxygen as a treatment option.
Doctors usually carry out a test to identify a patient’s Oxygen level before recommending Supplemental Oxygen. This is because these conditions do not always require Oxygen Therapy. The normal Oxygen levels are between 75mmHg and 100mmHg. Hence, patients with Oxygen levels lower than 60mmHg are Hypoxic and usually require Oxygen therapy.
Types of Oxygen Therapies
There are four major types of Oxygen Therapies.
Oxygen Gas
This method involves providing a controlled supply of Oxygen to improve respiratory function. Oxygen is stored in compressed gas cylinders and can be used for both portable and stationary functions. The gas is delivered through nasal cannulas, ventilators, or masks.
Oxygen Concentrators
This system involves drawing air from the environment and is used to treat chronic respiratory conditions. The air is made up of Oxygen and Nitrogen, and since only Oxygen is needed, the Nitrogen is filtered out. The remaining Oxygen is then administered to the patient through a ventilator, a mask, or a cannula.
Liquid Oxygen
Unlike Oxygen gas, liquid Oxygen is stored in cryogenic containers to keep its state chilled. This is a preferred option as the chilled state allows a high volume of Oxygen to be stored in a small space as opposed to compressed cylinders.
It is a preferred option for patients who will be using the therapy for a longer time frame.
Hyperbaric Oxygen Therapy
In this method, the patient is fed with pure Oxygen at a pressure higher than normal. Patients using this treatment are placed in a pressurized chamber for the procedure.
It is typically used to treat certain wounds that are difficult to heal.
Notable Innovations In Oxygen Therapy
In recent years, healthcare has seen exciting breakthroughs in how we provide oxygen to people. These innovations make a difference in respiratory care, improving the ways we deliver oxygen.
One notable advancement is the development of portable concentrators. These are small, easy-to-carry devices that allow people to move around while still receiving the oxygen they need. This is a big step forward, providing more flexibility and freedom for individuals requiring oxygen therapy.
Another key improvement involves advanced flow control systems. These systems help regulate the amount of oxygen delivered with greater precision. This means healthcare providers can tailor the oxygen levels to match each person’s specific needs more accurately, enhancing the effectiveness of the treatment.
nexAir’s Contribution
nexAir has been playing a crucial role in advancing Oxygen therapy and respiratory care in general. Providing state-of-the-art Oxygen delivery systems, nexAir ensures that medical Oxygen therapy patients are getting the best service they deserve. Pay a visit to our website today and discover other ways we are making a difference.
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Manufacturing downtime costs American companies billions annually. When production lines halt due to gas supply issues, every minute translates to lost revenue, missed deadlines, and frustrated customers. At nexAir, we've spent decades developing solutions that keep manufacturing operations running smoothly.
The Hidden Costs of Gas-Related Downtime
When manufacturers calculate downtime costs, they typically focus on labor and lost production. However, gas supply disruptions create cascading effects that multiply these losses:
- Production rescheduling that disrupts carefully optimized sequences
- Rush shipping fees to meet customer deadlines despite delays
- Quality inconsistencies when processes restart after interruptions
- Overtime costs to catch up after unplanned stoppages
- Reputation damage when delivery commitments are missed
For a typical mid-sized manufacturer, each hour of downtime represents $5,000-$10,000 in direct and indirect costs. Our analysis shows that gas-related issues cause 7-12% of total manufacturing downtime - a substantial opportunity for improvement.
From Reactive to Proactive: The Supply Continuum
Most facilities follow a predictable pattern in their gas management evolution:
Stage 1: Reactive Management At this stage, facilities order gas when they notice supplies running low or, worse, after running out. Emergencies are common, and disruptions are accepted as "part of doing business." One automotive parts supplier operating this way experienced 14 production interruptions in a single quarter.
Stage 2: Calendar-Based Management Facilities advance to scheduled deliveries based on estimated usage. While better than the reactive approach, this method still results in either excess inventory (tying up capital and space) or shortages when usage spikes occur. A plastics manufacturer following this model maintained 40% more cylinder inventory than necessary while still experiencing occasional stockouts.
Stage 3: Consumption-Based Management Our telemetry systems monitor actual gas consumption, automatically triggering orders based on usage patterns rather than calendar dates. This approach virtually eliminates both stockouts and excess inventory.
Stage 4: Integrated Supply Management The most advanced approach connects gas management directly to production planning systems. Upcoming production requirements automatically adjust supply parameters, ensuring resources are precisely aligned with needs. A medical device manufacturer using this approach reports zero gas-related downtime for 27 consecutive months while operating with minimal inventory buffers.
Our expert KnowHow™ in industrial gas applications allows us to guide customers through this evolution at a pace that makes sense for their operations.
Customizing Solutions for Maximum Uptime
Manufacturing environments vary dramatically in their gas requirements and operational constraints. We've developed flexible approaches that address these differences:
- For high-volume, consistent usage operations, our bulk systems eliminate the cylinder handling that frequently causes supply disruptions. Bulk installations include telemetry monitoring and automated ordering to prevent outages.
- For variable-demand environments, our microbulk delivery systems provide the benefits of bulk supply with lower volume commitments. These systems reduce handling requirements while maintaining the flexibility needed for changing production schedules.
- For specialized applications requiring multiple gas types, our gas management programs combine cylinder tracking, usage monitoring, and automated replenishment. This comprehensive approach ensures that specialty gases are always available when needed, regardless of how infrequently they might be used.
- For multi-site operations, our enterprise supply programs coordinate deliveries and optimize inventory across locations. By treating the organization's gas requirements holistically, we minimize both stockouts and excess inventory across the network.
This consultative approach ensures that manufacturers receive solutions aligned with their specific operational patterns rather than generic "one-size-fits-all" systems.
Beyond Traditional Supply: Integrated Services for Total Reliability
Maximum uptime requires more than just reliable gas delivery. Our integrated services address the full spectrum of gas-related reliability factors:
Equipment maintenance programs that prevent system failures before they impact production Technical gas specialists who resolve application issues that could otherwise cause production problems Safety training that prevents accidents leading to downtime events Emergency response capabilities that minimize impacts when unexpected events occur Supply chain redundancy that ensures continuity despite regional disruptions
These services complement our supply solutions to form a comprehensive reliability strategy. By addressing both everyday operations and exceptional circumstances, we help manufacturers Forge Forward with confidence that gas-related disruptions won't derail their production targets.
Measuring Success: The Results That Matter
The ultimate measure of any downtime reduction strategy is its impact on production metrics. Our manufacturing customers consistently report significant improvements after implementing our comprehensive gas management solutions:
Downtime reductions of 85-95% for gas-related issues Inventory cost decreases of 20-30% through optimized supply management Administrative time savings of 5-10 hours weekly through automated ordering and tracking Production schedule adherence improvements of 3-7% due to improved supply reliability
These performance gains translate directly to bottom-line benefits that typically deliver ROI within months rather than years. More importantly, they allow manufacturers to confidently make delivery commitments, knowing that gas supply issues won't compromise their ability to perform.
Don't let gas supply issues impact your productivity. Contact us today to explore our tailored solutions.
Looking out for your future
Get your career going on the right track with nexAir
Find out how nexAir KnowHow has impacted businesses all over the Southeast
Our expertise makes us more than a valuable partner, it makes us headlines
