High-flow oxygen therapy is a modern method of providing oxygen, through nasal cannulas, with a higher volume of heated and humidified air. This special kind of therapy is also known as high-flow nasal cannula (HFNC). It seems to be a promising alternative therapy because it is less complicated and easier.
Mechanical ventilation is the process of using an external device (machine) to aid gaseous movement in and out of the lung. It serves as a type of life-saving device that facilitates breathing. Also, it’s widely used as an artificial breathing support in surgical cases, extremely ill situations, or when an individual is incapable of breathing on their own. Various modes of mechanical ventilation play a great role in respiratory support, patient stabilization, and provision of pressure to prevent the alveoli from collapsing. Continue reading, as this article provides you with diverse mechanical ventilation modes and some of the most common modes of air circulation.
Pressure-controlled ventilation is a special kind of assisted respiration whereby a patient’s inspiratory pressure is predetermined. This mechanical ventilation mode provides an amount of aeration that depends on the compliance of the lungs and the resistance of the alveoli. It is an airflow system where the maximum airway force is constant and the total ventilation fluctuates.
PCV is one of the most convincing pressure-limited ventilation (PLV) that is used regularly in the initial stages of newborn care. It is a technique recommended by different centers for preventing lobar emphysema. Although PCV reduces the risk of barotrauma, it could be challenging to provide a sufficient tidal volume (VT) when used in patients with ARDS. Also, an improper setting of this ventilator can lead to hypoxia and respiratory depression.
The modes of mechanical ventilation that involves a preset tidal volume to be provided in a specific amount of time is volume-controlled ventilation. It is usually more simple and comprehensible for most medical practitioners new to assisted air circulation. In this case, total ventilation is always set, the volume of breath supplied is constant, but the inspiratory pressure is unstable.
Most of the time, VCV is commonly used in anesthesia, either in the assisted control (AC) mode or continuous mandatory ventilation (CMV). Due to the increase in peak pressure (PIP) with steady and accurate breathing volume, it usually causes uneven gaseous distribution and volutrauma.
A special mode of positive-pressure mechanical ventilation that requires patient initiation of each breath is known as pressure support ventilation. This kind of aided respiration can be administered either through the use of intubation (invasive) or with a mask (non-invasive) ventilatory pattern. It’s known as the most pleasant aided airflow with a useful system that delivers the benefits of the two types of ventilator patterns.
PSV involves setting maximum driving pressure which usually indicates the ventilator flow rate. Sometimes, the patient’s pulmonary compliance, airway resistance, PIP, and breathing efforts frequently affect this flow rate. There is no minimum minute ventilation and the tidal volume provided is influenced by the flow and rate of breathing. Due to a volatile VT, it may also make the lung distend excessively.
Another type of PLV (similar to a pressure-controlled ventilator) that was previously used in neonates is the time-cycled PLV. This mechanical ventilation mode makes use of a predetermined peak pressure and a specified volume of gas within an extended period. While breathing in, this triggered ventilator provides a steady flow of air to the patient.
Previous reports about the use of pressure-limited time-cycled ventilation have shown that lungs are usually susceptible to atelectrauma and barotrauma conditions. In addition, it has been observed that one of the primary factors influencing ventilator-associated lung injury (VALI) is Total ventilation (VT).
This is a unique mode of mechanical ventilation that provides a fixed tidal volume at a predefined frequency. In most cases, synchronized intermittent mandatory air circulation always permits patients to voluntarily breathe on their own. SIMV produces a mandatory breath that is delivered at the same moment the patient starts initiating their breath (spontaneous breath). In addition, positive end-expository pressure (PEEP) can also be administered using this synchronized IMV method.
SIMV is mostly required by people with COPD, neuromuscular disorder, or ARDS and is used alongside pressure support ventilation. In some instances where SIMV is improperly used, there may be an inability to initiate spontaneous breath, fluctuations in intrathoracic force, or severe respiratory failure. This technique of ventilation is risky for hyperventilation, consumes much time, and can cause infection, barotrauma, or cardiac arrhythmias.
A high-flow nasal cannula is an oxygen therapy commonly called a heated, humidified, high-flow nasal cannula (HHFNC). It entails the delivery of a flexible blend of warmed, humid, and oxygen-rich air at a variable pace that surpasses spontaneous pulmonary flow. Whenever this aeration is used to provide oxygen, the flow is significantly greater than that with conventional nasal cannulas.
In addition, HFNC enhances the functional residual capacity, and accurate distribution of oxygen. This mechanical ventilation mode often has an outcome of improved breathing efficiency due to continuous high oxygen flow that often washes out the anatomical dead space.
Self Adjustable Ventilation is a special ventilator that makes use of detectors to constantly alter the airflow in response to changes in air properties. With the help of this technique, indoor comfort, improved air exchange systems, and environmental sustainability are guaranteed. This often allows great flexibility in ventilator parameters and also blends soothingly with a wide range of conditions.
1.https://my.clevelandclinic.org/health/treatments/15368-mechanical-ventilation
2.https://www.sciencedirect.com/topics/medicine-and-dentistry/pressure-controlled-ventilation
3. https://ecampusontario.pressbooks.pub/mechanicalventilators/chapter/volume-control-ventilation/
4.https://ecampusontario.pressbooks.pub/mechanicalventilators/chapter/volume-control-ventilation/
5.https://pubmed.ncbi.nlm.nih.gov/31536312/#:~:text=
7. https://www.icliniq.com/articles/respiratory-health/synchronized-intermittent-mandatory-ventilation
8.https://www.uptodate.com/contents/high-flow-nasal-cannula-oxygen-therapy-in-children
In Batman Organize Sanayi Bolgesi (OSB), respiratory devices manufactured in a factory are exported to 41 countries.
During the COVID-19 pandemic, Biosys, a domestic producer of respiratory devices, collaborated with Arcelik, ASELSAN, and Baykar under the guidance of the Ministry of Health and the Ministry of Industry and Technology.
Both, in collaboration, inaugurated a factory in Batman OSB on March 6 of this year, with the presence of the Minister of Treasury and Finance Mehmet Simsek and Mehmet the Minister of Industry and Technology Fatih Kacir.
Explore the technological advancement in mechanical ventilators as this article will provide you with a historical knowledge of ventilators, some of the modern innovations in ventilator technology, and the future of ventilation.
Explore the technological advancement in mechanical ventilators as this article will provide you with a historical knowledge of ventilators, some of the modern innovations in ventilator technology, and the future of ventilation.
During an operation, surgeons often employ various activities such as intraoperative monitoring (IOM) to achieve the ideal goal of saving lives. However, in cases related to the nervous system an IOM subdivision process called Neuromonitoring or Electrophysiologic monitoring is often employed.
It provides a monitoring purpose that notifies the anesthesia specialist and operating neurologist of an approaching injury so that they can adjust the course of treatment in time to avoid irreversible harm.
This is sometimes used to create and locate neuron regions to help provide technical management. It is a strategy that is employed to reduce possible risks associated with the neural network.
Continue reading as this article provides you with information about the meaning of intraoperative neuromonitoring (IONM), its basics, clinical application, and its technical future directions.
One of the medical procedures that entails constant checks of brain and neuronal activities during neural operations is known as intraoperative neuromonitoring (IONM). This procedure aids in the structural presentation of the sensorium and also illustrates its likely associated impairments.
Its main objective is to maintain the neurological system’s ideal nature, most especially the central nervous system (CNS) and the peripheral nerve. In addition, IONM provides neurophysiological data, which presents safer and more comprehensive processes that can be executed by the neurologist.
In many medical procedures, neuromonitoring has become the standard and has taken the place of intraoperative wake-up testing in spinal surgery. However, there are no evaluating terms and standards of care as most monitoring teams and surgeons choose their methods. Below are its basics:
With the rapid changes and developments in today’s neuromonitoring technology, significant advances have been made in the medical world. These modern techniques in clinical settings have improved immediate nervous system diagnosis and protection. Here are some conspicuous examples:
The application of surgical neuromonitoring methods involves a wide range of healthcare processes that improve patients’ outcomes. Some of its vital applications in medics are:
In recent years, there have been countless growth and advancements in the use of surgical neuromonitoring technology. However, It is believed that technically neuromonitoring in surgery will progress in several important areas in the future. Such as:
Neuromonitoring technological advancements have transformed surgical procedures in clinical settings by providing immediate evaluation and nervous system protection. By improving patient outcomes, these advancements mark the beginning of an inventive age in neurosurgery and spine therapies.
You can explore this evolving field of intraoperative neuromonitoring methods and discover modern applications and technological developments that guarantee safer surgical procedures. Dive into the future with the advancement of surgical neuromonitoring that comes along with a lot of factors that improves patient outcomes.
One of the major systems in the human body that is responsible for the control of gaseous exchange is the respiratory system. Sometimes, this breathing pathway may be damaged due to certain conditions resulting in improper ventilation mechanisms. However, with the invention of humidifier ventilation, most of these respiratory inconveniences and difficulties can be avoided.
Initially, the human airway performs the function of an additional provision of water vapor (moisture) to inspire air which enhances pulmonary activities. This process of additional moisture known as a humidification mechanism is often provided by what is called a ventilator humidifier in a mechanical ventilator.
However, there have been a series of improvements in clinical technology providing an adequate medical system that maximizes patient outcomes. This article will provide you with comprehensive details about humidification, its key roles, strategic implementation, and success stories in ICU settings.
The process of adding moisture, heat, and filtrating inhaled air in mechanical ventilators to aid convenient breathing similar to normal is known as Respiratory humidification. It is an integral process that provides lung protection, comfortable respiration, and above all keeps the airway safe.
Generally speaking, patients in the ICU setting often benefit from the great impact of humidification, as it provides them with so much improved respiratory care. Some Integral roles performed by humidification are:
The use of humidifier ventilators in ICU settings has brought great advancement in the healthcare sector by producing increased success stories and patient outcomes. Below are some ventilator’s impact success stories.
A forty-year-old man, called John, experiences a miraculous treatment that helps preserve his severe breathing condition. His amazing recovery was achieved due to the impact of humidifier ventilation during his brief stay in the ICU setting.
He is a refinery worker with a medical background of 3 years of COPD. He was brought to the healthcare center with various likely symptoms like persistent wheezing, shortness of breath, and chest pain after a long morning exercise he had that morning.
After a proper diagnosis, a bullectomy surgery was considered a perfect solution by the medical team to preserve John’s life. A strategic plan was structured by the medical team to perform the surgery.
The surgery was a success following the perfect removal of giant bullae (air pockets) in the left lung. After the surgical procedure, the concurrent chest pain was reduced, and was entirely placed on the non-invasive humidifier ventilator.
John’s surgery was a success, and he was referred to the ICU setting as he was permanently placed on a positive pressure ventilation system coupled with a ventilator humidifier.
In conclusion, the humidifier ventilation method was administered to enhance his respiratory function. He was discharged and further assisted via telemedicine care.
Angela, a young girl, was brought into an accident and emergency unit. For the sake of saving her life, an asthmatic-relieving drug was administered and then placed on a non-invasive ventilator humidifier.
Her medical symptoms and background show that she is having difficulty breathing, wheezing, and shortness of breath, and has been managing the condition since 8 years old.
Quickly, she was first stabilized and referred to the ICU, where she was placed on an NIV ventilator humidifier. She was constantly monitored throughout the process.
She was assigned some medical specialists, like respiratory therapists and pediatricians, who work tirelessly to achieve their medical goals.
Due to her age, she was carefully monitored and assisted by several nurses. After about three to five days in the intensive care unit, her respiratory system was observed to improve, and she was also breathing perfectly well. She was discharged from the ICU setting in good condition.
The use of a ventilator humidifier requires some procedures for the enhancement of general healthcare. To implement humidification, the following procedures are to be practiced:
You can be a partaker of a respiratory system like no other with the aid of an advanced humidification system. This alternative breathing method is a type that brings more comfort, satisfaction and improved pulmonary treatment. However, you can also be a participant in this transformative respiratory care by taking a step today with a humidified ventilation system.
Dated to the 1940s, Non-invasive Ventilation has been undergoing a series of changes with various modifications in designs and techniques. This improvement in ventilator modes has exceeded imaginations and has brought a lot of technical healthcare solutions to diverse medical problems.
NIV as a mode of ventilation has a great impact in the intensive care unit, as it provides a life-changing option that produces more positive outcomes. In addition, its impact on humanity is much more than an invention but one with immeasurable support and medical advancement that comes with a decrease in problems associated with intubation.
This article shall discuss some of the clinical importance of non-invasive ventilation in comparison with the invasive method, its impact on patient outcomes, its various technical and clinical benefits, alongside some of the future trends NIV possesses.
One of the special modes of ventilation that does not require the use of a penetrating apparatus (endotracheal intubation) to aid respiration is known as Non-invasive ventilation (NIV). This is a unique method that is often employed to reduce complications associated with invasive ventilation eg. acute respiratory failure, airway disorder, etc. It is a technique with various forms of suitable designs and modifications that help in maintaining chronic respiratory conditions.
Assisted ventilation in humans comes in various ways, one of which is the process of using positive pressure to aerate the lungs. This mode of ventilation is often called Positive pressure ventilation. In most cases, this method is always utilized in a non-invasive ventilation system with diverse advantages and benefits compared to others.
The impact of non-invasive ventilation on life has gained remarkable attention and patients with a range of breathing complications have been greatly helped and their health alongside their quality of life have improved. Below are some patient outcomes of non-invasive ventilation:
Clinically and technically, Non-invasive ventilation has an edge over invasive ventilation. It possesses a lot of features that are of great remark. The advantages of non-invasive ventilation are beyond measures in the medical application and we have some as follows:
In the medical field, there are a series of expected developments in technological modifications of clinical equipment. One of these devices that has been a major concern is the non-invasive ventilator (NIV). This appliance has been an incredible device linked with improving patient outcomes with its possible future trends. These future trends are said to optimize ventilation settings and improve personalized healthcare, with the integration of exceptional features such as:
The emergence of telemedicine critical care sector has encountered an enormous change in the past few years. Its advent has brought a great change and alteration to the delivery of clinical care and access to specialized expertise. This great medical invention has also proven its essence with more patient outcomes as a result of its impact on medical consultation.
The effect of Telemedicine on critical care is an approach powered by technology, whose goal is centered on providing efficient medical treatment like remote patient monitoring, in the intensive care unit (ICU). Also, the introduction of a telemedicine network is to alleviate the increased scarcity of intensive care specialists and the escalating demand for telemedicine critical care services.
This article will provide you with telemedicine diverse opportunities and challenges in ICU, various transformative natures of telemedicine critical care for patients, and strategic integration of telehealth with traditional ICU practice.
Telemedicine is an advanced health tech that has greatly influenced critical care – Telehealth-IUC. It’s a system that’s rapidly evolving, with faster adoption and use. Telehealth-IUC is built for more and with more expectancy, explore with me as we unfold some of its opportunities and concerns.
Technically and functionally, the impact of telemedicine on critical care has created diverse opportunities for integral care services and has gained remarkable recognition in the ICU. Some of these opportunities it provides are as follows:
With the high pace of telehealth development, standards, and healthcare advancement, some integral factors of great concern still need a touch of improvement. These various telehealth-ICU challenges are as follows:
The invention of telemedicine-ICU has played a great role in the transformative function of patient care. It’s earned a remarkable place in medical healthcare delivery with countless case studies over the past couple of years. Below are some case reports of telemedicine’s dramatic effect:
Telemedicine in critical care has been a dynamic invention in the healthcare system that serves as a technical means of providing solutions for optimum patient care. It is a medical-tech innovation that can be integrated with traditional ICU practices to produce more patient outcomes. Below are some strategic ways of telemedicine-ICU integration:
The impact of Telemedicine on critical care has been an advanced technological solution incorporated into the medical sector for the increase of patient outcomes in ICU and generally the improvement in the healthcare system. Telehealth-ICU entails a wide range of opportunities and challenges but with a strategic implementation into traditional ICU practice, it radiates its essence as a transformative component of patient care.
You can explore the incredible impact of telemedicine in contemporary healthcare today and discover a transformative remote patient outcome. Join the latest healthcare innovation today, and witness medical solutions at your comfort.
One of the integral factors that divine the proper regulation of health and effective distribution of service in a healthcare sector is its medical device procurement. This is a vast field in medical care that encompasses the purchase of medical devices, commodities, goods, machinery, and even the commission of healthcare structures development.
In some cases, most healthcare organizations grant limited attention to the impact of medical procurement. Yet, many healthcare factors and also medical treatments are greatly influenced by medical device procurement. To create an efficient medical distribution and management, some set of challenges need to be overcome. Although, it’s not simple to navigate medical device procurement challenges.
Many times, medical personnel encounter a wide range of challenges to obtain the facilities needed for productive patient treatments that range from supply network delays to intricate rules and regulations. In this article, we will be taking a deeper look into the key considerations in medical device selection, strategies for cost-effective procurement, and tips for building strong relationships with suppliers.
Looking into the aspect of medical device selection during procurement, there are likely risks at the clinical stage that are bound to occur but at a considerable degree. To minimize device risk intensity, some key factors are to be considered when selecting a medical device. Fasten your seat, as we explore these factors together:
A major factor that should be put into consideration is the ability of a medical device to fulfill its functional purpose. Also, It is crucial to confirm the medical device regulatory compliance and if been approved and granted the required certificate from medical agencies eg. FDA, CE, WHO, etc.
While considering every other factor, one of the key elements to be evaluated is the device cost and total expense. However, the economic viability of a device should not only center on its cost but also a great consideration of its improvement possibilities, impact on patient outcome, and functional efficacy.
There are countless manufacturers in the healthcare sector that are known for the type of product they produce. Knowing the manufacturer’s reputation is an integral factor that helps in understanding the quality of the producer and its product. Also, proper examination of the device’s artistic or cosmetical nature should be considered.
Mostly when it comes to medical devices like imaging machines, operating machines, surgical supplies, etc. a very important factor to consider is the easy accessibility and usage of the device. A proper orientation program about the operation of the device is essential and a good user-friendly interface is to be selected.
When choosing a medical device, its durability and quality are of great consideration. Often, the lifespan of a device is to be considered with the importance of its usage. For instance, a device like an imaging machine with a guarantee of three years is less durable compared to that of a lifetime.
A detailed outline of the medical device’s intended usage must be determined and its ability to integrate with the current medical facilities is to be evaluated. It is also important to determine the device’s biocompatibility when in close contact with tissue. As it prevents possible medical device complications and danger to a patient.
In today’s rapidly evolving healthcare landscape, optimizing procurement strategies for medical devices has become more crucial than ever. Here are some essential tactics to consider for cost-effective procurement:
Before the purchase of any medical device, a systematic approach and analysis of sources to obtain your desired gadget are to be considered. This strategy provides a competitive atmosphere and perhaps results in a favorable price and conditions.
The use of technology in the aspect of medical device procurement cannot be sidelined. It’s a means that improves productivity and efficiency and also lessens mistakes by eradicating the need for manual operations. You can access the market for software and tools that will aid your exploration program.
The projection of the needs of various devices with the range of demand is to be taken. This can be done by gathering and evaluating information from previous purchases and patterns. A scale of preference is needed to maintain the proper quality of supplies.
A tactical approach to medical device procurement cost-effect is in the negotiation of beneficial rates and conditions. Creating a mutually beneficial dialogue with your supplier is one of the foremost vital components that can aid effective device bargaining.
Through reciprocal trust and respect, a solid relationship with suppliers can be created. This rapport can improve medical device transaction performance and more favorable conditions can be established.
There are various inevitable risks associated with purchasing medical devices. However, consulting an effective strategy for the management of this risk can help stop unforeseen expenditures and financial problems.
The quality and versatility of a device must be considered and prioritized when procuring medical devices. With the help of a quality valuation, likely faulty devices and associated expenses are eradicated.
Many people often minimize the importance of suppliers without realizing what a big role they play. Any business that wants to expand must have a reliable supplier and have a friendly relationship with them. Below are some tips for building a strong supplier rapport:
At Biosys, we take pride in being a reliable partner for our clients, demonstrating our commitment to excellence across all aspects, including Biyovent, BioAqua, BioScope, and Bio2Flow. As a supplier, we firmly stand behind the quality and functionality of these critical healthcare devices. At Biosys, we thoroughly understand the challenges that suppliers face in the medical device procurement process, and we are committed to making our clients’ jobs easier.
Our focus on providing top-notch products revolves around ensuring that our medical devices meet the objectives required by the healthcare sector, comply with regulatory standards, and obtain necessary certifications from organizations such as CE, WHO, and others. Additionally, we prioritize “Economic Viability,” evaluating the cost and overall expenses of our devices while considering their potential for improvement, impact on patient outcomes, and functional efficacy.
Another crucial aspect is “Device Production and Design,” where our goal is to facilitate the ease and effectiveness of healthcare professionals (doctors, nurses, etc.) in using our devices, making their jobs more manageable. “Device Orientation and Usability” is emphasized, especially for intensive care equipment, ensuring easy accessibility and user-friendly interfaces. When it comes to “Device Lifespan,” durability and quality are our primary considerations, and we offer extended warranties for our devices. Furthermore, “Device Compatibility” is thoroughly evaluated to determine how well our medical devices integrate with current healthcare facilities, preventing potential complications and ensuring patient safety.
Biosys is not just a supplier; we are your committed partner in achieving success and efficiency in your medical device procurement endeavors, offering support that goes beyond the transaction.
Discover the Biosys difference and explore our innovative and reliable healthcare solutions that meet the highest standards of quality, functionality, and usability. Whether you need solutions for an Intensive Care Mechanical Ventilator with Biyovent, Ventilator Compatible Humidifier with BioAqua, Intraoperative Neuromonitoring with BioScope, or High-Flow Oxygen Therapy with Bio2Flow; Biosys will provide the solutions you need in the specified areas.
