Suction catheters help clear secretions from a patient's airway, ensuring smooth breathing and improving respiratory function. As an essential method for clearing respiratory secretions, it is very suitable for excessive phlegm, or have undergone tracheotomy. Suctioning can be classified into two methods—deep suction and shallow suction—based on the depth of insertion and the purpose. Today, Bever Medical will introduce these two crucial techniques to help you choose the right one for your patients.     What Is Deep Suction?   Deep suction involves inserting the suction catheter deep into the airway, reaching the trachea or bronchi to remove secretions from the lower respiratory tract. This technique is ideal for patients with significant airway blockages or heavy secretions, ensuring effective clearance and maintaining an open airway.    What Is Shallow Suction?   Shallow suction, on the other hand, only clears surface secretions. The suction catheter is inserted into the mouth, nose, or superficial airway. This gentler method is suited for routine care or patients with minimal secretions.    Key Differences Between Deep and Shallow Suction   The primary differences lie in the depth of insertion and application scenarios:   Deep Suction: Reaches the trachea or bronchi, making it suitable for clearing deep blockages or aiding ventilator-dependent patients. It requires advanced skills, strict sterilization, and continuous monitoring to prevent infection or hypoxia risks.   Shallow Suction: Targets the mouth, nose, or superficial airway, making it simpler and less invasive. While it has lower risks and causes less discomfort, it cannot address deeper blockages.   In summary, deep suction is better for thorough secretion removal, while shallow suction is ideal for routine care.    Who Needs Deep Suction?   Deep suction is a highly specialized technique, typically suited for the following patient groups:    1. Patients with Tracheal Tubes or Tracheotomy These patients are often unable to clear secretions on their own. Deep suction prevents infections and airway blockages.     2. Ventilator-Dependent Patients For patients using a ventilator, deep suction helps remove secretions that cannot be expelled naturally, ensuring an open airway.     3. Severe Respiratory Infections Patients with increased secretions due to infections benefit from deep suction to clear thick mucus and alleviate symptoms.     4. Patients with Hypoxia or Airway Obstruction In emergencies where airway blockages cause breathing difficulties, deep suction is a vital intervention.   Deep suction must be performed under professional supervision to avoid damaging the airway lining or causing complications.       Is Shallow Suction Suitable for Routine Care?   Shallow suction is a less intensive method ideal for routine care and preventative maintenance:    1. Patients Without Tracheal Tubes It helps clear secretions from the mouth and nose, preventing infections and maintaining cleanliness.    2. Patients with Minimal Secretions Shallow suction is sufficient for clearing light secretions without causing discomfort.    3. Postoperative Patients During recovery, shallow suction aids in gradually restoring the ability to clear secretions independently.    4. Home Care Settings Shallow suction is safer for family members to perform, making it suitable for basic at-home care.   Even though shallow suction is simpler, it is essential to follow sterile practices to avoid infections.     How to Choose Between Deep and Shallow Suction?   The choice depends on the patient's condition, care environment, caregiver's expertise, and the patient's tolerance:   Deep Suction: Best for severe secretion buildup, airway blockages, or ventilator-dependent patients. It is typically done in hospitals or professional care settings by trained personnel under strict sterile conditions to avoid airway damage.   Shallow Suction: Suitable for patients without significant blockages or those needing only surface secretion clearance. It is more convenient for daily care or home use, with lower technical requirements, but caregivers must still maintain sterility.   Deep suction may cause discomfort, such as coughing or gagging, so patient tolerance must be evaluated. Shallow suction, being less intrusive, is generally more acceptable.    Key Precautions for Both Deep and Shallow Suction   1. Sterile Technique Always ensure the suction catheter is clean and disinfected. Wear sterile gloves and avoid contact with non-sterile surfaces.    2. Avoid Over-Suctioning Limit suctioning to 10–15 seconds to prevent hypoxia or airway damage.    3. Adjust Based on Patient Feedback Monitor the patient's response during suctioning. Stop immediately if signs of hypoxia, excessive coughing, or abnormal heart rate occur.    4. Use Appropriate Suction Pressure Ensure the suction pressure is not too high to avoid irritating or damaging the airway.     5. Monitor Vital Signs For deep suction, closely observe oxygen saturation, heart rate, and breathing to address any abnormalities promptly.   Conclusion  Deep and shallow suction are essential techniques in airway care, each with specific applications and requirements. Choosing the correct method not only improves care effectiveness but also ensures patient safety and comfort. For high-quality suction catheters, contact Bever Medical today! We provide a wide range of medical-grade suction products, help doctors improve patient outcomes.

When young children face respiratory challenges, they might struggle with an unseen yet formidable adversary: mucus buildup in their airways. When young children face respiratory challenges, they might struggle with an unseen yet formidable adversary: mucus buildup in their airways. Fortunately, modern medicine provides a reliable solution like pediatric suction catheters. Let's delve into their purpose, use, and safety considerations while dispelling common fears. The Body's Response Mechanism Mucus, or sputum, is a natural secretion of the respiratory system. When children's immune systems detect invaders like bacteria, viruses, or allergens in their airways, they respond by producing mucus to trap and neutralize these threats. However, mucus excessive accumulation can bring complications. Because children's airways are narrower and more prone to obstruction compared to adults. Their underdeveloped cilia—tiny hair-like structures responsible for clearing mucus—may struggle to efficiently remove these secretions, especially when the mucus becomes thick and sticky due to dehydration or rapid breathing. The Role of Pediatric Suction Catheters Pediatric suction catheters with thin and flexible tubes are tailored to the delicate anatomy of children, ensuring minimal discomfort during use. By helping to clear the airways, suction catheters prevent blockages and lower the risk of respiratory infections.    Key Features of Suction Catheters Size Adaptability: Catheters come in various sizes to accommodate children of different ages and anatomical needs. Soft and Flexible Material: The material minimizes irritation and ensures safe insertion through the nose or mouth. Controlled Suction: Adjustable pressure settings allow for gentle yet effective removal of mucus. When Are Suction Catheters Needed? Not all children require suctioning, but in certain situations, these devices become indispensable: Not all children require suctioning, but in certain situations, these devices become indispensable: Infants and younger children may lack the inability to cough effectively Respiratory Complications like bronchiolitis, pneumonia, or asthma, etc. Post-surgery recovery Patients with neurological conditions find it difficult to manage secretions. Step-by-Step Guide to the Suctioning Process Suctioning requires meticulous care and adherence to hygiene standards to ensure safety. The following can be for your reference: Preparation You must be sure that the child has not eaten for at least two hours to avoid aspiration. Then, prepare the necessary tools, like the suction catheter, suction device, sterile gloves, saline solution, and a sterile container. Positioning Let the child be in a comfortable position, usually semi-reclined, to facilitate access to the airways. And must keep the child’s head stable to reduce the risk of injury during the procedure. Measuring and Inserting the Catheter The right insertion depth is the distance from the child's nostril to the earlobe. Use the saline to lubricate the catheter, then gently insert it into the nostril or mouth, avoiding forceful movements. Suctioning Activate the suction device and apply negative pressure while carefully rotating and withdrawing the catheter. Importantly, limit the suctioning duration to 10-15 seconds to prevent oxygen desaturation. Monitoring Continuously observe the child's breathing, color, and overall condition during and after suctioning. Post-Procedure Care Clean and sterilize reusable equipment or dispose of single-use catheters appropriately. Do remember to make the child ease, for example, provide comfort and reassurance to the child.   Common Concerns about Suctioning Discomfort vs. Safety While suctioning can be mildly uncomfortable, the procedure is typically quick and far less distressing than the complications arising from untreated mucus buildup. Potential Side Effects Temporary nasal irritation or minor bleeding may occur but is manageable with proper technique. Gagging or vomiting can happen, especially if the catheter stimulates the throat. Pausing suctioning allows these effects to subside. Trained Professionals Suctioning operators are always medical professionals, they undergo rigorous training to perform suctioning safely and ensure the child's comfort and well-being. Conclusion Pediatric suction catheters are essential for maintaining children's respiratory health with mucus buildup. These catheters help ensure children breathe easier and stay healthier. If you're looking for a reliable solution to support your child's respiratory needs, Bever Medical provides reliable and useful suction catheters. Learn more and contact Bever Medical!

In emergency care, anesthesia, intensive care, and other situations requiring respiratory support, nasopharyngeal and oral endotracheal intubation are commonly used techniques to ensure a clear airway. Both methods assist or control breathing effectively. But what sets them apart? Understanding their differences can help in selecting the right approach. Take a few minutes to explore this article for more useful information.    What Is Endotracheal Intubation? Endotracheal intubation is primarily used to ensure airway patency and provide effective mechanical ventilation support. Depending on the route, it can be divided into nasal endotracheal intubation and oral endotracheal intubation (commonly referred to as oral intubation). Situations where endotracheal intubation is used include: Emergency scenarios: When patients experience cardiac arrest, respiratory failure, severe trauma, or other conditions requiring rapid artificial airway establishment. General anesthesia: To maintain respiratory function during surgery. Intensive care: For conditions like acute respiratory distress syndrome (ARDS) that require prolonged mechanical ventilation. Postoperative care: To facilitate suctioning in patients with certain diseases or after specific surgeries.   Key Differences Between Nasal and Oral Intubation Definition and Procedure Nasal Endotracheal Intubation As the name suggests, the tube is inserted through the nose into the trachea, utilizing the nasal airway as a natural conduit. This passage offers a relatively stable artificial airway, making it a reliable choice. However, this technique requires higher technical expertise and is often preferred in situations involving difficult airways or when awake intubation is necessary.  Oral Endotracheal Intubation Also known as oral intubation, the tube is inserted through the mouth into the trachea. This is the most commonly used method in clinical practice, especially in emergency situations. Compared to nasal intubation, oral intubation is relatively straightforward and suitable for rapid airway management.  Advantages and Disadvantages Nasal Endotracheal Intubation Advantages: Stability: The nasal anatomy helps secure the tube, reducing the risk of accidental displacement. Patient comfort: Awake patients tolerate nasal intubation better, particularly for long-term intubation. Minimized interference: Ideal for oral or maxillofacial surgeries as it avoids the surgical site. Easier post-operative care: Facilitates oral hygiene and nursing care. Disadvantages: Complexity: Requires higher technical skill and takes longer to perform. Nasal complications: Risk of nosebleeds, mucosal injury, sinusitis, or even middle ear infections. Increased airway resistance: Narrower tubes may reduce airflow efficiency. Limitations: Not suitable for patients with nasal abnormalities or bleeding tendencies. Oral Endotracheal Intubation Advantages: Ease of use: Ideal for emergencies requiring quick airway establishment. Effective ventilation: Wider tubes improve secretion drainage and airflow. Avoids nasal complications: Eliminates risks like nasal trauma or sinus infections.  Disadvantages: Less stable: Tubes are more prone to displacement due to coughing or suctioning. Lower patient tolerance: Awake patients find it uncomfortable, often requiring sedation. Oral hygiene challenges: Intubation limits oral cleaning and increases the risk of infections. Mucosal injury risk: Long-term use may cause mouth sores or pressure ulcers.  Application Nasal intubation: Frequently used for oral and maxillofacial surgeries due to its comfort and stability. Oral intubation: Common in emergency settings, urgent surgeries, or short-term artificial airway needs.  Choosing the Right Tube Size and Depth Tube size and insertion depth depend on factors like age and gender. Below are general guidelines: Tube Size Adults (Male): Oral tube size (inner diameter) typically 8.0–8.5 mm; nasal tube size 7.0–7.5 mm. Adults (Female): Oral tube size 7.5–8.0 mm; nasal tube size 6.5–7.0 mm. Children: Use the formula ID = (Age/4) + 4.5 to estimate tube diameter. For children under 5, uncuffed tubes are generally recommended. Insertion Depth Adults (Male): Oral intubation ~22 cm; nasal intubation ~25 cm. Adults (Female): Oral intubation ~21 cm; nasal intubation ~24 cm. Children: Estimate depth using the formula Depth (cm) = (Age/2) + 12. Depth should be adjusted to ensure proper tube placement without being too shallow or too deep.  Factors Influencing Choice Surgical Requirements Nasal intubation is preferred for oral and maxillofacial surgeries to avoid interference with the surgical site. Conversely, oral intubation is the go-to for nasal or sinus surgeries.  Patient Condition Nasal intubation offers higher comfort, making it ideal for awake intubation. Oral intubation is simpler and faster, making it the first choice in emergencies.  Conclusion Both nasal and oral intubation have unique advantages and limitations. By understanding their differences, healthcare providers can choose the most appropriate method based on the patient's condition and surgical needs. Bever Medical offers OEM endotracheal intubation products to help medical professionals ensure optimal respiratory care for patients.

Suctioning is an effective measure to clear airway secretions and maintain airway patency. For patients who need suctioning, even a single accumulation of sputum can be life-threatening. Therefore, healthcare professionals need to master the suctioning technique. Generally, the main airway suctioning ways are pen suctioning and closed suctioning. So, which method is better? Let's explore.   What Are Open Suctioning and Closed Suctioning?   Open suctioning involves disconnecting the patient's artificial airway (such as an endotracheal tube or tracheostomy) from the ventilator during the suctioning process. A suction catheter is then inserted into the airway to remove secretions. Typically, healthcare professionals use a single-use suction catheter and discard it after each procedure.  Closed suctioning, on the other hand, is performed using a sealed suctioning system connected to the ventilator. This method allows suctioning without disconnecting the ventilator. This catheter operates within a closed system, ensuring continuous mechanical ventilation for the patient.   Advantages of Closed Suctioning   1. Reduces the Risk of Atelectasis and Hypoxia   Closed suctioning allows for uninterrupted mechanical ventilation, preventing the loss of positive end-expiratory pressure (PEEP) that occurs during open suctioning. This design helps minimize alveolar collapse, maintain lung volume, and reduce the incidence of hypoxemia and atelectasis during the procedure. Closed suctioning is especially beneficial for patients with high oxygen demands or PEEP ≥ 10 cmH2O.   2. Lowers Infection Risk   The closed environment of the suctioning system minimizes direct contact between healthcare personnel and patient secretions. For patients with respiratory infections (such as tuberculosis) or multidrug-resistant organisms, closed suctioning significantly reduces the risk of cross-infection, ensuring the safety of both patients and healthcare workers.   3. Reduces Arrhythmias and Other Adverse Reactions   Open suctioning, which involves disconnecting the ventilator, often causes increased heart rate, elevated blood pressure, or suction-related arrhythmias in patients. Closed suctioning, by maintaining continuous ventilation and oxygenation, greatly reduces the likelihood of these adverse reactions.   4. Faster Operation and Enhanced Nursing Efficiency   Closed suctioning eliminates the need to replace the suction catheter for each use, and the process is relatively simple and quick. This makes it particularly suitable for patients requiring frequent suctioning (e.g., more than six times per day). Moreover, there is no need to adjust ventilator settings during the procedure, resulting in more efficient operations.   5. Cost-Effective in the Long Term   Although the initial cost of a closed suctioning system is higher, its reusable design can reduce overall material costs over time. For patients requiring frequent suctioning, closed suctioning proves to be more economical.   6. Protects Healthcare Workers   Patients may cough during suctioning due to airway irritation, potentially releasing pathogens into the air. The sealed design of closed suctioning effectively minimizes aerosol dispersion, reducing the risk of occupational exposure and ensuring the safety of healthcare workers.   Advantages of Open Suctioning    PVC Soft Suction Catheter 1. Lower Initial Cost   Open suctioning primarily uses disposable suction catheters, making it a simpler and more affordable option in terms of initial costs. For patients requiring short-term mechanical ventilation, open suctioning can be more cost-effective.   2. Suitable for Specific Operational Needs   Open suctioning is more flexible when it comes to clearing large amounts of secretions, particularly when the secretions are thick and prone to clogging the suction catheter. This method allows for thorough cleaning of the airway.   Closed Suctioning Precautions  1. Preventing Tracheal Injury   Closed suction catheters are relatively rigid, and improper handling can cause tracheal bleeding. So it would be best to be careful when suctioning to avoid damaging the tracheal mucosa.   2. Regular Catheter Replacement   Although reusable, closed suction catheters should be replaced when contaminated or after seven days of use to prevent bacterial growth.   3. Clearing Secretion Buildup   After suctioning, clear secretions from the patient's mouth, the tracheostomy tube, or the cuff above the endotracheal tube to minimize the risk of ventilator-associated pneumonia (VAP).   4. Avoiding Catheter Blockage   Flush the suction catheter promptly after use to prevent clogging from mucus buildup.   Open Suctioning Precautions   1. Strict Aseptic Technique   The open suction method involves disconnecting the ventilator, which increases the infection risk. Please adhere to strict aseptic principles during the procedure.  2. Minimizing Ventilator Disconnection Time   Suctioning should be performed quickly to reduce the risk of oxygen desaturation caused by ventilator disconnection.   Which is Better?  Both suctioning ways have their pros and cons. The closed suctioning is ideal for patients requiring high oxygen levels, frequent suctioning, or those with infectious diseases. And open suctioning is simpler and more cost-effective, and it suits patients with short-term mechanical ventilation or specific needs.  If you're looking for quality and medical-grade suction products, Bever Medical offers OEM services with options for PVC or silicone materials, ensuring versatile solutions for diverse needs. Contact us now to learn more about our products!  

Suction catheters help healthcare professionals clear excess secretions or fluid from a patient's airway. Additionally, it helps keep the airway open and makes it easier for the patient to breathe. Suction catheters have different materials, so it's important to choose the right one to ensure patient safety and comfort. In this article, we'll share the guide on how to choose the material for your suction catheter and tips for proper care and maintenance. Impact of Suction Catheter Material Selection on Patients Biocompatibility When medical products come into use in humans, the materials must be non-toxic and non-harmful to human tissues to avoid allergic reactions or irritation. Therefore, suction catheters are always made from medical-grade PVC or silicone. Silicone is widely used for patients who require higher comfort due to its flexibility and high-temperature resistance. Flexibility and Hardness Suction catheters need to keep flexibility during insertion into the airway to adapt to the patient's curved airway structure. Also, the hardness can prevent the catheter walls from collapsing and affecting suction effectiveness. For example, PVC products provide good support, while silicone, due to its softness, is suitable for patients who need to minimize airway irritation. Transparency Transparent catheters help medical personnel to clearly observe the flow of secretions during suction, so can know the patient's condition easily.  Size and Diameter Choosing the correct size of the suction catheter based on the patient's age and airway size ensures effective secretion removal without causing excessive irritation. For newborns and infants, smaller-diameter suction catheters are typically used. Anti-Kinking Design Some suction catheters feature anti-kinking designs that prevent the catheter from tangling or becoming blocked during use, ensuring smooth suction operation. Sterility The sterility of suction catheters is critical. Most suction catheters are designed for single use, ensuring a sterile environment for each procedure to reduce the risk of infection. Common Suction Catheter Materials and Their Characteristics Medical PVC: Cost-effective, with moderate hardness and high transparency. However, its flexibility is not as good as silicone, and it may cause allergies. Silicone: Soft, biocompatible, and capable of being sterilized at high temperatures. However, it is more expensive. Thermoplastic Polyurethane (TPU): High strength, wear-resistant, and highly flexible, but less commonly used for highly sensitive patients. Polyethylene (PE): Highly flexible and chemically resistant, but opaque and thus less commonly used. Suction Catheter With Thumb Control Valve How to Choose Suction Catheter Material Silicone It has superior softness and biocompatibility, which can minimize irritation and allergic reactions. So, it is suitable for patients with high sensitivity. Also, it fits emergency and intensive care settings due to its excellent safety and sterilization performance. PVC A cost-effective option for general patients and home care, suitable for single-use. However, be cautious of potential plasticizer allergies. Transparent PVC is helpful for observing secretions inside the catheter. Thermoplastic Polyurethane (TPU) Ideal for scenarios requiring high strength or wear resistance. TPU or polyethylene (PE) performs better in special environments such as chemical labs or high-wear settings. Important: When choosing a suction catheter, it is wise to consult healthcare professionals. Prioritize certified medical-grade materials to ensure safety. How to Properly Maintain and Care for Suction Catheters Although most suction catheters are single-use products, mastering the tips of maintenance and usage precautions can help improve safety during use. Storing it in a clean, dry, and light-protected environment can avoid material degradation or contamination. Before using a suction catheter, ensure hands are thoroughly cleaned and sterile gloves are worn. Once the catheter packaging is opened, it should be used immediately, avoiding contact with non-sterile surfaces. Most suction catheters are for single use only. Reusing them can increase the risk of infection. If reuse is necessary, please follow strict sterilization procedures to ensure sterility. Before each use, check that the catheter is free of blockages to prevent issues during suction. Timely Replacement: If the catheter shows signs of damage, deformation, or any other abnormalities, stop using it immediately and replace it. Conclusion It can ensure patient safety and comfort when using suction catheters, and material plays a great role. When it comes to choosing the material of the suction catheter, the doctor can provide a good choice according to the patient and the specific requirements of the medical scenario.  As an experienced supplier of suction catheters, Bever Medical is committed to providing high-quality medical catheter products for hospital, home care, etc. With medical-grade PVC and silicone materials, our products meet international standards and ensure the catheters' excellent performance in safety and comfort. 

Airway management products play a vital role in providing patient care across various settings. For example, suction catheters for adults and children differ in design and application, while closed and open suction systems cater to distinct medical scenarios. It is important to choose the right type of suction catheter, as it enhances treatment efficacy and ensures patient safety. This article shares the types of suction catheters, If you're unsure about which catheter to use in specific situations, this article will help a lot. 72-Hour Closed Suction Catheter for Adults (Y-Type / T-Type / L-Type) T-Type Closed Suction Catheter Features a main channel and a side channel intersecting at an angle. The main channel is used for suctioning, while the side channel typically connects to other airway management products such as ventilators. Y-Type Closed Suction Catheter This type of suction catheter consists of a main channel branching into two. These branches can serve different purposes, such as one for suctioning and the other for ventilation. L-Type Closed Suction Catheter Includes a main channel and a side channel forming a right angle. The main channel is used for suctioning, while the side channel connects to auxiliary equipment. Closed suction catheters allow for suctioning while maintaining mechanical ventilation for patients. Features such as a push-button switch and luer cap isolate the irrigation chamber from the ventilation channel, ensuring airway ventilation during catheter cleaning and preventing backflow. The PU protective sleeve provides complete sealing, preventing secretions from being exposed to air, thereby protecting healthcare workers from infections. The soft and smooth blue catheter tip minimizes damage to the patient's airway mucosa. Additionally, the dual-rotating connector ensures excellent airtightness and allows adjustment of the breathing circuit as needed. The catheter is equipped with a separator for quick disconnection between the endotracheal tube and the suction catheter, simplifying operations. Options include tracheostomy and endotracheal models.  24-Hour Closed Suction Catheter for Adults (Y-Type / T-Type / L-Type) T-Type Closed Suction Catheter Features a main and side channel for suctioning and connecting to other airway devices, respectively. Y-Type Closed Suction Catheter Includes a main channel splitting into two branches for different uses, such as suctioning and ventilation. L-Type Closed Suction Catheter Has a main and a side channel forming a right angle for suctioning and connecting to additional devices. The catheter’s PU protective sleeve ensures complete sealing, preventing exposure to secretions and protecting caregivers from infections. Its soft blue tip minimizes mucosal damage. Dual-rotating connectors provide airtightness and enable adjustment of the respiratory circuit. Colored day-of-the-week labels are more common on closed suction tubes used for 24 hours and 72 hours. They can mark the use cycle of the catheter to ensure timely replacement and reduce the risk of infection. This simplifies operation and ensures safety. 24-Hour Closed Suction Catheter for Children Designed for neonates and pediatric care, these catheters are available in sizes 5Fr, 6Fr, 7Fr, and 8Fr. Each catheter comes with three differently sized Y-connectors for compatibility with various endotracheal tubes. Key features include a PU protective sleeve for sealing, a soft blue tip to minimize mucosal injury, and numerical depth markings corresponding to those on the endotracheal tube. A one-way valve irrigation port prevents backflow and aerosolized secretions. Colored day-of-the-week labels facilitate easy recognition of usage time. 72-Hour Closed Suction Catheter for Children This catheter allows for suctioning while maintaining mechanical ventilation. Features such as a push-button switch and luer cap prevent backflow and maintain ventilation during cleaning, reducing the risk of ventilator-associated pneumonia (VAP). Available in sizes ranging from 2.5 to 6.5 to fit various pediatric endotracheal tubes, the catheter has a PU protective sleeve to prevent secretion exposure and minimize infection risk. The soft blue tip reduces damage to the airway mucosa. Simplified Closed Suction Catheter This catheter maintains mechanical ventilation while suctioning. Its soft blue tip minimizes mucosal injury, while the PU protective sleeve prevents secretion exposure. The quick-disconnect separator enables easy detachment, and numbered depth markings allow precise insertion monitoring. Colored labels help track catheter usage time. Oral Suction Catheter Designed for oral secretion suctioning and hygiene, this catheter is ideal for bedridden, unconscious, anemic, or mechanically ventilated patients. It effectively clears the oral cavity and airway, reducing the risk of lung infections and VAP. Its soft-tip design protects oral mucosa during use. Clearing respiratory secretions ensures airway patency, especially for patients with impaired coughing ability or artificial airways. This essential operation is a critical skill for healthcare providers. Conclusion Choosing the right airway management product is crucial for patient safety and comfort. Each type of suction catheter is tailored to specific clinical scenarios and patient needs. Whether for adults or children, closed suction catheters ensure effective suctioning while maintaining mechanical ventilation, reducing infection risks, and protecting caregivers. If you are looking for reliable, medical-grade airway management products, Bever Medical is your trusted partner. We also offer OEM services to meet your specific needs. For guidance on usage or any issues, please feel free to contact us.