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Reinforced Endotracheal Tube, Cuffed
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Endotracheal Tube, Cuffed

Reinforced Endotracheal Tube, Cuffed

Reinforced Endotracheal Tube, Cuffed
High volume low pressure cuff

If you are in the medical field, then you know that one of the most important pieces of equipment in any medical facility is the endotracheal tube. This type of tube is inserted into a patient's trachea in order to help them breathe.

While there are many different types of endotracheal tubes, the reinforced endotracheal tube is one of the most popular choices. This type of tube is reinforced with an inner layer of soft silicone that helps to protect the patient's trachea from damage. The cuffed version of this tube has an inflatable cuff that helps to seal off the trachea so that air does not leak around the tube.

Description
  • Flat reinforcing coil that is kink-resistant, ensuring uninterrupted air-flow to the patient.
  • 38 percent stronger than leading reinforced ET tubes and 150 percent stronger than non-reinforced ET tubes.
Ref. No.: Size: Qty. Cs:
NMR104130 3.0 100
NMR104135 3.5 100
NMR104140 4.0 100
NMR104145 4.5 100
NMR104101 5.0 100
NMR104102 5.5 100
NMR104103 6.0 100
NMR104104 6.5 100
NMR104105 7.0 100
NMR104106 7.5 100
NMR104107 8.0 100
NMR104108 8.5 100
NMR104109 9.0 100
NMR104114 9.5 100

Reinforced Endotracheal Tube, Cuffed

If you are in the medical field, then you know that one of the most important pieces of equipment in any medical facility is the endotracheal tube. This type of tube is inserted into a patient's trachea in order to help them breathe.

While there are many different types of endotracheal tubes, the reinforced endotracheal tube is one of the most popular choices. This type of tube is reinforced with an inner layer of soft silicone that helps to protect the patient's trachea from damage. The cuffed version of this tube has an inflatable cuff that helps to seal off the trachea so that air does not leak around the tube.

What is a reinforced endotracheal tube?

A reinforced endotracheal tube is a type of breathing tube that is inserted through the mouth or nose into the trachea (windpipe). It is held in place by a cuff that is inflated with air. The tube has a small balloon at the end that is also inflated with air. This helps to keep the tube in place and prevents it from being pushed out of the trachea. The balloon can also be used to help inflate the lungs if they collapse.

How is it used?

An endotracheal tube is a medical device that is inserted into the trachea (windpipe) to maintain an airway during general anesthesia or mechanical ventilation. A cuffed endotracheal tube has a balloon-like cuff that is inflated to seal the trachea and prevent leakage of air around the tube.

What are the benefits?

There are many benefits to reinforced endotracheal tubes. They are stronger and more durable than regular endotracheal tubes, which means they can withstand more force and pressure. This makes them ideal for use in high-risk situations, such as during surgery or in the ICU. Additionally, they are less likely to kink or collapse, which can improve patient care and safety.

Are there any risks?

An endotracheal tube is a medical device that is inserted into the trachea (windpipe) through the mouth or nose. It is then connected to a mechanical ventilator, which helps the patient breathe.

The risks of having an endotracheal tube are:

- Infection: The tube can become a breeding ground for bacteria, which can lead to infection.

- Damage to the vocal cords: The tube can damage the vocal cords, resulting in a hoarse voice or difficulty speaking.

- Bleeding: There is a risk of bleeding, either from the nose or mouth where the tube was inserted, or from the lungs if the tube damages them.

- Breathing difficulties: If the tube is not placed correctly, it can cause difficulty breathing.

How to choose the right size

When it comes to choosing the right size for a reinfored endotracheal tube, there are a few things you need to take into account. First, you need to know the internal diameter of the trachea. Second, you need to know the length of the trachea. Third, you need to know the cuff size. Fourth, you need to know the patient's weight.

Once you have all of this information, you can then consult a sizing chart to choose the right size tube for your patient.

How to insert the tube

The first step is to lubricate the tube. This will help it to slide in more easily. Next, place the tube at the opening of the mouth and gently insert it into the mouth. Once the tube is in the mouth, tilt the head back and align the end of the tube with the opening of the trachea. Slowly insert the tube into the trachea. If you feel resistance, do not force the tube. Instead, try repositioning it and then inserting it again. Once the tube is in place, secure it with tape or a strap.

Reinforced Endotracheal Tube-Reinforced Endotracheal Tube- Cuffed online from Nexgen Medical India, Flat reinforcing coil that is kink-resistant, ensuring uninterrupted airflow to the patient. 38 percent stronger than leading reinforced ET tubes and 150 percent stronger than non-reinforced ET tubes. Reinforced Endotracheal Tube, Cuffed The development and evolution of the endotracheal tube (ETT) have been closely related to advances in surgery and anesthesia. Modifications were made to accomplish many tasks, including minimizing gross aspiration, isolating a lung, providing a clear facial surgical field during general anesthesia, monitoring laryngeal nerve damage during surgery, preventing airway fires during laser surgery, and administering medications. In critical care management, ventilator-associated pneumonia (VAP) is a major concern, Reinforced Endotracheal Tube as it is associated with increased morbidity, mortality, and cost. It is increasingly appreciated that the ETT itself is a primary causative risk for developing VAP. Unfortunately, contaminated oral and gastric secretions leak down past the inflated ETT cuff into the lung. Bacteria can also grow within the ETT in biofilm and re-enter the lung. Modifications to the ETT that attempt to prevent bacteria from entering around the ETT include maintaining an adequate cuff pressure against the tracheal wall, changing the material and shape of the cuff, and aspirating the secretions that sit above the cuff. Attempts to reduce bacterial entry through the tube include an antimicrobial coating of the ETT and mechanically scraping the biofilm from within the ETT. Studies evaluating the effectiveness of these modifications and techniques demonstrate mixed results, and clear recommendations for which modification should be implemented are weak. With the introduction of ether in the 1840s, undertaking surgical procedures became more common. General anesthesia was primarily provided through a device covering the patient's nose and mouth. The issue of gastric content aspiration was not generally appreciated, and postoperative pneumonia was a common problem.1 Trendelenburg (1869) is credited with designing the first inflatable cuff, which was a thin rubber bag fitted over the end of a tracheostomy tube, creating a tight seal to prevent aspiration during anesthesia.1,2 Preferring an alternative to tracheostomy, Macewen (1880) described relieving an obstruction by passing an oral tube into the trachea.2 He was also the first to describe administering anesthesia (chloroform) via an orotracheal tube and used a metal tube with a sponge collar placed into the pharynx to prevent aspiration.3,4 Eisenmenger (1893) was the first to describe the use of a cuffed ETT, as well as the concept of a pilot balloon to monitor intracuff pressure