Chest tube practice questions for the NCLEX exam. Chest tubes are used in the clinical setting to help drain fluid or air from the pleural space of the lungs or after cardiac surgery to help prevent fluid from compressing the heart (which are mediastinal chest tubes). Show The nurse is responsible for monitoring and maintaining the chest tube drainage system. This includes recording drainage, monitoring for air leaks or kinks, assessing suction settings, monitoring patient’s respiratory status, and assisting the physician with removal of the chest tube. After you’re done taking this quiz, don’t forget to take our other free NCLEX quizzes. Lecture on Chest Tube Care
(NOTE: When you hit submit, it will refresh this same page. Scroll down to see your results.) NCLEX Questions on Chest Tube Care1. You are providing care to a patient with a chest tube. On assessment of the drainage system, you note continuous bubbling in the water seal chamber and oscillation. Which of the following is the CORRECT nursing intervention for this type of finding? A. Reposition the patient because the tubing is kinked. B. Continue to monitor the drainage system. C. Increase the suction to the drainage system until the bubbling stops. D. Check the drainage system for an air leak. 2. A patient is receiving positive pressure mechanical ventilation and has a chest tube. When assessing the water seal chamber what do you expect to find? A. The water in the chamber will increase during inspiration and decrease during expiration. B. There will be continuous bubbling noted in the chamber. C. The water in the chamber will decrease during inspiration and increase during expiration. D. The water in the chamber will not move. 3. What type of chest tube system does this statement describe? This chest drainage system has no water column to control suction but uses a suction monitor bellow that balances the wall suction and you can adjust water suction pressure using the rotary suction dial on the side of the system. It allows for higher suction pressure levels, has no bubbling sounds, and water does not evaporate from it as with other systems. A. Mediastinal chest tube system B. Dry suction chest tube system C. Wet suction chest tube system D. Dry-Wet suction chest tube system 4. The patient in room 2569 calls on the call light to tell you something is wrong with his chest tube. When you arrive to the room you note that the drainage system has fallen on its side and is leaking drainage onto the floor from a crack in the system. What is your next PRIORITY? A. Place the patient in supine position and clamp the tubing. B. Notify the physician immediately. C. Disconnect the drainage system and get a new one. D. Disconnect the tubing from the drainage system and insert the tubing 1 inch into a bottle of sterile water and obtain a new system. 5. You’re assessing a patient who is post-opt from a chest tube insertion. On assessment, you note there is 50 cc of serosanguinous fluid in the drainage chamber, fluctuation of water in the water seal chamber when the patient breathes in and out, and bubbling in the suction control chamber. Which of the following is the most appropriate nursing intervention? A. Document your findings as normal. B. Assess for an air leak due to bubbling noted in the suction chamber. C. Notify the physician about the drainage. D. Milk the tubing to ensure patency of the tubes. 6. A patient is recovering from a pneumothorax and has a chest tube present. Which of the following is an appropriate finding when assessing the chest tube drainage system? A. Intermittent bubbling may be noted in the water seal chamber. B. 200 cc of drainage per hour is expected during recovery of a pneumothorax. C. The chest tube is positioned at the patient’s chest level to facilitate drainage. D. All of these options are appropriate findings. 7. While helping a patient with a chest tube reposition in the bed, the chest tube becomes dislodged. What is your immediate nursing intervention? A. Stay with the patient and monitor their vital signs while another nurse notifies the physician. B. Place a sterile dressing over the site and tape it on three sides and notify the physician. C. Attempt to re-insert the tube. D. Keep the site open to air and notify the physician. 8. A patient is about to have their chest tube removed by the physician. As the nurse assisting with the removal, which of the following actions will you perform? Select-all-that-apply: A. Educate the patient how to take a deep breath out and inhale rapidly while the tube in being removed. B. Gather supplies needed which will include petroleum gauze dressing per physician preference. C. Place the patient in Semi-Fowler’s position. D. Have the patient take a deep breath, exhale, and bear down during removal of the tube. E. Pre-medicate prior to removal as ordered by the physician. F. Place the patient is prone position after removal. 9. A patient with a chest tube has no fluctuation of water in the water seal chamber. What could be the cause of this? A. This is an expected finding. B. The lung may have re-expanded or there is a kink in the system. C. The system is broken and needs to be replaced. D. There is an air leak in the tubing. Answer Key 1. D 2. C 3. B 4. D 5. A 6. A 7. B 8. B, C, D, E 9. B More NCLEX Quizzes: Caring for Patients with Tubes A chest tube, also known as a thoracic catheter, is a sterile tube with a number of drainage holes that is inserted into the pleural space. The pleural space is the space between the parietal and visceral pleura, and is also known as the pleural cavity. A patient may require a chest drainage system any time the negative pressure in the pleural cavity is disrupted, resulting in respiratory distress. Negative pressure is disrupted when air, or fluid and air, enters the pleural space and separates the visceral pleura from the parietal pleura, preventing the lung from collapsing and compressing at the end of exhalation. A small amount of fluid or air may be absorbed by the body without a chest tube. A large amount of fluid or air cannot be absorbed by the body and will require a drainage system (Bauman & Handley, 2011; Perry et al., 2014). The chest tube is connected to a closed chest drainage system, which allows for air or fluid to be drained, and prevents air or fluid from entering the pleural space. The system is airtight to prevent the inflow of atmospheric pressure. Because the pleural cavity normally has negative pressure, which allows for lung expansion, any tube connected to it must be sealed so that air or liquid cannot enter the space where the tube is inserted (Bauman & Handley, 2011; Rajan, 2013). The location of the chest tube depends on what is being drained from the pleural cavity. If air is in the pleural space, the chest tube will be inserted above the second intercostal space at the mid-clavical line. If there is fluid in the pleural space, the chest tube is inserted at the fourth to fifth intercostal space, at the mid-axillary line. A chest tube may also be inserted to drain the pericardial sac after open heart surgery, and may be placed directly under the sternum (Perry et al., 2014). The following are some of the conditions that may require a chest tube drainage system (Bauman & Handley, 2011; Perry et al., 2014):
A chest tube drainage system must always be placed below the drainage site and secured in an upright position (attached to the floor or an IV pole, as in Figure 10.4) to prevent it from being knocked over. Figure 10.4 Chest tube drainage system secured to IV pole Figure 10.5 Chest tube drainage system Figure 10.6 Chest tube drainage system with labelled partsA chest tube drainage system is a sterile, disposable system that consists of a compartment system that has a one-way valve, with one or multiple chambers, to remove air or fluid and prevent return of the air or fluid back into the patient (see Figures 10.5 and 10.6). The traditional chest drainage system typically has three chambers (Bauman & Handley, 2011; Rajan, 2013). Always review what type of system is used in your agency, and follow the agency’s and the manufacturer’s directions for setup, monitoring, and use. In general, a traditional chest tube drainage system will have these three chambers:
In addition to the three chambers, the drainage system has many safety features to ensure that high negative pressures can be monitored and relieved quickly. To review these safety features and additional information regarding the chambers of a closed chest tube drainage system, visit the Teleflex Medical Incorporated website. When a patient has a closed chest tube drainage system, it is the health care provider’s responsibility to assess the patient and the equipment frequently to ensure the equipment is patent and working effectively. The health care provider should:
Checklist 86 reviews the management of a patient with a chest tube drainage system.
Special considerations:
Video 10.10Video 10.11Table 10.3 provides a list of potential complications and interventions related to chest tube drainage systems.
Heimlich ValveA Heimlich valve (see Figures 10.7 and 10.8) is a small, specially designed flutter valve that is portable and mobile, allowing the patient to ambulate with ease. It attaches to the chest tube at one end and a drainage bag at the other. The drainage bag allows air and fluid to escape but prevents their re-entering the pleural space. The valve can be worn under clothing. The valve functions in any position, never needs to be clamped, and can be hooked up to suction if required (Gogakos et al., 2015). Figure 10.7 Heimlich valve Figure 10.8 Blue end connects to chest tube; other end may be left open to air or attach to a small drainage bag
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