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Patients in the critical or intensive care units (ICU) are monitored on a frequent basis with portable chest radiography both to check on the position of their multiple assistive devices and to assess their cardiopulmonary status.
Diseases commonly seen in critically ill patients are discussed in other chapters ( Table 9.1 ).
Finding or Disease | Discussed in |
---|---|
Acute respiratory distress syndrome | Chapter 11 |
Aspiration | Chapter 8 |
Atelectasis | Chapter 6 |
Congestive heart failure (pulmonary edema) | Chapter 11 |
Pleural effusion | Chapter 7 |
Pneumomediastinum | Chapter 24 |
In this chapter, you’ll get practical advice for evaluating the successful (or unsuccessful) insertion and ultimate position of multiple tubes, lines, catheters, and other supportive apparatus used in the ICU. Information for even more devices can be found online ( e-Fig. 9.1 to e-Fig. 9.10) .
Almost always, a conventional radiograph is obtained after the insertion or attempted insertion of one of these devices to check on its position and to rule out any unintended consequences.
Therefore for each tube or device, you will learn :
Why they are used
Where they belong when properly placed
How such devices can be malpositioned and what complications may occur from the device ( Box 9.1 ).
There are many complications besides malpositioning that can follow an invasive procedure, but a few are more common and should raise suspicion when they occur immediately after the procedure.
For any tube, line, or device that either enters or passes through the thorax, be alert for postprocedure:
Appearance or increase in pleural effusion
Pneumothorax
Pneumomediastinum
Widening of the mediastinal shadow
For any tube, line, or device inserted in the abdomen, be alert for postprocedure:
Pneumoperitoneum
Why they are used
Assist ventilation
Isolate the trachea to permit control of the airway
Prevent gastric distension
Provide a direct route for suctioning
Administer medications
Correct placement of an ETT
Endotracheal tubes are usually wide-bore tubes (about 1 cm) with a radio-opaque marker stripe and no side-holes. The tip is frequently diagonally shaped.
With the patient’s head in the neutral position (i.e., bottom of mandible is at the level of C5-C6), the tip of the ETT should be about 3 to 5 cm from the carina or roughly half the distance between the medial ends of clavicles and the carina ( Fig. 9.1 ).
Ideally the diameter of the endotracheal tube should be one-half to two-thirds the width of trachea. An inflated cuff (balloon), if present, may fill—but shouldn’t distend—the lumen of the trachea ( Fig. 9.2 ).
How to find the location of the carina on a frontal chest radiograph
Follow the right or left main bronchus backward until either meets the opposite main bronchus.
Alternatively, the carina projects over the T5, T6, or T7 vertebral bodies in 95% of people.
Movement of tip with flexion and extension
Neck flexion may cause 2 cm of descent of the tube tip. This is why the tip should be 3 to 5 cm above the carina.
Neck extension from neutral may cause 2 cm of ascent of the tip.
There is a silly, but helpful, rhyming sentence to help remember the direction of movement of the tip of an ETT with movement of the head: “The tip of the hose (i.e., ETT) follows the tip of the nose. ”
Incorrect positioning and complications of an ETT
Most common malposition: because of the shallower angle and wider diameter of the right main bronchus or bronchus intermedius, the tip of the ETT will tend to slide into the right-sided bronchial tree preferentially to the left.
This can lead to atelectasis (especially of the nonaerated right upper lobe and left lung) (see Case Quiz 6).
Intubation of the right main bronchus could also lead to a right-sided tension pneumothorax .
Inadvertent esophageal intubation will produce a dilated stomach.
The tip of the tube should not be positioned in the larynx or pharynx as damage to the vocal cords can occur ( Fig. 9.3 ).
Why they are used
In patients with airway obstruction at or above level of larynx
In respiratory failure requiring long-term intubation (>21 days)
For airway obstruction during sleep apnea
When there is paralysis of the muscles that affect swallowing or respiration
Correct placement of a tracheostomy tube ( Fig. 9.4 )
The tip should be about halfway between the stoma in which the tracheostomy tube was inserted and the carina. The carina is usually around the level of T3.
Unlike an ETT, the placement of the tip of a tracheostomy tube is not affected by flexion and extension of the head.
The width of the tracheostomy tube should be about two-thirds the width of trachea.
Incorrect placement and complications of a tracheostomy tube
Immediately after insertion look for signs of inadvertent perforation of the trachea such as pneumomediastinum, pneumothorax, and subcutaneous emphysema.
If the tracheostomy tube is equipped with a cuff , the cuff should generally be inflated to a diameter that fills , but does not distend, the normal tracheal contour.
Long-term complication of tracheostomies:
Tracheal stenosis is the most common late-occurring complication of a tracheostomy tube and can occur at the entrance stoma, level of the cuff, or at the tip of tube, but is most common at the stoma .
Why they are used
For venous access to instill chemotherapeutic and hyperosmolar agents not suitable for peripheral venous administration
Measurement of central venous pressure
To maintain and monitor intravascular blood volume
Correct placement of central venous catheters
Incorrect placement and complications of central venous catheters
Central venous catheters are most often malpositioned with their tips in the right atrium or internal jugular vein ( Fig. 9.7 ). In the right atrium, they can produce cardiac arrhythmias. When central venous catheters are malpositioned, they may provide inaccurate central venous pressure readings.
Pneumothorax can occur in up to 5% of CVC insertions, more often with the subclavian approach than the internal jugular route.
All bends in the catheter should be smooth curves. Occasionally CVCs may perforate the vein and lie outside of the blood vessel. Look for sharp bends/kinks in the catheter as a clue to a potential perforation.
Sometimes, they may be inadvertently inserted in the subclavian artery rather than the subclavian vein. Suspect arterial placement if the blood return is pulsatile upon placement and the course of the catheter follows the aortic arch or fails to descend to the right of the spine ( Fig. 9.8 ).
Two or more attempts at inserting a CVC
A frontal chest radiograph is obtained following placement of a CVC. Should initial placement fail , it is customary to obtain a chest radiograph before trying insertion on the other side to avoid the possibility of producing bilateral pneumothoraces.
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