Drains and Tubes, Chapter16 P93-103

Question 1

What is the purpose of drains?

P93

Answer 1

1. Withdrawal of fluids

2. Apposition of tissues to remove a potential space by suction

Question 2

What is a Jackson-Pratt (JP) drain?

P93 (picture)

Answer 2

Closed drainage system attached to a suction bulb (“grenade”)

Question 3

What are the “three S’s” of Jackson-Pratt drain removal?

P93

Answer 3

1. Stitch removal
2. Suction discontinuation
3. Slow, steady pull

Question 4

What is a Penrose drain?

P93 (picture)

Answer 4

Open drainage system composed of a thin rubber hose; associated with increased infection rate in clean wounds

Question 5

Define the following terms: G-tube

P93

Answer 5

Gastrostomy tube; used for drainage or feeding

Question 6

J-tube

P94

Answer 6

Jejunostomy tube; used for feeding; may be a small-needle catheter (remember to flush after use or it will clog) or a large, red rubber catheter

Question 7

Cholecystostomy tube

P94

Answer 7

Tube placed surgically or percutaneously with ultrasound guidance to drain the gallbladder

Question 8

T-tube

P94 (picture)

Answer 8

• Tube placed in the common bile duct with an ascending and descending limb that forms a “T”
• Drains percutaneously; placed after common bile duct exploration

Question 9

CHEST TUBES
1. What is a thoracostomy tube?
P94

Answer 9

Chest tube

Question 10

2. What is the purpose of a chest tube?

P94

Answer 10

To appose the parietal and visceral pleura by draining blood, pus, fluid, chyle, or air

Question 11

3. How is a chest tube inserted?

P94 (pictures)

Answer 11

1. Administer local anesthetic
2. Incise skin in the fourth or fifth intercostal space between the mid- and anterior-axillary lines
3. Perform blunt Kelly-clamp dissection over the rib into the pleural space
4. Perform finger exploration to confirm intrapleural placement
5. Place tube posteriorly and superiorly

Question 12

4. Is the chest tube placed under or over the rib?

P95

Answer 12

Over to avoid the vessels and nerves

Question 13

5. What are the goals of chest tube insertion?

P95

Answer 13

• Drain the pleural cavity

- Appose parietal and visceral pleura to seal any visceral pleural holes

Question 14

6. In most cases, where should the chest tube be positioned?

P95

Answer 14

Posteriorly into the apex

Question 15

7. How can you tell on CXR if the last hole on the chest
   tube is in the pleural cavity?
   P95

Answer 15

Last hole is cut through the radiopaque line in the chest tube and is seen on CXR as a break in the line, which should be within the pleural cavity

Question 16

8. What are the cm measurements on a chest tube?

P95

Answer 16

Centimeters from the last hole on the chest tube

Question 17

9. What is the chest tube connected to?

P96 (picture)

Answer 17

Suction, waterseal, collection system

three-chambered box, e.g., Pleuravac®

Question 18

10. What are the three chambers of the Pleuravac®?

P96

Answer 18

1. Collection chamber
2. Water seal
3. Suction control

Question 19

Describe how each chamber of the Pleuravac® box works
as the old three-bottle system:
1. Collection chamber
P96 (picture)

Answer 19

Collects fluid, pus, blood, or chyle and measures the amount; connects to the water seal bottle and to the chest tube

Question 20

2. Water-seal chamber

P97 (picture)

Answer 20

One-way valve—allows air to be removed from the pleural space; does not allow air to enter pleural cavity; connects to the suction control bottle and to the collection chamber

Question 21

3. Suction-control chamber

P97 (picture)

Answer 21

Controls the amount of suction by the height of the water column; sucking in room air releases excessive suction;
connects to wall suction and to the water seal bottle

Question 22

Give a good example of a water seal.

P98

Answer 22

Place a straw in a cup of water—you can blow air out but if you suck in, the straw fills with water and thus forms a one-way valve for air just like the chest tube water seal

Question 23

How is a chest tube placed on water seal?

P98

Answer 23

By removing the suction; a tension pneumothorax (PTX) cannot form because the one-way valve (water seal) allows release of air buildup

Question 24

Should a chest tube ever be clamped off?

P98

Answer 24

No, except to “run the system” momentarily

Question 25

What does it mean to “run the system” of a chest tube?

P98

Answer 25

• To see if the air leak is from a leak in the pleural cavity (e.g., hole in lung) or from a leak in the tubing
• Momentarily occlude the chest tube and if the air leak is still present, it is from the tubing or tubing connection,
  not from the chest

Question 26

How can you tell if the chest tube is “tidling”?

P98

Answer 26

Take the Pleuravac® off of suction and look at the water seal chamber: Fluid should move with respiration/ventilation (called “tidling”); this decreases and ceases if the pleura seals off the chest tube

Question 27

How can you check for an air leak?

P98

Answer 27

Look at the water seal chamber on suction:

• If bubbles pass through the water seal fluid, a large air leak (i.e., air leaking into chest tube) is present; if no air leak is evident on suction, remove suction and ask the patient to cough
• If air bubbles through the water seal, a small air leak is present

Question 28

What is the usual course for removing a chest tube
placed for a PTX?
P98

Answer 28

1. Suction until the PTX resolves and the air leak is gone
2. Water seal for 24 hours
3. Remove the chest tube if no PTX or air leak is present after 24 hours of water seal

Question 29

How fast is a small, stable PTX absorbed?

P98

Answer 29

≈1% daily; therefore, a 10% PTX by

volume will absorb in ≈10 days

Question 30

How should a chest tube be removed?

P99

Answer 30

1. Cut the stitch
2. Ask the patient to exhale or inhale maximally
3. Rapidly remove the tube (split second) and at same time, place petroleum jelly gauze covered by 4 4’s and then tape
4. Obtain a CXR

Question 31

What is a Heimlich valve?

P99 (picture)

Answer 31

One-way flutter valve for a chest tube

Question 32

NASOGASTRIC TUBES (NGT)
1. How should an NGT be placed?
P99

Answer 32

1. Use lubrication and have suction up on the bed
2. Use anesthetic to numb nose
3. Place head in flexion
4. Ask patient to drink a small amount of water when the tube is in the back of the throat and to swallow the tube; if
   the patient can talk without difficulty and succus returns, the tube should be in the stomach (Get an x-ray if there is
   any question about position)

Question 33

2. How should an NGT be removed?

P99

Answer 33

Give patient a tissue, discontinue suction, untape nose, remove quickly, and tell patient to blow nose

Question 34

3. What test should be performed before feeding via any tube?
   P100

Answer 34

High abdominal x-ray to confirm placement into the GI tract and NOT the lung!

Question 35

4. How does an NGT work?

P100 (picture)

Answer 35

Sump pump, dual lumen tube—the large clear tube is hooked to suction and the small blue tube allows for air sump (i.e., circuit sump pump with air in the blue tube and air and succus sucked out through the large clear lumen)

Question 36

5. How can you check to see if the NGT is working?

P100

Answer 36

Blue port will make a sucking noise; always keep the blue port opening above the stomach

Question 37

6. Should an NGT be placed on continuous or intermittent suction?
   P100

Answer 37

Continuous low suction—side holes disengage if they are against mucosa because of the sump mechanism and
multiple holes

Question 38

7. What happens if the NGT is clogged?

P100

Answer 38

Tube will not decompress the stomach and will keep the low esophageal sphincter (LES) open (i.e., a setup for aspiration)

Question 39

8. How should an NGT be unclogged?

P100

Answer 39

Saline-flush the clear port, reconnect to suction, and flush air down the blue sump port

Question 40

9. What is a common cause of excessive NGT drainage?

P101

Answer 40

Tip of the NGT is inadvertently placed in the duodenum and drains the pancreatic fluid and bile; an x-ray should be
taken and the tube repositioned into the stomach

Question 41

10. What is the difference between a feeding tube
    (Dobbhoff tube) and an NGT?
    P100

Answer 41

A feeding tube is a thin tube weighted at the end that is not a sump pump but a simple catheter; usually placed past the
pylorus, which is facilitated by the weighted end and peristalsis

Question 42

FOLEY CATHETER
1. What is a Foley catheter?
P101

Answer 42

Catheter into the bladder, allowing accurate urine output determination

Question 43

2. What is a coudé catheter?

P101 (picture)

Answer 43

Foley catheter with a small, curved tip to help maneuver around a large prostate

Question 44

3. If a Foley catheter cannot be inserted, what are the next steps?
   P101

Answer 44

1. Anesthetize the urethra with a sterile local anesthetic (e.g., lidocaine jelly)
2. Try a larger Foley catheter

Question 45

4. What if a patient has a urethral injury and a Foley
   cannot be placed?
   P101 (picture)

Answer 45

A suprapubic catheter will need to be placed

Question 46

CENTRAL LINES
1. What are they?
P101

Answer 46

Catheters placed into the major veins (central veins) via subclavian, internal jugular, or femoral vein approaches

Question 47

2. What major complications result from placement?

P101

Answer 47

PTX (always obtain postplacement CXR), bleeding, malposition (e.g., into the neck from subclavian approach), dysrhythmias

Question 48

3. In long-term central lines, what does the “cuff” do?

P101

Answer 48

Allows ingrowth of fibrous tissue, which:

• Holds the line in place
• Forms a barrier to the advance of bacteria

Question 49

4. What is a Hickman® or Hickman-type catheter?

P101

Answer 49

External central line tunneled under the skin with a “cuff

Question 50

5. What is a Port-A-Cath®?

P101

Answer 50

Central line that has a port buried under the skin that must be accessed through the skin (percutaneously)

Question 51

6. What is a “cordis”?

P101

Answer 51

Large central line catheter; used for massive fluid resuscitation or for placing a Swan-Ganz catheter

Question 52

7. If you try to place a subclavian central line unsuccessfully,
   what must you do before trying the other side?
   P101

Answer 52

Get a CXR—a bilateral pneumothorax can be fatal!

Question 53

MISCELLANEOUS
1. How can diameter in mm be determined from a French
measurement?
P101

Answer 53

Divide the French size by ⫪ or 3.14

e.g., a 15 French tube has a diameter of 5 mm

Question 54

2. How can needle-gauge size be determined?

P101

Answer 54

14-gauge needle is 1/14 of an inch (Thus, a 14-gauge needle is larger than a 21-gauge needle)

Question 55

3. What is a Tenckhoff catheter?

P101

Answer 55

Catheter placed into the peritoneal cavity for peritoneal dialysis