Central Venous Access, Subclavian Vein


Article Author:
Matthew Deere


Article Editor:
Bracken Burns


Editors In Chief:
Sebastiano Cassaro
Joseph Lee
Tanya Egodage


Managing Editors:
Avais Raja
Orawan Chaigasame
Carrie Smith
Abdul Waheed
Khalid Alsayouri
Frank Smeeks
Kristina Soman-Faulkner
Radia Jamil
Patrick Le
Sobhan Daneshfar
Anoosh Zafar Gondal
Saad Nazir
William Gossman
Pritesh Sheth
Hassam Zulfiqar
Navid Mahabadi
Steve Bhimji
John Shell
Matthew Varacallo
Heba Mahdy
Ahmad Malik
Mark Pellegrini
James Hughes
Beata Beatty
Nazia Sadiq
Hajira Basit
Phillip Hynes
Tehmina Warsi


Updated:
11/13/2018 10:16:12 PM

Introduction

In the United States, more than 5 million central venous catheters are inserted every year for a variety of indications in both hospitalized and surgical patients. Once an indication for central venous catheterization is established, the clinician has multiple sites to select from including the internal jugular vein, subclavian vein, femoral vein or a peripherally inserted central catheter (PICC). Subclavian catheters can be temporary or permanent, simple, tunneled, or connected to a port under the skin. Subclavian catheters may be single or multiple lumens, and the diameter of the catheter is also variable.[1][2][3]

Anatomy

In the normal variant of human anatomy, the subclavian vein occurs bilaterally and is a continuation of the axillary vein (a continuation of the brachial vein) from either upper extremity. At the lateral border of the first rib, the axillary vein becomes the subclavian vein where it passes over the rib in the groove of the subclavian vein. Just posterior to the subclavian vein in this area is the axillary artery which becomes the subclavian artery at the lateral border of the first rib and lies in the groove of the subclavian artery. The subclavian vein continues beneath the clavicle heading towards the sternal notch until at the medial border of the anterior scalene muscle it joins the internal jugular vein and becomes the brachiocephalic vein, also called the innominate vein. Also important to note is the pleural apex of the lung which lies inferior to the medial aspect of the subclavian vein. The left side pleural apex often projects more superiorly than the right leading to an increased risk of pneumothorax with left-sided access. The thoracic duct also terminates at the junction of the left subclavian vein and internal jugular vein. This is importantly related to subclavian venous access because it represents another area of potential injury. A potential advantage of left-sided access is the easier sweeping curve of the left innominate vein that leads to the superior vena cava located in the right mediastinum.[4][5]

Indications

Indications for central venous access include:

  • Inadequate peripheral venous access
  • Administration of medications noxious to peripheral veins (chemotherapy, vasopressors, parental nutrition)
  • Advanced hemodynamic monitoring (central venous pressure, venous oxyhemoglobin saturation, cardiac parameters via Swan-Ganz catheter)
  • Cardiac access for temporary transvenous pacing
  • Hemodialysis
  • Extracorporeal membrane oxygenation

Contraindications

Contraindications are for the most part relative and include, abnormal anatomy, coagulopathy, thrombocytopenia, and need for current or future hemodialysis. Although coagulopathy and thrombocytopenia are relative contraindications, it may be prudent to choose a more compressible access site in patients with these conditions. The possible need for current or future hemodialysis access is also a relative contraindication as access to the subclavian vein may affect flow rates needed for hemodialysis (for more distal fistulas or grafts) on that side. A complete assessment of risks versus benefit should be undertaken prior to selection of a site for central venous access.

Equipment

Equipment for subclavian access depends on the type of access necessary. Kits are available for many different needs and include triple lumen central lines, large bore catheters for dialysis, large bore single lumen "trauma" lines, permanent subcutaneous port kits and tunneled catheters. General supplies for all catheter placements include a needle, guide wire, knife, dilators, and the catheter itself. One will also need all supplies to ensure sterile technique throughout the procedure including skin prep, personal protective equipment, sterile draping, and dressings.

There are also differences in catheters themselves. Simple triple lumen catheters can have different sized lumens and can be impregnated with antimicrobial substances to prevent infection. More permanent tunneled catheters often have a cuff that is buried subcutaneously to prevent catheter dislodgement. Subcutaneous ports also have different features, for example, power port capabilities to allow for rapid injection of contrast before CT scanning.

It is important to understand the indication for the central venous catheter placement so that the correct catheter is chosen for the patient's needs.

Preparation

With appropriate preparation, most subclavian venous lines can be placed without assistance; however, in the operating room, a surgical scrub tech is often beneficial.

Before the initial incision or needle stick, excellent skin prep is required to prevent invocation of the catheter with skin flora. This can be completed with either betadine or chlorhexidine solution. It is also important to ensure that all participants in the room are wearing a surgical mask and head cover. The operator should use sterile gown and gloves as well. Before the procedure, the patient is placed in the Trendelenburg position. This promotes venous dilation and can help prevent complications of air embolus. A shoulder roll can also be placed along the patient's superior thoracic spine to aid in the initial access. Caution must be taken, and shoulder roll often omitted, in cases of traumatic injury with suspicion of spine injury. The access site (right or left subclavian vein) is then selected. It is important to note that while the right side has a lower incidence of pneumothorax; it has a higher incidence of catheter malposition. The chest wall is then prepped with surgical prep, in general, it is good practice to prep the entire superior aspect of the chest wall from the top of the shoulders to the nipple line and up the patient's neck to the chin. After the prep is dry, sterile drapes are applied so that only the prepped area is exposed. It is useful to ensure there is enough drape to prevent the guide wire from touching the bedding after it is inserted into the vein. Before inserting the needle, all catheters should be flushed with sterile saline. A procedural "time out" should be undertaken prior to beginning the procedure.

Technique

After local anesthesia is injected into the skin at the access site the operator places one hand on top of the clavicle and the other controls the puncture needle. Usually, if the right subclavian vein is selected, the left hand is used to palpate for external landmarks and vice versa for the left side. The index finger is then placed in the sternal notch, and the thumb is placed at the angle of the clavicle, approximately two-thirds of the way lateral from the sternal notch. The puncture needle is then advanced through the skin beneath the thumb and angled toward the sternal notch. A syringe is placed on gentle suction while attempting to cannulate the vein. The thumb is used to help guide the needle below the clavicle between the clavicle and the first rib. It is important to guide the needle along a linear path and avoid a steep angle of the needle related to the clavicle. Adjusting the course of the needle while it is in the tissue can cause damage to underlying tissue and possible tearing of the vessels. Therefore, the needle should be all the way back out to the skin before adjusting the direction. Subclavian vein access is confirmed with a flash of dark red blood, and this should drip in a non-pulsatile fashion after the syringe is removed. After access is obtained, the guidewire is advanced into the vein through the needle. If any resistance is met, the guidewire should be removed, with the needle, to avoid shearing the wire on the bevel of the needle during attempted removal. After the guidewire is successfully inserted, the needle is removed. It is important at all times to keep control of the guidewire so that it does not completely enter the vein. A small skin incision is made at the access site large enough to allow the dilator and catheter to pass. The dilator is then passed over the guidewire, always maintaining at least one hand on the wire. During this process, there is usually some mild resistance as the dilator passes through the wall of the vein. The dilator is then removed over the guidewire, and the catheter is placed over the guidewire. All ports are aspirated and flushed to confirm access. If a permanent port or tunneled catheter is to be created, that can be completed at this time. If only temporary access is required, the catheter is secured to the patient's skin. A sterile dressing should be applied after completion of the procedure.

Complications

Complications of subclavian venous access can often be avoided with proper technique.[6][7][8] It is important to recognize complications that do occur as quickly as possible. Ordering a post-procedure chest x-ray should be standard practice.  Complications include:

  • Pneumothorax
  • Hemothorax
  • Chylothorax
  • Catheter malposition
  • Bleeding
  • Catheter Infection
  • Arterial Puncture
  • Arrhythmia
  • Air embolism
  • Venous thrombosis

Clinical Significance

Central venous access is necessary for a variety of situations for both temporary and permanent catheterization. Subclavian access can be a safe and reliable technique to achieve central venous access. Subclavian access is used daily by many practitioners and is a valuable skill for any health care provider.[9]

Enhancing Healthcare Team Outcomes

IV access is essential in hospitalized patients. When patients do not have peripheral access, central lines are inserted. While the central line is usually inserted by a physician, the management of the line is done by a nurse. Today, most hospitals have a team that just caters to central lines and oversees antiseptic techniques, indications, and complication. The nurse is in a prime position to assess the line for complications like infection, thrombosis or dislodgement. There are now protocols on central line dressings and how long a line should be left in the central vein. The key is to prevent complications as they prolong hospital stay and increase morbidity. [10][11](Level V)

Outcomes

Data on outcomes after central line placement indicate that complications are not uncommon. Complication rates ranging from 3-20% have been reported and include hemothorax, pneumothorax, infection and air embolism. Studies show that when the central line is inserted in an aseptic fashion, the risk of infection is low. However, there is a great variance in skills among physicians when it comes to insertion of central lines. Thus, many hospitals have a dedicated team that inserts central lines and monitors them until patient discharge [7][12](Level V)


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Central Venous Access, Subclavian Vein - Questions

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Which is not a common complication after supraclavicular central venous cannulation from the right neck?



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What is the chief reason for placing an individual in the Trendelenburg position when attempting a subclavian vein line cannulation?



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When inserting a subclavian vein line, which of the following is false?



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What is the most common error made when inserting a subclavian venous line?



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Which of the following is not an appropriate site for insertion of a subclavian line?



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Which is the most common error made when inserting a subclavian venous line?



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Which of the following would not be the correct procedure when inserting a subclavian venous line?



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The termination of the larger vessel which receives the anterior jugular vein is the:



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Central Venous Access, Subclavian Vein - References

References

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