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Central Lines: A Primer

Central Lines: A Primer. Tamara Simon, M.D. July 2004, updated August 2005. Types of Lines. Non-tunneled (jugular, femoral, subclavian) External Tunneled Catheters Broviac - Leonard Quinton (dialysis) - Corcath Hickman Cook Groshong Internal (Totally Implantable) Catheters Mediport

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Central Lines: A Primer

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  1. Central Lines:A Primer • Tamara Simon, M.D. • July 2004, updated August 2005

  2. Types of Lines • Non-tunneled (jugular, femoral, subclavian) • External Tunneled Catheters • Broviac - Leonard • Quinton (dialysis) - Corcath • Hickman • Cook • Groshong • Internal (Totally Implantable) Catheters • Mediport • Infus-a-port • Port-a-cath • Pas-port • Peripherally Inserted Central Catheters

  3. External Tunneled Catheters • Examples: • Broviac, Quinton, Hickman, Cook, Groshong • Have a portion exits the skin and a Dacron cuff just inside the insertion site (fibrosis) with ends in female Luer lock with needleless cap • Insertion/Removal: • Surgically under sterile procedure • Inserted into external jugular, subclavian, or cephalic vein with tip on right atrium; other end is tunneled subcutaneously along anterior chest wall • Home Care • Dressing changes and heparin irrigation 3x/week • No swimming in oceans, lakes, and rivers

  4. External Tunneled Catheters • Uses • Long term up to several years • Blood draws, medication/TPN/blood administration • Complications • Infection (site or bacteremia), air embolus, clotted catheter, damage • Advantages • Alleviates blood draws, use immediately (after xray confirmation) • Disadvantages • Requires home care • Ever-present source of infection, ever-present on body

  5. Internal Catheters • Examples: • Mediport, Infus-a-port, Port-a-cath, Pas-port • Tunneled beneath the skin to a subcutaneous infusion port or reservoir attached to silastic catheter that enters a central vein- reservoir is self-sealing and accessed with tapered 20-22 gauge Huber needle • Insertion/Removal: • Surgically under sterile procedure • Catheter inserted into central vein with tip on right atrium; other end is tunneled subcutaneously and attached to reservoir • Home Care • None if de-accessed • Occlusive dressing if accessed

  6. Internal Catheters • Uses • Long term up to several years • Blood draws, medication/TPN/blood administration • Complications • Infection (bacteremia), air embolus, clotted catheter • Lower rates of complications compared to external devices

  7. Internal Catheters • Advantages • No home care required, except when accessed • Protective barrier of skin, hardly noticeable • Use immediately (after xray confirmation) • Disadvantages • Needle stick to access device • Needle change every 7 days for infection control if accessed for continual use

  8. PICCs • How to get it done • Deb King, Vascular Access Coordinator, office phone is 860-4312.   • Interventional radiology- over 5 kg, call IR • Newborn center- under 5 kg, call NBC • Surgery- on weekends, call consult pager • Insertion/Removal • Under sterile procedure • Small caliber silastic catheter is inserted in antecubital vein and advanced so that the tip is in the SVC/RA • Home Care • Dressing changes weekly or if wet or soiled • heparin irrigation after each use or 3x/week • No swimming in oceans, lakes, and rivers

  9. PICCs • Uses • Short term, up to 6-8 weeks • Average dwell time 21 days • Blood drawing if 4 Fr or larger; medication/ nutrition/ blood administration • Complications • Infection (site or bacteremia- 2.2%), phlebitis, air embolus, clotted catheter (8%), damage

  10. PICCs • Advantages • Alleviates blood draws, use immediately (after xray confirmation) • Disadvantages • Requires home care • Ever-present source of infection • Not tunneled, so dislodgement more likely if precautions are not taken

  11. Complications: Causes of Catheter Loss • Persistent infection (4-60%) • Pediatric 22% • Adult 27% • Inability to clear occlusion • Pediatric 8% • Adult 17% • Mechanical, dislodgement, and damage • Pediatric 15% • Adult 12%

  12. Complications: Infection • Most common complication of central venous access • Increased risk with external devices and multiple lumens • When suspected (fever, redness, swelling, and/or drainage), get CBC, CRP, central blood culture, +/- DIC panel, peripheral blood culture, site drainage Gram stain and culture

  13. Complications: Infection • Microbiology • Coagulase negative staph* 38% • Gram negative rods 25% • Enterococcus 10% • Candida* 9% • Staph aureus • * lipids increase risk, especially of slime producers MMWR 2002, 51:12

  14. Complications: Infection • Pathogenesis • Migration of skin flora from insertion site to catheter tip • Contamination of hub leading to intraluminal infection • Catheter materials differ in bacterial adherence • Infection Rate • Non-tunneled > Tunneled > Implanted • Central > Peripheral

  15. Complications: Infection • Types of infection: • Tunnel or pocket infection • Exit site infection • Catheter-related bacteremia • Phlebitis

  16. Tunnel or pocket infection • Redness, swelling, and purulent drainage from tunnel of pocket around port or external CVC (beyond 2 cm) • Organisms usually Gram positive (Staph epi, Staph aureus), can be Gram negative (Pseudomonas) • Treatment consists of removal of CVC, IV antibiotics (vancomycin initially), debridement or drainage of pocket/tunnel

  17. Exit site infection • Originates at site where CVC exits skin (within 2 cm) • Pain, redness, or swelling around port or external CVC without systemic signs of infection • Organisms usually Gram positive (Staph epi, Staph aureus) • Treatment consists of aggressive site care and oral/IV antibiotics; if Dacron cuff is visible, it is very difficult to clear infection and removal of CVC is usually necessary

  18. Catheter-related Bacteremia/Sepsis • No other source of infection found, despite extensive search • Positive blood culture drawn from CVC which shows a 5-10 fold or higher concentration of organisms than in the peripheral blood; usually multiple blood cultures (Todd says two consecutive cultures from central line suffices) • Temporal relationship between catheter manipulation and development of symptoms

  19. Catheter-related Bacteremia/Sepsis • Gram positive and Gram negative organisms • Treatment consists of IV antibiotics (vancomycin plus Gram negative +/- Pseudomonas coverage initially); depending on organisms and duration of persistence, it is very difficult to clear infection and removal of CVC is usually necessary • Consideration of distant complications such as endocarditis and metastatic abscesses

  20. Phlebitis • Inflamed, palpable, thromobosed vein • Often due to physiochemical factors rather than infection • Increases the risk of infection, observed with insertion-site infections

  21. Accessing CVC’s • Damaging: • Tincture of Iodine damages Silastic • Clamps and hemostats with teeth damage catheters • Small syringes generate too much pressure so use 5-10 ml catheters (central lines are delicate) • Establish patency before infusing meds/ fluids • Close clamps when circuit is open (air emboli) • Withdraw 3 ml blood from external tunneled CVC and 5 ml from internal CVC before sampling for lab tests • Force fluid into catheter against significant resistance • Use HCl in polyurethane catheters

  22. Complications: Thrombosis • Complete occlusion: inability to flush or aspirate CVC Differential diagnosis: • Fibrin sheath formation around tip • Venous thrombosis beyond tip of CVC (more common if tip in high SVC or above compared to low SVC or RA • Catheter or tip migration (consider CXR) • Intraluminal clot • Intraluminal drug precipitation • Mechanical such as kinking or pinching off between clavicle/rib (consider CXR)

  23. Complications: Thrombosis • Partial occlusion: ability to flush but not to aspirate blood Differential diagnosis: • Fibrin sheath at tip of CVC acting as ball-valve • Tip up against vessel wall- positional • Reposition patient (reverse Trendelenberg), then have them valsalva, cough, take deep breaths, raise arms over head • Tip migration too low, CVC compressed as AV valve closes

  24. Catheter Declotting • Assessment: determine if occlusion was caused by blood or drug precipitate • Blood clot • Treatment of choice is TPA 1 mg/ml (Alteplase) at max dose 0.4 mg/kg; also can use urokinase 5000 U/ml • Instill per nursing protocol (see website) • Drug precipitate (completely preventable) • Success of restoring patency is variable • HCl can be used to lower pH and NaBicarb to raise pH • 70% ethanol can treat lipid precipitates

  25. Catheter Declotting Infusion Deposit Un-occluder Lipid waxy 70% ethanol 1 hour, 1x Basic drug high pH ppt 7.5 % NaBicarb (phenytoin) 1 hr, 1-2 x Acidic drug low pH ppt 0.1 N HCl (Ca, PO4) 20 min, 3x/2 hrs None blood clot fibrinolytic 2 hrs, 1x/24 hrs

  26. Technique: Lock Technique • Volume for lock technique equal to priming volume of catheter (3 ml/5 ml, and/or check box of similar device) plus add on devices • Clamp catheter or T-connector • Disconnect IV tubing • Remove needle-less cap • Remove all add-on devices • Attach 5 ml syringe with un-occluding agent, unclamp

  27. Technique: Lock Technique • Infuse proper volume gently with push-pull action • Clamp catheter or T-connector • Wait designated time based on un-occluding agent • Aspirate un-occluding agent and discard • Infuse saline flush to test catheter patency

  28. Technique: Lock Technique • …but you can’t infuse un-occluder or can’t aspirate it back… • Clamp catheter • Attach empty 10 ml syringe • Pull plunger back 8-9 ml to create controlled negative pressure • Re-clamp catheter • Attach 5 ml syringe with un-occluding agent or saline (if unable to aspirate it back)

  29. Technique: Lock Technique • Un-clamp catheter and allow fluid to flow into catheter • Wait appropriate dwell time • Aspirate un-occluder • Test for catheter patency • If it’s TPA, be sure to dilute it with NS

  30. Complications: Mechanical • Dislodgement • Suspect if: • No blood returns • Dacron cuff outside skin surface- don’t push it in! • Subcutaneous swelling at site of implanted port • Associated with: • cuff placement 0.5-2 cm from exit site • smaller lumens (6 Fr or less) • young age (<3 years) • X-ray to locate catheter tip • Dye study

  31. Complications: Mechanical • Damage to internal/external parts of CVC • More common in external devices • Trauma, detachment needle puncture, wear and tear • Clamp catheter to avoid exsanguination • Associated with young age (<3 years) • Leaks/breaks can occur anywhere on external segment • repair is possible if there is adequate length of old catheter to splice on the new segment • each CVC has a permanent repair kit, be sure to get the correct one- external segment, male connector, glue • Repair is a strict sterile technique by specially trained RN or MD

  32. Complications: Rare • Air embolism- left Trendelenburg, oxygen, clamp catheter • Catheter embolism – visible on xray, happens with longer duration and occlusion, invasive retrieval • Exsanguination • Respiratory decompensation- catheter tip in pulmonary artery • Cardiac tamponade- erosion of atrial wall

  33. References • Central Lines Used at UNC Hospitals, September 1999. • Konsler GK. Management of Central Venous Catheters: Troubleshooting, August 1999. • Band JD. Central venous catheter-related infections: Types of devices and definitions. Up To Date, January 15, 2002. • Teoh DL. Tricks of the Trade: Assessment of High-Tech Gear in Special Needs Children. Clinical Pediatric Emergency Medicine. 3(1), March 2002.

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