central lines.pptx

C e n t r a l V e n o u s A cc e s s & Catheters

Definition A Central Venous Catheter (CVC) is an indwelling intravenous device that is inserted into a vein of the central vasculature.

U s e s Difficult Peripheral Vascular Access Ex - patients with burns, previous vein injuries (such as IV drug use) Volume Loading Time-consuming to insert and are associated with high complication rates. Flow rate is determined by the calibre and length of the catheter (Poiseuille’s law) Shorter and greater calibre catheters delivering greater volumes over equivalent amounts of time

3. Provision of Caustic Medications or Solutions Vasoactive medications (vasopressors or inotropes) Irritant substances (chemotherapeutic agents, cytotoxic drugs or high concentration solutions) Total parenteral nutrition

4. Central Venous Pressure Monitoring The central venous pressure (CVP) is the pressure measured in the central veins close to Right atrium. It indicates mean right atrial pressure and is frequently used as an estimate of right ventricular preload. Being used as a guide for fluid management, though some researches suggest otherwise (h t tp://www.ncbi.nlm.nih.gov/pubmed/18628220)

5.Repeated Blood Sampling Introduction of Pacemakers or Pulmonary Artery Catheters For haemodialysis/haemofiltration - For acute and chronic haemodialysis access

Contraindications Absolute Overlying skin or soft tissue infection Thrombophlebitis

Co n t r a i n d i c a t i o n s . c o n t Relative Distorted Anatomy – Trauma, deformity, burns. Infection at the Site of Access – cellulitis Uncooperative patients Proximal Vascular Injury Bleeding disorders & anticoagulation or thrombolytic therapy. 3% complication rate as long as there are no arterial punctures (Mumatz et al) Absolute contraindication for subclavian access Ultrasound guidance is recommended

T yp e s O f Ce n t r a l V e n o u s C a t h e t e r s Non-tunneled central catheters Tunneled central catheters Peripherally inserted central catheters (PICC) Implantable ports

Types Of Central Venous Catheters .cont Single & multi-lumen catheters are available in all catheter types Each lumen must be treated as a separate catheter

T y pe s O f C e n t r a l V en o u s C a t h e t e r s . c o n t Open–ended The catheter is open at the distal tip The catheter requires clamping before entry into the system Clamps are usually built into the catheter Requires periodic flushing

T y pe s O f C e n t r a l V en o u s C a t h e t e r s . c o n t Closed-ended A valve is present at the tip of the catheter (eg. Groshong®) or at the hub of the catheter(eg. PAS-V®) Clamping is not required as the valve is closed except during infusion or aspiration

T y pe s O f C e n t r a l V en o u s C a t h e t e r s . c o n t Composition Silicone P olyu r e t hane Coatings Antimicrobial or antiseptic coating Heparin coating Radiopaque to confirm tip placement

The type of CVC inserted depends on the Type of therapy to be administered Length of therapy (Short term or Long term) Previous devices and complications Patient preference

N o n T unn e l l e d C a t h e t e r s

P olyu r e thane Single or multiple lumens Flow varies depending on size and ID Inserted percutaneously Internal jugular vein Subclavian vein Femoral vein

Ad v a n t a g es Easier placement, removal and replacement Economical Disadvantages Highest risk of infections Unused ports must be routinely flushed with heparin solution and clamped Dislodged more easily Temporary - requires frequent exchanges

I n s e r t i o n Informed Consent Sterile technique Adequate skin preparation with sterilizing solution Setup of Equipment Positioning and identifying the landmarks Adequate local analgesia

I nt e rn a l J ugu l a r V ei n Right side preferred -lower pleural dome and thoracic duct on left Trendelenburg position(10-15 degrees) Head rotated approximately 15 to the left At the cricoid level while palpating the carotid pulse, introducer needle into the apex of the sternocleidomastoid- clavicular triangle at a 30-40 angle to the skin. Aim the needle caudally towards the patient’s ipsilateral nipple.

S ub cl a v i a n V ei n Right side preferred Supine position, head neutral, arm abducted Trendelenburg position (10-15 degrees) Shoulders neutral with mild retraction Junction of the medial and middle thirds of the clavicle. The site of needle insertion lies about 1 cm inferior to the clavicle allowing for the needle to pass under the clavicle. Needle should be parallel to skin Aim towards the supraclavicular notch

F e m o r a l V ei n Supine/Flat position Palpate the femoral artery’s pulse just distal to the inguinal ligament. The femoral vein lies just medial to this.

Sel d i n g e r t ec hn i q u e Use introducing needle to locate vein Wire is threaded through the needle Needle is removed Skin and vessel are dilated Catheter is placed over the wire Wire is removed Catheter is secured in place

P o s t - C a t h e t e r P l a ce m e n t Aspirate blood from each port Flush with saline or sterile water Secure catheter with sutures Cover with sterile dressing (tega-derm) Obtain chest x-ray for IJ and SC lines

Location Advantage Disadvantage Internal Jugular Bleeding can be recognized and controlled Malposition is rare Less risk of pneumothorax Risk of carotid artery puncture Pneumothorax is possible Subclavian Most comfortable for conscious patient Highest risk of bleeding Vein is non-compressible/deep vein Highest risk of Pneumothorax Femoral Easy to find vein No risk of Pneumothorax Preferred site for emergencies Highest risk of infection Risk of DVT Not good for ambulatory patients

T unn e l l e d C a t h e t e r s

Single or multiple lumens Used for long term therapy Inserted surgically Small Dacron (Polyethylene terephthalate) cuff sits in subcutaneous tunnel facilitates anchoring of the catheter through granulation and acts as a barrier to infection

Advantages Can be left in place indefinitely (if no infection, blockage or thrombosis) Self-care by patient External portion can be repaired

Disadvantages Inserted in the OR Requires a dressing & frequent assessments External device Physician must remove

P er i ph e r a ll y In s e r t e d C e n t r a l Catheters

Silicone or polyurethane Single or multi-lumen Approximately 40-60 cm long Used for intermediate to long term therapy Inserted percutaneously Basalic vein Cephalic vein The tip rests in the superior vena cava at the cavo-atrial junction.

Advantages Can remain in place for several weeks to a year Can be easily removed Low infection rates External portion can be repaired

Disadvantages Low flows Requires a dressing & frequent assessments External device Small gauge PICC not recommended for blood sampling

IMP L AN T AB L E V ENO U S A CC E S S DEVICE (IVAD)

long-term (months to years) single or dual chamber “port” surgically implanted in the subcutaneous tissue, usually in the upper chest Single or double lumen. Each chamber must be managed separately.

A non-coring point needle is required to access the device Unused port is flushed every 28 days with Heparin solution

Advantages Internal device, no dressing or site care Can be permanent Unrestricted activity Decreased risk of infection No external components to break May be used as long as the device is required, functional.

Disadvantages Needle access is required Surgical procedure required to insert/remove Cost

C o m p li c a ti on s A ss o c i a t e d With C e n t r a l V e nou s C a t h e t e r s

Complications Acute Ch r onic Complication rate depends on Site Patient factors (illnesses, variations in anatomy) Operator skill and experience.

A c u t e c o m p li c a t i on s Cardiac Dysrhythmias Due to cardiac irritation by the wire or catheter tip. Withdraw the line into the superior vena cava. Always use a cardiac monitor. Haematoma formation – Arterial/Venous puncture Mechanical injury to nearby structures Pneumothorax/Haemothoarx Atrial wall puncture - pericardial tamponade. Bowel penetration, Bladder puncture, Femoral nerve injury Air embolus Malposition Lost Guide-wire

C h r o n i c c o m p li c a t i o n s Infections Catheter fragmentation Non-function/Blockage - fibrin builds on and around the catheter and vessel, drug precipitates, lipid deposits Thrombosis/Thromboembolism

A i r e m b oli s m Deadly complication associated with CVC’s Signs and Symptoms Respiratory changes: sudden shortness of breath, cyanosis CVS changes: sudden onset of chest pain, ↑HR, ↓BP CNS changes: altered neurological signs, dizziness, confusion, loss of Consciousness

Management Left lateral decubitus with head low Position (Durant maneuver and Trendelenburg position) Clamp the Central Venous Catheter 100% O2 Direct removal of air from the venous circulation by aspiration from a central venous catheter in the right atrium may be attempted

To minimize the chance of air entering the system: Ensure the lumen is clamped prior to opening the system Position the patient so that the insertion site is at or below the level of the heart during insertion and removal of catheter

Infections Most frequent and serious complications. Types Local infection – Cellulitis Central Line-Associated Bloodstream Infections (CLABSI)

Causative Organisms Staph epidermidis 25-50% Staph aureus Candida 25% 5-10% Risk Factors Cutaneous colonization of the insertion site Moisture under the dressing Prolonged catheter time Technique of care and placement of the central line

Evidence-Based Strategies Selected to R educ e C LA- B S I s Hand hygiene Maximal sterile barriers Chlorhexidine for skin asepsis Avoid femoral lines Avoid/remove unnecessary lines

T h a n k Y o u Refenrences http://emedicine.medscape.com/article/80336-overview#a05 http://emedicine.medscape.com/article/80355-overview#aw2aab6c10 http://emedicine.medscape.com/article/80279-overview Central Venous Access (Ian Rigby, Daniel Howes, Jason Lord, Ian Walker, Resuscitation Education Consortium/Kingston Resuscitation Institute)

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