Peripheral IV and PICC Safety in Pediatric and Neonatal Patients
Jan 15, 2016
Peripheral IV and PICC Safety
in Pediatric and Neonatal Patients
Agenda
Welcome and Overview
Medical Device Adverse Event Reporting Through MedSun and KidNet
The Influence of Human Factors
Peripheral IV and PICC Catheter Safety Considerations in Pediatric and Neonatal Patients
Case Studies
The Importance of Reporting Medical Device Adverse Events
MedSun800-859-9821
Nursing Continuing Education
One contact hour of nursing continuing education credit is available
Speakers
Suzanne Rich, RN, MA, CT (moderator)Senior Project Manager, KidNet
Office of Surveillance and Biometrics (OSB)
Division of Patient Safety Partnerships (PSP)
Center for Devices and Radiological Health (CDRH)
Food and Drug Administration (FDA)
Angela James, RN, RRT, BSNurse Consultant
OSB, PSP
CDRH, FDA
Speakers (continued)
Dana Etzel-Hardman, RN, MSN, MBA, CPNTraining and Education Specialist
Children’s Hospital of Pittsburgh
University of Pittsburgh Medical Center
Jacqueline Francis, MD, MPHMedical Officer
Plastic Surgery and Reconstruction Branch
Office of Device Evaluation (ODE)
CDRH, FDA
MedSun800-859-9821
Speaker
Angela James, RN, RRT, BS
Nurse Consultant
OSB, PSP
CDRH, FDA
Organization of FDA
FDA is comprised of several Centers Three Centers deal with medical products:
Center for Drug Evaluation and Research (CDER)
Center for Biologics Evaluation and Research (CBER)
Center for Devices and Radiological Health (CDRH)
MedSun
KidNet
Center for Devices and Radiological Health
Center for Devices and Radiological Health (CDRH)
CDRH promotes and protects the health of the public by ensuring the safety and effectiveness of medical devices and the safety of radiological products.
An adverse event reporting program
Over 350 health facilities participate
The primary goal of MedSun is to work collaboratively with the clinical community to identify, understand, and solve problems with the use of medical devices.
MedSun
KidNet
Focuses on identifying, understanding, and solving problems with medical devices used in neonatal and pediatric intensive care units (NICUs and PICUs)
Launched in June 2007
40 participating MedSun hospitals
“Medical errors most often result from a complex interplay of multiple factors. Only rarely are they due to the carelessness or
misconduct of single individuals.”
Lucian L. Leape, M.D.A leading patient safety expert
from Harvard University
Reported Adverse Events
IV products (e.g. infusion pumps, pump tubing, PICCs and peripheral IV catheters) are the most frequently reported devices in MedSun reports involving pediatric/neonatal patients
The top reported problems with both PICCs and peripheral IV catheters are associated with removal or replacement
leaks
breaks; cracks
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Examples of MedSun IV Device Adverse Events
Packaging, product defects, product not performing as intended contaminants in the catheter packaging burr noted on needle prior to insertion guidewire became unraveled during insertion
Problems that occurred during clinical use otoscope and transilluminator looked the same but had
different light intensities; otoscope mistakenly used to illuminate vein for IV catheterization resulting in a patient burn
inability to flush a PICC due to obstructed lumen resulted in embolization of a catheter fragment.
PICC Luer hub cracked and leaked
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“Swiss Cheese” Model of System Failure that Can Lead to Injury
Device Maintenance
Device Problem Reporting
Culture of Low Expectations
Departmental CommunicationFAILURE 1PICC Luer hubs cracking during clinical use. First leak occurs.
FAILURE 2 New PICC catheter inserted. Luer hub cracking problem not reported.
FAILURE 3Luer hub cracking problems continue to go unreported.
FAILURE 4Others not alerted to PICC Luer hub cracking problems
Another PICC Luer hub crack occurs
resulting in break and air embolism.
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Case Study #1Reported Luer Hub Cracks
Several reports were received from a single MedSun KidNet site that described events of Luer hub cracking, leaking, and breaking.
The problem was originally attributed to users over tightening the Luer hub connections.
FDA follow up with both the KidNet reporting site and the manufacturer prompted the manufacturer to visit the site to better understand the reported events as they occurred during clinical use.
The manufacturer subsequently made materials and design changes to address the reported events.
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Human Factors Issues that Contribute to Medical Device Adverse Events
Human Factors – the science of how humans interact with technology; focuses on the device-user interface, incorporates the following:
Device Design Considerations Device-user interface, including labeling and instructions for use –
auditory, visual, tactile
Situations/Environment in which the Device is Used Light/noise intensity, time pressures, distractions, high stress
User Characteristics Skills, training, expectations, familiarity with devices Policies and procedures for device use, cleaning, maintenance
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Speaker
Dana Etzel-Hardman, RN, MSN, MBA, CPN
Training and Education Specialist
Children’s Hospital of Pittsburgh
University of Pittsburgh Medical Center
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Major Complications with Peripheral Catheters
Infiltration
Extravasation
Nerve injuries
Hematomas
Infection
Phlebitis
Cellulitis
Occlusion
Catheter Fracture
Venous Spasm
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IV Insertion Challenges
IV insertion challenges with pediatric patients: Children’s anatomy – small, fragile, difficult to locate veins Patient pain, fear, anxiety Practitioner skill in IV insertion
Some facilities have an IV team comprised of staff certified in IV insertion that assists bedside nurses (team members receive specialized training in accessing sites not used in adults, i.e., scalp or foot).
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IV Insertion Tips
Use age appropriate explanations
Perform insertion outside patient’s room
Allow child to keep comfort item (i.e. blanket)
Encourage parent to be present
Use age appropriate distraction techniques
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Infant (birth-1 year)
Educate the parent or caregiver on what to expect about reason for IV insertion and site appearance.
Use comfort measures such as a pacifier if appropriate and try not to insert IV immediately after feeding to avoid aspiration.
Utilize age appropriate distractions including games, songs, nursery rhymes.
If a pedal IV site is chosen, get assistance to hold the infant’s foot in position.
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Toddler (1-3 years)
Provide simple, concrete explanations immediately before the procedure.
Offer transitional objects such as stuffed toys for comfort.
Distract with songs, games, or counting.
Reward cooperative behavior with stickers or small toys.
May require more than one person to help with positioning.
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Preschool (3-4 years)
Prepare child just before procedure.
Encourage patient handling of, or medical play with some of the device equipment that may be used, e.g., placing an IV into a stuffed animal.
Reward good behavior.
Distract with concrete games, songs.
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School Age (5-12 years)
Explain procedures in simple terms.
Encourage the child to help set up equipment or do small related tasks.
Respect the child’s choice of whether or not to have parents present.
Let the child know it’s o.k. if he or she is apprehensive or afraid.
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Adolescents (13-20 years)
Maintain privacy and assure confidentiality, recognizing adolescents may prefer that parents not be present.
Explain procedure in adult language.
Allow adolescents to participate in care decisions.
Be aware of adolescents’ concern for body image in choice of vascular access device and care.
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Parent Care
Offer parents the option to attend the procedure
Explain what to expect to parents
Describe roles available for parents to play Reassure patient
Observe
Wait outside the room
Assist with comfort measures
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Peripheral Short-Term Catheter Selection
From the Infusion Nurses Society (INS) 2006 Practice Guidelines:
Choose the catheter size and type based on therapy
A peripheral short-term catheter should be defined as one that is less than or equal to 3 inches (7.5 cm) in length
Peripheral short-term catheters and steel-winged infusion sets should be equipped with a safety device with engineered sharps injury protection.
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Catheter Placement Precautions
Inspect the catheter for product condition prior to insertion.
Care should be used when stylets, needles, and wires are used to facilitate catheter placement. Don’t reinsert stylets as there is a potential for severing or puncturing the catheter.
A needle or guidewire should never be withdrawn through a catheter.
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Case Study #2 Device Problems Noted Before Patient Use
CDRH works with manufacturers to address reported problems and improve the product: When the package of an IV needle was opened, the
plastic catheter fell off the needle hub. The needle was noted to be bent and retracted.
Before use on patient, it was noticed that the catheter had been speared by the needle below the catheter tip.
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IV Site Selection
Site selection choice based on type and duration of IV therapy and patient development level Consider the patient's condition, age and diagnosis, vascular
condition, history of previous access devices.
INS guidelines (2006) for peripheral IV insertion indicates selecting veins in the dorsal and ventral surfaces of the upper extremities, including the metacarpal, cephalic, and basilic. For neonatal and pediatric patients, additional sites may include veins
of the head and lower extremities.
The vasculature should be able to accommodate the catheter size and length required for the prescribed therapy.
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IV Site Preparation
Clean site thoroughly prior to application of antiseptic solutions.
Follow manufacturer indications and instructions for use when applying antiseptic agents
Antiseptic solutions that should be used include: alcohol
chlorhexidine gluconate (CHG)
povidone-iodine
***Use as single agents or in combination, used individually, or in series. Formulations containing a combination of alcohol (ethyl or isopropyl) and either CHG or povidone-iodine are preferred.
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IV Site Preparation
CDC - category IA recommendation for 2% chlorhexidine-based preparation preferred over iodine or alcohol; FDA has not approved CHG for use in neonates younger than 2 months.
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IV Site Access and Catheter Placement
Warm the site
Topical local anesthetic
Tourniquet appropriate for child’s size
Small gauge catheter
INS recommends consideration of visualization technologies that aid in vein identification and selection. Vein viewer/transilluminator – a near infrared device to view
veins
Adverse events have been reported when using devices not approved for vein illumination
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Case Study #3 Neonatal Transilluminator
A two-month-old patient in the NICU received a second degree burn to the right forearm after a transilluminator was used to locate a vein for intravascular access.
The reporting facility convened an interdisciplinary team with staff from risk management, engineering, and the NICU. Temperature testing where the light emitting diodes (LEDs) at the end of the transilluminator make contact with the patient’s skin, indicated that the device, over time, can become hot enough to cause thermal burns to fragile infant skin.
MedSun/FDA follow up with the manufacturer resulted in a recall. The recall was for excessive heating due to incorrect wire assembly process.
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Securing Catheters
The pediatric patient population is likely to touch and manipulate catheters
Secure the catheter to prevent occlusion, stress, kinking or migration. The highest rates of dislodgement were reported in patients 1 to
5 years old.
Twiddler’s Syndrome – when kids play with the venous access device causing catheter to dislodge and/or infiltrate the site.
Make sure that site is visible.
Tubular elastic netting applied over a child’s arm may help prevent dislodgement.
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Securing Catheters
Although sutures, tape, and surgical strips are used to secure or stabilize catheters, the INS recommends use of a manufactured catheter-specific stabilization device when feasible. Follow the manufacturer's instructions for use.
Remove the catheter stabilization device at established intervals to allow visual inspection of the access site and monitoring of skin integrity.
Apply sterile tape or surgical strips only to the catheter adapter and don’t place directly on the catheter-skin junction site.
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Case Study # 4 Securing Peripheral IVs
A two-year-old was admitted to a local pediatric unit for dehydration secondary to diarrhea. An IV was started in her foot, to deliver fluid; potassium chloride was added to the IV solution once her urinary output was sufficient.
Several hours after admission, a nurse noticed the IV site on the patient’s foot appeared to be discolored. When the large dressing was removed, a very large infiltration with marked circulatory compromise was seen.
Emergency measures were implemented and the patient was transferred to a tertiary care center, where she underwent a fasciotomy in an attempt to restore her circulation.
She had two additional surgical procedures, and two weeks later she was discharged home with extensive physical therapy and plastic surgery follow up.
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IV Site Care and Assessment
Assess IV site dressing and the entire IV administration set at the beginning of each shift and according to your facility’s policy/procedures.
Assessment should include:
visualizing and inspecting the site,
checking the security and integrity of the dressing
Follow your institution’s protocols for catheter site care.
Use antiseptic solutions according to manufacturer directions.
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Site Dressings
The CDC recommends the use of either sterile gauze or a sterile transparent semi-permeable membrane (TSM) dressing to cover the catheter site.
Advantages and Disadvantages of TSM dressings Enhances visualization for ongoing assessment and security of the catheter.
Provides an artificial dermal layer, allows decreased moisture, and can be used for prolonged periods of time without damaging skin. However, there is a potential for damage to the stratum corneum and possible discomfort upon removal.
Advantages and Disadvantages of Gauze Dressings Provides absorbency when there is moisture present (i.e., oozing at the
insertion site) however they can be bulky and may require more frequent dressing changes due to moisture retention.
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Peripheral IV and PICC Dressing Changes
Pediatric and neonatal patients may experience some discomfort during removal of dressings.
Minimize stimulation to the neonate using individualized approach according to gestational age and medical history
Use age appropriate explanations for pediatric patients
Containment strategy- positioning and/or restraints
Oral sucrose for neonates, distraction for older patients
Focused lighting on the procedure area – subtle lighting overhead
Adhesive remover
Dressing stretching techniques prior to removal
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Speaker
Jacqueline Francis, MD, MPHMedical Officer
Plastic Surgery and Reconstruction Branch
Office of Device Evaluation (ODE)
CDRH, FDA
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Common Complications with PICC Catheters
Infection
Infiltration/Extravasation
Hematomas, Phlebitis, Venous Thrombosis
Occlusion, Dislodgement, Air Embolism
Catheter Fractures Potential complications include migration, perforation,
arrhythmia, and embolization of catheter fragments.
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PICC Catheter Selection
Central vascular access devices have the distal tip dwelling in the lower one third of the superior vena cava to the junction of the superior vena cava and the right atrium.
Make anatomical measurements to determine the length of the catheter needed and ensure appropriate catheter tip placement.
If catheter is modified to a patient-specific length, document the inserted catheter length.
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Preparation for PICC Insertion
Maximal barrier precautions, including sterile gown, powder-free sterile gloves, cap, mask, protective eyewear, and large sterile drapes and towels should be used for midline and peripherally inserted central catheters, and all other central catheter insertions.
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PICC Catheter Placement
Check for adequate blood return prior to infusion of fluids.
Radiographic confirmation of the central catheter's tip location needs to be obtained immediately after device insertion and in the following clinical situations: pain or discomfort after catheter placement;
inability to obtain positive aspiration of blood; inability to flush the catheter easily;
difficulty removing guidewire or it is bent upon removal;
after catheter migration is noted.
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Case Study #5 PICC Placement Problem
A patient had a PICC line inserted at the bedside. There were no problems noted at the time of insertion.
A post-procedure chest X-ray and follow up CT scan of the patient's chest showed a foreign body in the right subclavian vein.
Later, it was determined to be a guidewire broken during placement and located in soft tissue. It could not be removed; thus it is considered a retained device fragment.
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PICC Catheter SiteAssessment and Care
Use aseptic technique, including sterile gloves and a mask to clean the catheter-skin junction with an appropriate antiseptic solution, apply a stabilization device and apply a sterile dressing.
Check insertion site and extremity for erythema or edema along the vein track.
Document the length of externally lying catheter. A catheter that has migrated externally should not be re-
advanced prior to restabilization, regardless of stabilization or securement method.
Check all tubing connections from the catheter to the infusion pump and verify correct pump alarm settings.
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Case Study #6 PICC Catheter Assessment
Reports of device related complications noted during PICC catheter assessments A PICC catheter became clotted and was unable to be used
for fluid administration or to draw blood. The catheter was sluggish to flush and one port was totally occluded. The catheter was discontinued for use and a peripheral intravenous catheter was inserted.
A PICC line catheter was leaking at the proximal end of the catheter. A split in the catheter was noticed at a seam point where the catheter leg connected to the proximal hub. The catheter was removed.
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PICC Catheter Safety Tips
Pounds per square inch (psi) is determined by syringe diameter and the amount of force applied to the plunger. Never use <10 cc syringes for flushes and medication
administration
Avoid twisting or kinking the catheter
Do not flush against resistance or use excessive force Partial or complete catheter occlusions may be caused by
thrombosis, drug precipitates or mechanical factors
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Case Study #7Catheter Storage
A PICC was successfully placed in an infant through the femoral vein. Less than 24 hours later, the catheter broke, with a portion remaining inside the infant’s vascular system. After it was removed, a second PICC was inserted. Within minutes, it also broke for no apparent reason. The patient required an additional intervention to retrieve the second catheter segment. Both catheters were discovered to be hard and brittle.
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Case Study #7Catheter Storage
What we learned:
The facility stored the catheters, which come in transparent wrap, in a carousel inventory control system with a clear front panel that exposed them to ultraviolet (UV) light. The catheters were made of polyethylene, which is susceptible to degradation by UV light over time. Both catheters were close to their labels’ expiration dates.
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Catheter Storage Safety Tips
Follow manufacturer recommendations for storage
Visually inspect catheter packaging and catheter/accessories for defects prior to placement
Check expiration dates prior to catheter use
Be familiar with manufacturer device-specific instructions for catheter maintenance
Certain chemicals, solutions, or antibiotic ointments should not be used near catheters made of materials susceptible to damage
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Your Role in Medical Device Patient Safety
Recognize, report, and understand medical device problems
Identify actual and potential problems, near misses, and potential for harm events with medical devices
Report the problem or adverse event to your supervisor, according to policy and procedure
Make sure your report includes details
Remove the device and save the packaging
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When Do I Report?
When you think a device has, or may have, caused or contributed to any of the following outcomes for a patient, staff member, or visitor:
Death
Serious injury
Minor injury
Close-calls or other potential for harm
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What Information Is Needed for a Report?
If there was an injury, what happened to the person(s) affected? air embolism, respiratory arrest
What were the problems with the device(s)? catheter leaking at hub
What, if any, were the follow up medical procedures required because of the event? Surgery to remove retained catheter fragment Include the original procedure for which the device was used
What is the name of the device manufacturer?
What are the manufacturer device identification numbers? serial, model, lot, catalog, and any other specific information
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Take Home Message
Why Reporting Medical Device Problems Is A Model for Patient Safety In Your Hospital:
Helps to prevent future medical device problems within your facility and protects patients, staff, families, and visitors by creating a climate of patient safety and also,
Identifies actual or potential public health risks for the nation’s pediatric patients and their care providers because medical device adverse event information alerts FDA, manufacturers, and the clinical community to safety issues.
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Questions and Answers
What is the length of time a peripheral IV can be left in a pediatric patient?
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Questions and Answers
How do I know if a PICC can be used with a power injector?
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Questions and Answers
Where can I find information about FDA recalls relating to IVs and PICCs?
New product approvals and clearances, recalls and safety alerts, and patient safety information
http://www.fda.gov/MedicalDevices/default.htm MedSun monthly newsletter
http://www.fda.gov/MedicalDevices/Safety/MedSunMedicalProductSafetyNetwork/default.htm
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Question and Answers
Clinical Practice Related Questions Infusion Nurses Society
http://www.ins1.org/i4a/pages/index.cfm?pageid=1 Association for Vascular Access
http://www.avainfo.org/website/article.asp?id=4 CDC
http://www.cdc.gov/ The Joint Commission
http://www.jointcommission.org/
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References
Etzel-Hardman, Dana. (Nov. 2008) Teaching IV Therapy to Pediatric Nurses. RN. pp 24-28
INS Standards of Practice. (January/February 2006). Journal of Infusion Nursing. 29(1) Supplement, pp S1 – S62.
MAUDE (Manufacturer and User Facility Device Experience database): http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/cfMAUDE/search.CFM
Rich, Suzanne. (April 2009). KidNet: Get Set for Patient Safety. MedSun Newsletter # 35. Accessed 8-21-09. Available at: http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/medsun/news/newsletter.cfm?news=35.
Rosenthal, Kelli. (December 2005). Tips for Venipuncture in Children. Nursing. p 31.
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References
Sharpe, Elizabeth L. (June 2008). Tiny Patients, Tiny Dressings: A Guide to the Neonatal PICC Dressing Change. Advances in Neonatal Care. 8(3), pp. 150-162.
Sullivan, Roberta. (Apr 2006). Light can Wreak Havoc on CVCs. MedSun Newsletter #3. Accessed 8-21-09. Available at: http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/medsun/news/newsletter.cfm?news=3#1
Sullivan, Roberta. (Feb 2006). Preventing PICC Fractures. MedSun Newsletter #1. Accessed 8-21-09. Available at: http://www.accessdata.fda.gov/scripts/cdrh/cfdocs/medsun/news/printer.cfm?id=644