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eMedicine - Intraosseous Access : Article by

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AUTHOR AND EDITOR INFORMATION

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Author: Ee Tein Tay, MD, Assistant Clinical Professor of Pediatrics, Department of Emergency Medicine, New York University/Bellevue Hospital Center

Ee Tein Tay is a member of the following medical societies: American Academy of Pediatrics and American Medical Association

Coauthor(s): Waseem Hafeez, MBBS, Associate Professor of Clinical Pediatrics, Albert Einstein College of Medicine, Bronx, New York, Attending Physician, Division of Pediatric Emergency Medicine, Children's Hospital at Montefiore, New York

Editors: Andrew K Chang, MD, Associate Professor, Department of Emergency Medicine, Albert Einstein College of Medicine, Montefiore Medical Center; Mary L Windle, PharmD, Adjunct Assistant Professor, University of Nebraska Medical Center College of Pharmacy, Pharmacy Editor, eMedicine; Luis M Lovato, MD, Associate Clinical Professor, David Geffen School of Medicine at UCLA; Director of Critical Care, Department of Emergency Medicine, Olive View/UCLA Medical Center; Gil Z Shlamovitz, MD, Assistant Professor of Emergency Medicine, University of Connecticut School of Medicine; Attending Physician, Emergency Department, Windham Community Memorial Hospital, Willimantic, CT; Attending Physician, Emergency Department, Hartford Hospital, Hartford, CT; Rick Kulkarni, MD, Medical Director, Assistant Professor of Surgery, Section of Emergency Medicine, Yale-New Haven Hospital

Author and Editor Disclosure

Synonyms and related keywords: intraosseous access, IO, IO access, intraosseous infusion, vascular access, intraosseous needle, rapid fluid infusion, access to systemic venous circulation, difficulty establishing venous access

OVERVIEW

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Intraosseous vascular access was first introduced by Drinker in 1922 as a method for accessing noncollapsible venous plexuses through the bone marrow cavity to systemic circulation. The method was abandoned with the development of intravenous catheters until the 1980s, when intraosseous access was reintroduced, particularly for rapid fluid infusion during resuscitation.1

Based on previous guidelines, intraosseous access was suggested for children aged 6 years or younger,2 although recent studies have shown that it is safe in older children and adults.3, 4 Successful infusions in newborns have further suggested that access via the intraosseous route is faster than access via umbilical veins.5

According to the Emergency Cardiovascular Care Guidelines in 2000, intraosseous access is recommended in all children after 2 failed attempts of intravenous access or during circulatory collapse. In 2005, the American Heart Association recommended intraosseous access if venous access cannot be quickly and reliably established.6

Intraosseous access may be easily established by users with little training and is more rapidly achieved than intravenous access.7 Manual insertion with force had previously been the primary method for intraosseous insertion, but automated intraosseous insertion devices such as the EZ-IO (Vidacare Corp, San Antonio, Tex)8, have recently gained popularity.9 Studies have suggested these automated devices are safe and highly successful on first attempts in both children and adults.10, 11

Blood obtained through intraosseous access may be used to obtain most laboratory values, including pH level, PCO2 level, and ABO and Rh typing.12 The results of these standard laboratory tests may differ slightly from results obtained with venous blood samples because of low flow and stasis in the bone marrow. All medications and blood products can be safely administered through the intraosseous line, and the onset of action and peak drug levels are comparable to those of intravenous administration. Intraosseous needles left in the marrow for longer than 72 hours are at a higher risk of local infection; thus, needles should be removed as soon as permanent venous access is established.


INDICATIONS

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Difficulty in establishing venous access

  • Burns
  • Obesity
  • Edema
  • Seizures
Necessity for rapid high-volume fluid infusion
  • Hypovolemic shock
  • Burns
Access to systemic venous circulation
  • Cardiopulmonary arrest
  • Burns
  • Blood draws
  • Local anesthesia
  • Medication infusion


CONTRAINDICATIONS

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  • Infection at entry site
  • Burn at entry site
  • Ipsilateral fracture of the extremity
  • Osteogenesis imperfecta
  • Osteopenia
  • Osteopetrosis
  • Previous attempt at the same site
  • Previous attempt in different location on same bone
  • Previous sternotomy (sternum insertion)
  • Sternum fracture or vascular injury near sternum (sternum insertion)
  • Unable to locate landmarks


ANESTHESIA

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  • For conscious patients, local anesthesia with 1-2 mL of lidocaine 1% can be administered at the puncture site after antiseptic preparation. For more information, see Local Anesthetic Agents, Infiltrative Administration.
  • Adult studies have used 5 mL of lidocaine 1% infusion after access has been established to decrease pain and discomfort associated with the force of high-volume infusion.


EQUIPMENT

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  • Gloves
  • Antiseptic solution
  • Lidocaine 1%
  • Syringe, 5-10 mL, for blood draws or solution infusion
  • Intraosseous needle and trocar options (depending on insertion site and patient age)


    Intraosseous needle and trocar.
  • Spinal needles for neonates
  • Hypodermic needle, 16-18 gauge (ga)
  • Jamshidi needle (Baxter Healthcare Corp, McGaw Park, Ill)


    Jamshidi intraosseous needle.
  • Sur-Fast intraosseous needle (Cook Inc, Bloomington, Ind)
  • Jamshidi disposable Illinois sternal/iliac needle (Baxter Healthcare Corp, McGaw Park, Ill)


    Illinois intraosseous needle.
  • Sussmane-Raszynski needle (Cook Inc, Bloomington, Ind)
  • EZ-IO (Vidacare Corp, San Antonio, Tex)13


    EZ-IO with needle.
  • FAST1 Intraosseous Infusion System (Pyng Medical Corp, Richmond BC, Canada)14


    FAST1 intraosseous infusion system.


POSITIONING

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Multiple sites are available for intraosseous access entry.

  • Proximal tibia, distal to the tibial tuberosity
  • Distal end of the radial bone in the upper limb
  • Proximal metaphysis of the humerus
  • Distal tibia, proximal to the medial malleolus
  • Distal femur, above the femur plateau
  • Sternum
  • Calcaneus
This article describes proximal tibia insertion. For intraosseous insertion at the proximal tibia, position the patient supine with the knee flexed. Stabilize the lower leg by placing one hand firmly distal to the knee for support.


Location of proximal tibial tuberosity for intraosseous insertion.


TECHNIQUE

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Proximal tibia insertion

  • Explain the procedure and the risks and benefits of the procedure to the patient or guardian prior to access in nonemergent cases. Consult with hospital policy regarding informing the patient or guardian in an emergency, as this policy varies among institutions.
  • Take universal precautions at all times by wearing gloves and disposing of sharps in designated locations.
  • Position the patient supine with the knee flexed.
  • Locate the tibial tuberosity and palpate approximately 2 fingerbreadths distal to the tuberosity, between the anterior and posterior borders of the tibia. In infants, measure one fingerbreadth below the tibial tuberosity. This is the site of insertion.


    Location of proximal tibial tuberosity for intraosseous insertion.
  • Prepare the puncture site with a topical antiseptic (eg, povidone iodine [Betadine]).


    Topical antiseptic preparation with povidone iodine (Betadine).
  • In conscious patients, anesthetize the puncture site with 1-2 mL of lidocaine 1%.


    Lidocaine injection to insertion site.
  • Place one hand over the dorsal proximal tibia and below the knee for firm support.
  • Hold the needle in the palm of the other hand and relocate the insertion site.
  • Tilt the needle caudally to avoid puncturing the epiphysis and rotate the needle in a screwlike motion through the skin.


    Intraosseous insertion.
  • Advance until the needle gives a sudden loss of resistance. If a screw-adjustable stabilizer is present on the device, use it to make the device flush with the skin once the needle is in the correct position. A needle that stands freely and upright without support indicates correct placement.
  • Remove the trocar and attach the syringe for marrow aspiration. Commonly, marrow is not aspirated upon insertion.
  • Attach intravenous tubing to the hub and infuse fluid. Observe the surrounding tissue for possible extravasation.


    Blood draw and fluid infusion.
  • Secure the line firmly after insertion. An acceptable technique is to apply tape to either side of the plastic skirt. Additional stability may be achieved by padding the plastic extension between the skirt and the hub with gauze prior to taping or by placing a small cup with a hole for the intravenous tubing over the device as an additional layer of protection.


    Line security with taping.
  • Remove the intraosseous line as soon as an intravenous or central line is established.

Automated intraosseous insertion with EZ-IO

  • Select needle size based on patient weight


    EZ-IO needles.
    • 25 mm, 15 gauge for patients 40 kg and greater
    • 15 mm, 15 gauge for patients 3 to 39 kg
  • Locate landmark for proximal tibia tuberosity for insertion as previously described. Ensure line is properly secured prior to blood draws and fluid infusions.


    EZ-IO insertion.

Sternum insertion with FAST1 intraosseous infusion system

  • Clean the exposed sternum.
  • Use the index finger to locate the sternal notch and align notch with the provided patch.


    Locate sternum notch and apply patch.
  • Place bone probe in the "target zone" on the patch. Ensure that the introducer is angled at 90º to the skin.


    Sternum intraosseous alignment.
  • Press straight and firmly in the target zone until a sudden loss of resistance is felt.


    Sternum intraosseous insertion.
  • Pull back on the introducer to expose the infusion tube for blood draws and infusion.


    Sternum intraosseous infusion.
  • Secure the intraosseous line with the provided protector dome.


    Protector dome.


PEARLS

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  • The physician should not place his or her hand underneath the knee (popliteal fossa area) during the proximal tibia needle insertion. This is a safety precaution to prevent possible lacerations and through-and-through penetration during insertion.
  • Point the needle distally to avoid epiphysis during insertion.
  • If initial skin penetration is difficult, a small incision made with a scalpel may be necessary prior to insertion.
  • Inability to aspirate blood does not indicate improper placement.


COMPLICATIONS

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Demonstrated complications

  • Infections such as cellulitis and osteomyelitis from poor antiseptic technique or prolonged (>72 h) needle placement (For information on wound care, see Medscape's Wound Management Resource Center.)
  • Extravasation of blood or infusion into surrounding soft tissue from poor technique or prolonged infusion
  • Compartment syndrome from extravasation
  • Bent needle from poor technique or missed landmark


    Bent intraosseous needle.
  • Bone fracture or through-and-through penetration from excessive force
  • Pneumothorax, mediastinitis, or surrounding organ and tissue injury from sternal puncture
  • Clogged needle

Rare complications

  • The risk of a pulmonary fat embolus is present in adults, although studies in piglets with intraosseous access during cardiopulmonary resuscitation (CPR) showed no increased risk over CPR alone.15
  • Concerns of fluid type have been reported, although studies have shown no increase in risk of injury to surrounding tissues when using isotonic solutions versus hypertonic solutions.
  • Concerns of bone growth from insertion exist, although no cellular or marrow changes have been demonstrated in animal studies.16


FURTHER READING

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ACKNOWLEDGMENTS

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The authors and editors of eMedicine gratefully acknowledge the assistance of Lars Grimm with the literature review and referencing for this article.


MULTIMEDIA

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Media file 1:  Intraosseous needle and trocar.
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Media type:  Photo

Media file 2:  Jamshidi intraosseous needle.
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Media type:  Photo

Media file 3:  Illinois intraosseous needle.
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Media type:  Photo

Media file 4:  Bent intraosseous needle.
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Media type:  Photo

Media file 5:  Location of proximal tibial tuberosity for intraosseous insertion.
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Media type:  Video

Media file 6:  Topical antiseptic preparation with povidone iodine (Betadine).
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Media type:  Video

Media file 7:  Lidocaine injection to insertion site.
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Media file 8:  Intraosseous insertion.
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Media type:  Flash Interactive Tool

Media file 9:  Blood draw and fluid infusion.
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Media type:  Flash Interactive Tool

Media file 10:  Line security with taping.
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Media type:  Video

Media file 11:  EZ-IO with needle.
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Media type:  Photo

Media file 12:  FAST1 intraosseous infusion system.
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Media type:  Photo

Media file 13:  EZ-IO insertion.
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Media type:  Video

Media file 14:  EZ-IO needles.
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Media type:  Photo

Media file 15:  Locate sternum notch and apply patch.
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Media type:  Photo

Media file 16:  Sternum intraosseous alignment.
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Media type:  Photo

Media file 17:  Sternum intraosseous insertion.
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Media type:  Video

Media file 18:  Sternum intraosseous infusion.
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Media type:  Video

Media file 19:  Protector dome.
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Media type:  Photo


REFERENCES

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  1. Bohn D. Intraosseous vascular access: from the archives to the ABC. Crit Care Med. Jun 1999;27(6):1053-4. [Medline].
  2. Smith R, Davis N, Bouamra O, Lecky F. The utilisation of intraosseous infusion in the resuscitation of paediatric major trauma patients. Injury. Sep 2005;36(9):1034-8; discussion 1039. [Medline].
  3. Atkins DL, Chameides L, Fallat ME, et al. Resuscitation science of pediatrics. Ann Emerg Med. Apr 2001;37(4 Suppl):S41-8. [Medline].
  4. Waisman M, Waisman D. Bone marrow infusion in adults. J Trauma. Feb 1997;42(2):288-93. [Medline].
  5. Ellemunter H, Simma B, Trawöger R, Maurer H. Intraosseous lines in preterm and full term neonates. Arch Dis Child Fetal Neonatal Ed. Jan 1999;80(1):F74-5. [Medline].
  6. American Heart Association. 2005 American Heart Association (AHA) guidelines for cardiopulmonary resuscitation (CPR) and emergency cardiovascular care (ECC) of pediatric and neonatal patients: pediatric advanced life support. Pediatrics. May 2006;117(5):e1005-28. [Medline].
  7. Abe KK, Blum GT, Yamamoto LG. Intraosseous is faster and easier than umbilical venous catheterization in newborn emergency vascular access models. Am J Emerg Med. Mar 2000;18(2):126-9. [Medline].
  8. Cooper BR, Mahoney PF, Hodgetts TJ, Mellor A. Intra-osseous access (EZ-IO) for resuscitation: UK military combat experience. J R Army Med Corps. Dec 2007;153(4):314-6. [Medline].
  9. Brenner T, Bernhard M, Helm M, Doll S, Völkl A, Ganion N, et al. Comparison of two intraosseous infusion systems for adult emergency medical use. Resuscitation. Sep 2008;78(3):314-9. [Medline].
  10. Horton MA, Beamer C. Powered intraosseous insertion provides safe and effective vascular access for pediatric emergency patients. Pediatr Emerg Care. Jun 2008;24(6):347-50. [Medline].
  11. Schwartz D, Amir L, Dichter R, Figenberg Z. The use of a powered device for intraosseous drug and fluid administration in a national EMS: a 4-year experience. Journal of Trauma. Mar 2008;64:654-5. [Medline].
  12. Evans RJ, Jewkes F, Owen G, McCabe M, Palmer D. Intraosseous infusion--a technique available for intravascular administration of drugs and fluids in the child with burns. Burns. Nov 1995;21(7):552-3. [Medline].
  13. EZ-IO [package insert]. San Antonio, TX: Vidacare Corp; 2007. [Full Text].
  14. FAST1 Intraosseous Infusion System for Adult Patients [package insert]. Richmond BC, Canada: Pyng Medical Corp; 2007.
  15. Fiallos M, Kissoon N, Abdelmoneim T, et al. Fat embolism with the use of intraosseous infusion during cardiopulmonary resuscitation. Am J Med Sci. Aug 1997;314(2):73-9. [Medline].
  16. Brickman KR, Rega P, Schoolfield L, Harkins K, Weisbrode SE, Reynolds G. Investigation of bone developmental and histopathologic changes from intraosseous infusion. Ann Emerg Med. Oct 1996;28(4):430-5. [Medline].

Intraosseous Access excerpt

Article Last Updated: Sep 19, 2008
Topic originally published: Apr 4, 2007