Nursemaid Elbow

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Background

Nursemaid elbow, also known as “radial head subluxation” or simply “pulled elbow”, is the most common upper-limb injury in children under the age of 6.[1, 33] It is typically an easily treatable condition. Correct diagnosis is the primary challenge to the physician.

Pathophysiology

The etiology is movement of the head of the radius under the annular ligament. The distal attachment of the annular ligament covering the radial head is weaker in children than in adults, allowing it to be more easily torn. As children age, the annular ligament strengthens. In children over the age of 5, subluxation of the radial head is prevented by a thicker and stronger attachment between the annular ligament and the periosteum of the radial neck.[2]    As a result, nursemaid’s elbow occurs less often.

A Nursemaid’s Elbow (NE) is a low-energy trauma often occurring from brisk axial traction of the forearm, often by an adult who holds the child’s hand as the child pulls away. Other causes of injury include falls, wrestling, and abuse.[3]

The oval shape of the proximal radius in cross-section contributes to this condition by offering a more acute angle posteriorly and laterally, with less resistance to slippage of the ligament when axial traction is applied to the extended and pronated forearm. The common belief that nursemaid elbow is due to children having a radial head smaller than the radial neck is incorrect.

Epidemiology

Sex

Published case series report a slight predominance in females.[4, 5]

Published case series report a slight left arm predominance in both males and females.[4, 5]

A study by Wong et al that reviewed 246 pediatric ED visits for radial head subluxation reported that recurrence was more likely in male patients.[6]

Age

Nursemaid elbow most commonly occurs in children aged 1-4 years. However, it has been reported in patients as young as 4 months and as old as 31 years.[7]

A study that examined the epidemiological description of radial head subluxation found that the average age of children presenting with nursemaid's elbow was 28.6 months.[5]

Prognosis

The prognosis is excellent. Parents can be reassured that no permanent injury results from this condition.

For those who have had one occurrence, the chance of recurrence is approximately 20-25%.[4, 8]  Those 24 months and younger may have the greatest risk of recurrence.[8]

Patient Education

Most parents appreciate knowing that reoccurrence can occur in 1/5-1/4 of patients.

History

Patient history usually leads to a presumptive diagnosis.

Parents often give a history of a young child with no history of trauma who suddenly refuses to use an arm.

A history of axial traction by a pull on the hand or wrist may be elicited but often is not volunteered.

Common scenarios include the following:

The condition is usually unilateral. However, bilateral cases have been reported.[9]

Physical

Physical examination commonly reveals an anxious child who is protective of the affected arm. In most children, anxiety is greater than pain.

The forearm is usually held in incomplete extension, and the forearm is partially pronated.

Often, the weight of the affected arm is supported with the other hand.

Notably, erythema, warmth, edema, or signs of trauma are absent.

Distal circulation, sensation, and motor activity are normal.

A reluctance to move digits or the wrist is common, perhaps from fear of eliciting pain in the elbow.

Tenderness at the head of the radius may be present. The patient resists supination/pronation as well as flexion/extension of the forearm.

Causes

Axial traction is the most common cause of nursemaid elbow.

A fall is the second most common mechanism of injury.

Infants have been reported with nursemaid elbow after rolling over or being assisted to roll over.

Approach Considerations

The primary challenge is to arrive at the correct diagnosis without overlooking other causes of the patient's symptoms.

Imaging Studies

In nursemaid’s elbow, the annular ligament becomes transiently interposed between the radial head and capitellum, but does not cause recognizable widening of the radiocapitellar joint. Nursemaid’s elbows are often indistinguishable from healthy elbows on radiograph.[3]  However, if  history and/or physical exam reveal concerns for possible fracture, radiography may be warranted.

If manipulation is unsuccessful and a review of the history and physical examination supports nursemaid elbow as the likely diagnosis, another attempt at reduction may be performed using the same method. If reduction is again unsuccessful, a third attempt using the alternative technique may be utilized. If a third attempt at reduction fails, radiography of the extremity is warranted to look for fracture (if not already done).

Ultrasonography has been used as a noninvasive modality to evaluate annular ligament injury. Published reports describe increased radiocapitellar distance, representing annular ligament entrapment prior to manipulation.[10, 11]  Other ultrasound findings include a “J-shaped” hypoechoic supinator muscle, or “Hook” sign above the radial head.[12, 13] It should be noted that ultrasound can also be used to assess for fractures. An enlarged posterior fat pad or lipohemarthrosis in the olecranon fossa are findings associated with fracture.[14] A negative ultrasound may reduce the need for radiographs in children with elbow injuries.[15]

Although ultrasonography can confirm a nursemaid’s elbow, and evidence for its accuracy are emerging, utility in the acute setting is the subject of continued investigation.[16, 17]

For additional information, see Elbow Trauma, Pediatric and Elbow, MRI.

 

Imaging studies are useful in ruling out possible fracture but are often unnecessary.

If manipulation is unsuccessful and a review of the history and physical examination supports nursemaid elbow as the likely diagnosis, another attempt at reduction is warranted.

If reduction is unsuccessful after 2-3 attempts, radiography of the extremity is warranted.

Ultrasonography has been used as a noninvasive modality to assess for annular ligamentous injury and displacement of the radial head from the capitellum. It has also been used to assess progress of treatment for patients with recurrent subluxations. Usefulness in the acute setting is the subject of continued investigation.[16, 17, 18]

MRI can be used to confirm subluxation with a ligament tear.[16]

For additional information, see Elbow Trauma, Pediatric and Elbow, MRI.

Other Tests

MRI can be used to confirm subluxation with a ligament tear.[16]

Prehospital Care

"First do no harm" is a useful precept for prehospital care. Assume that a fracture is present. Taking appropriate precautions to immobilize and protect the extremity is usually wise.

Emergency Department Care

"First do no harm" is also a useful precept to follow in the ED.

Because normal function can be quickly restored in the ED, this can be a gratifying condition for the physician to treat.

Treatment consists of manipulating the child's arm (closed reduction) so that the annular ligament and radial head return to their normal anatomic positions. Traditionally, the manipulation consists of forearm supination and elbow flexion, as follows:

A click noted by the examiner has a positive predictive value of more than 90% in 2 published case series[19] and a negative predictive value of 76% in one case series.[4]

Some authors believe the likelihood of successful reduction is increased if pressure is applied over the radial head.

Reports describe successful closed reduction using forearm hyper-pronation (HP) instead of supination-flexion (SF) Pronation may be more effective and/or less painful than supination manipulation.[20, 21, 22, 23, 33] A recent prospective, pseudorandomized, controlled non-blinded study compared the efficacy and pain associated with HP and SF reduction techniques. Successful reduction was accomplished on first attempt in 121(80.7%) of cases, with 56 of 82(68.3%) using the SF technique and 65 of 68 (95.6%) using the HP technique (P< 0.001). However, pain levels of both techniques were not statistically different.[24]   The findings are corroborated by two other randomized, prospective studies that found significantly higher rates of first-attempt success with the HP technique.[25, 26]

Videos are available online showing both forearm SF and HP techniques.[27, 28] A quick overview of the disorder and the reduction maneuvers is also available for free through the NEJM website.[29]

A 2012 Cochrane Collaboration review noted that the total number of patients assessed in all of these studies was small. Furthermore, all studies were at high risk for assessor bias due to lack of blinding of the assessors. One study was assessed to be at high risk for selection bias. The conclusion was that evidence is limited for low-quality clinical trials and further study is warranted.[30]

If manipulating the elbow produces a click, the child should be observed in the ED. Many references report immediate return of function, but often the child will not use the arm normally for 15-30 minutes.

If radiographic findings reveal no fracture and the child continues to refuse to use the arm normally, another attempt at reduction (ideally, by a different health professional, if available) is reasonable. Given that intra-operator variability is not always reported and one may become comfortable with one technique or the other, it is reasonable to make first and second attempts at reduction with either method.

Age younger than 2 years and a delay of more than 4 hours before treatment have been associated with failure to use an affected arm within 30 minutes.

If manipulating the elbow produces a click, the child should be observed in the ED. Many references report immediate return of function, but often the child will not use the arm normally for 15-30 minutes.

Postreduction films are not necessary.

An important part of the management is educating parents about the risk of reoccurrence.

Consultations

If radiographic findings demonstrate no fracture, repeat attempts at reduction are unsuccessful, and the child does not regain normal function after 30-40 minutes, the safest management is to support the arm in a sling (or splint and sling) and have the child reevaluated by a physician (usually a primary care physician, not an orthopedist) in 1-2 days. One case series reported 7 patients meeting these criteria had either spontaneous return of function or successful reduction at follow-up evaluation by day 4.

Medication Summary

Once reduced, pain abates, and further therapy is unnecessary. Persistent pain is inconsistent with nursemaid elbow and should lead one to reconsider the diagnosis.

Deterrence/Prevention

Because nursemaid elbow tends to reoccur, families benefit from counseling. Avoidance of future axial traction should minimize risk of reoccurrence.

Prognosis

Prognosis is excellent. Parents can be reassured that no permanent injury results from this condition.

For those who have had one occurrence, the chance of recurrence is approximately 20-25%.[4, 8] Those 24 months and younger may have the greatest risk of recurrence.[8]  

What is nursemaid elbow (radial head subluxation)?What is the pathophysiology of nursemaid elbow (radial head subluxation)?What are the sexual predilections of nursemaid elbow (radial head subluxation)?Which age groups have the highest prevalence of nursemaid elbow (radial head subluxation)?What is the prognosis of nursemaid elbow (radial head subluxation)?What is included in patient education about nursemaid elbow (radial head subluxation)?Which clinical history findings are characteristic of nursemaid elbow (radial head subluxation)?Which physical findings are characteristic of nursemaid elbow (radial head subluxation)?What causes nursemaid elbow (radial head subluxation)?What are the differential diagnoses for Nursemaid Elbow?What is the role of imaging studies in the workup of nursemaid elbow (radial head subluxation)?What is the role of MRI in the workup of nursemaid elbow (radial head subluxation)?What is include in prehospital care for nursemaid elbow (radial head subluxation)?How is nursemaid elbow (radial head subluxation) treated?Which specialist consultations are beneficial to patients with nursemaid elbow (radial head subluxation)?What is the role of medications in the treatment of nursemaid elbow (radial head subluxation)?How is recurrence of nursemaid elbow (radial head subluxation) prevented?What is the prognosis of nursemaid elbow (radial head subluxation)?

Author

Wayne Wolfram, MD, MPH, Professor, Department of Emergency Medicine, Mercy St Vincent Medical Center; Chairman, Pediatric Institutional Review Board, Mercy St Vincent Medical Center, Toledo, Ohio

Disclosure: Nothing to disclose.

Coauthor(s)

Devin N Boss, DO, Attending Physician, Department of Emergency Medicine, St John's Clinic

Disclosure: Nothing to disclose.

Mark Panetta, MD, Resident Physician, Department of Emergency Medicine, Mercy St Vincent Medical Center

Disclosure: Nothing to disclose.

Specialty Editors

Mary L Windle, PharmD, Adjunct Associate Professor, University of Nebraska Medical Center College of Pharmacy; Editor-in-Chief, Medscape Drug Reference

Disclosure: Nothing to disclose.

Grace M Young, MD, Associate Professor, Department of Pediatrics, University of Maryland Medical Center

Disclosure: Nothing to disclose.

Chief Editor

Kirsten A Bechtel, MD, Associate Professor of Pediatrics, Section of Pediatric Emergency Medicine, Yale University School of Medicine; Co-Director, Injury Free Coalition for Kids, Yale-New Haven Children's Hospital

Disclosure: Nothing to disclose.

Additional Contributors

Garry Wilkes, MBBS, FACEM, Director of Clinical Training (Simulation), Fiona Stanley Hospital; Clinical Associate Professor, University of Western Australia; Adjunct Associate Professor, Edith Cowan University, Western Australia

Disclosure: Nothing to disclose.

References

  1. Schutzman SA, Teach S. Upper-extremity impairment in young children. Ann Emerg Med. 1995 Oct. 26 (4):474-9. [View Abstract]
  2. Salter RB, Zaltz C. Anatomic investigations of the mechanism of injury and pathologic anatomy of "pulled elbow" in young children. Clin Orthop Relat Res. 1971. 77:134-43. [View Abstract]
  3. Eismann EA, Cosco ED, Wall EJ. Absence of Radiographic Abnormalities in Nursemaid’s Elbow. J Pediatr Orthop. 2014. 34(4):426-31.
  4. Schunk JE. Radial head subluxation: epidemiology and treatment of 87 episodes. Ann Emerg Med. 1990 Sep. 19(9):1019-23. [View Abstract]
  5. Vitello S, Dvorkin R, Sattler S, Levy D, Ung L. Epidemiology of Nursemaid's Elbow. West J Emerg Med. 2014 Jul. 15 (4):554-7. [View Abstract]
  6. Wong K, Troncoso AB, Calello DP, Salo D, Fiesseler F. Radial Head Subluxation: Factors Associated with Its Recurrence and Radiographic Evaluation in a Tertiary Pediatric Emergency Department. J Emerg Med. 2016 Dec. 51 (6):621-627. [View Abstract]
  7. Pearson BV, Kuhns DW. Nursemaid's elbow in a 31-year-old female. Am J Emerg Med. 2007 Feb. 25(2):222-3. [View Abstract]
  8. Teach SJ, Schutzman SA. Prospective study of recurrent radial head subluxation. Arch Pediatr Adolesc Med. 1996 Feb. 150(2):164-6. [View Abstract]
  9. Michaels MG. A case of bilateral nursemaid's elbow. Pediatr Emerg Care. 1989 Dec. 5(4):226-7. [View Abstract]
  10. Diab HS, Hamed MMS, Allam Y. Obscure pathology of pulled elbow: dynamic high-resolution ultrasound-assisted classification. ournal of Children’s Orthopaedics. 2010. 4(6):539-543.
  11. Kosuwon W, Mahaisavariya B, Saengnipanthkul S, et al. Ultrasonography of pulled elbow. J Bone Joint Surg Br. May 1993. 75(3):421-2.
  12. Dohi, D. Confirmed specific ultrasonographic findings of pulled elbow. J Pediatr Orthop. 2013 Dec. 33(8):829-31.
  13. Sohn Y, Lee Y, Oh Y, Lee W. Sonographic finding of a pulled elbow: the "hook sign". Pediatr Emerg Care. 2014 Dec. 30 (12):919-21. [View Abstract]
  14. Rabiner JE, Khine H, Avner JR, Tsung JW. Ultrasound findings of the elbow posterior fat pad in children with radial head subluxation. Pediatr Emerg Care. 2015 May. 31 (5):327-30. [View Abstract]
  15. Rabiner JE, Khine H, et al. Accuracy of Point-of-Care Ultrasonography for Diagnosis of Elbow Fractures in Children. Ann Emerg Med. Jan 2013. 61:9-17.
  16. Shabet S, Folman Y, Mann G, Kots Y, Fredman B, Banian M, et al. The role of sonography in detecting radial head subluxation in a child. Case Report. J Clinical Ultrasound. May 2005. 33(4):187-9. [View Abstract]
  17. Pai DR, Thapa M. Musculoskeletal ultrasound of the upper extremity in children. Pediatr Radiol. 2013 Mar. 43 Suppl 1:S48-54. [View Abstract]
  18. Güngör F, Kılıç T. Point-of-Care Ultrasonography to Assist in the Diagnosis and Management of Subluxation of the Radial Head in Pediatric Patients: A Case Series. J Emerg Med. 2017 May. 52 (5):702-706. [View Abstract]
  19. Quan L, Marcuse EK. The epidemiology and treatment of radial head subluxation. Am J Dis Child. 1985 Dec. 139(12):1194-7. [View Abstract]
  20. Macias CG, Bothner J, Wiebe R. A comparison of supination/flexion to hyperpronation in the reduction of radial head subluxations. Pediatrics. 1998 Jul. 102(1):e10. [View Abstract]
  21. McDonald J, Whitelaw C, Goldsmith LJ. Radial head subluxation: comparing two methods of reduction. Acad Emerg Med. 1999 Jul. 6(7):715-8. [View Abstract]
  22. Green DA, Linares MY, Garcia Peña BM, Greenberg B, Baker RL. Randomized comparison of pain perception during radial head subluxation reduction using supination-flexion or forced pronation. Pediatr Emerg Care. 2006 Apr. 22(4):235-8. [View Abstract]
  23. Bek D, Yildiz C, Köse O, Sehirlioglu A, Basbozkurt M. Pronation versus supination maneuvers for the reduction of 'pulled elbow': a randomized clinical trial. Eur J Emerg Med. 2009 Jun. 16(3):135-8. [View Abstract]
  24. 27. Gunaydin YK, Katirci Y, Duymaz H, Vural K, Halhalli HC, Akcil M, et al. Comparison of success and pain levels of supination-flexion and hyperpronation maneuvers in childhood nursemaid's elbow cases. Am J Emerg Med. 2013. 31(7):1078-81.
  25. García-Mata S, Hidalgo-Ovejero A. Efficacy of reduction maneuvers for "pulled elbow" in children: a prospective study of 115 cases. J Pediatr Orthop. 2014 Jun. 34 (4):432-6. [View Abstract]
  26. Guzel M, Salt O, Demir MT, Akdemir HU, Durukan P, Yalcin A. Comparison of hyperpronation and supination-flexion techniques in children presented to emergency department with painful pronation. Niger J Clin Pract. 2014 Mar-Apr. 17 (2):201-4. [View Abstract]
  27. Dr. Vader. Nursemaid Elbow manipulation. Available at http://www.youtube.com/watch?v=rxrrkMcgx2Y. Accessed: January 31, 2014.
  28. Mellick L. Nursemaid Elbow Reduction. Available at http://www.youtube.com/watch?v=-0ROu4hCXwQ. Accessed: January 31, 2014.
  29. Aylor MI, Anderson JM, Vanderford P, et al. Videos in clinical medicine. Reduction of pulled elbow. N Engl J Med. 20 Nov 2014. 371(21):e32:
  30. Krul M, van der Wouden JC, van Suijlekom-Smit LW, Koes BW. Manipulative interventions for reducing pulled elbow in young children. Cochrane Database Syst Rev. 2012. 1-18.
  31. Stone CA. Subluxation of the head of the radius. JAMA. 1916. 67:28-9.
  32. Van Arsdale WH. On subluxation of the head of the radius in children with a resume of one hundred consecutive cases. Ann Surg. 1889. 9:401-23.
  33. Nardi NM, Schaefer TJ. Nursemaid Elbow. StatPearls [Internet]. 2018 Jan. [View Abstract]
  34. Bertucci N, Cowling K. Is Hyperpronation More Effective Than Supination for Reduction of a Radial Head Subluxation?. Ann Emerg Med. 2018 Nov. 72 (5):586-587. [View Abstract]