FINGER DISTAL PHALANX FRACTURES

Fracture Nomenclature for Finger Distal Phalanx Fractures

Hand Surgery Resource’s Diagnostic Guides describe fractures by the anatomical name of the fractured bone and then characterize the fracture by the Acronym:

In addition, anatomically named fractures are often also identified by specific eponyms or other special features.

For the Finger Distal Phalanx, the historical and specifically named fractures include:

Mallet finger fracture

FDP tendon avulsion fracture

DIP joint volar plate avulsion fracture

By selecting the name (diagnosis), you will be linked to the introduction section of this Diagnostic Guide dedicated to the selected fracture eponym.

---

Fractures of the distal phalanx are the most common fractures that occur in the hand.^1-3

Definitions

• A distal phalanx fracture is a disruption of the mechanical integrity of the distal phalanx.
• A distal phalanx fracture produces a discontinuity in the distal phalanx contours that can be complete or incomplete.
• A distal phalanx fracture is caused by a direct force that exceeds the breaking point of the bone.
• The mechanism of injuries that lead to distal phalanx fractures like falls, sports and motor vehicle accidents are common. But the occurrence of a fracture in a particular human is sporadic.  Thus the acronym below is appropriate for systematically describing fractures.

---

Hand Surgery Resource’s Fracture Description and Characterization Acronym

SPORADIC

S – Stability; P – Pattern; O – Open; R – Rotation; A – Angulation; D – Displacement; I – Intra-articular; C – Closed

---

S - Stability (stable or unstable)

• Universally accepted definitions of clinical fracture stability is not well defined in the hand surgery literature.^4-6
• Stable: fracture fragment pattern is generally nondisplaced or minimally displaced. It does not require reduction, and the fracture fragments’ alignment is maintained by with simple splinting.  Most published definitions define a stable fracture as one that will maintain anatomical alignment after a simple closed reduction and splinting. Some authors add that stable fractures remain aligned, even when adjacent joints are put to a partial range of motion (ROM).
• Unstable: will not remain anatomically or nearly anatomically aligned after a successful closed reduction and simple splinting. Typically unstable distal phalanx fractures have significant deformity with comminution, displacement, angulation, and/or shortening.

P - Pattern

• Distal phalanx tuft: oblique, transverse, or comminuted
• Distal phalanx shaft: transverse, oblique, or comminuted with or without shortening
• Distal phalanx base: can involve the distal interphalangeal (DIP) joint; these intra-articular fractures usually involve the dorsal or volar lip of the distal phalanx base

O - Open

• Open: a wound connects the external environment to the fracture site. The wound provides a pathway for bacteria to reach and infect the fracture site. As a result, there is always a risk for chronic osteomyelitis. Therefore, open fractures of the distal phalanx require antibiotics with surgical irrigation and wound debridement.^4,7,8

R - Rotation

• Distal phalanx fracture deformity can be caused by proximal rotation of the fracture fragment in relation to the distal fracture fragment.
• Degree of malrotation of the fracture fragments can be used to describe the fracture deformity; this is not a common type of fracture deformity in the distal phalanx.

A - Angulation (fracture fragments in relationship to one another)

• Angulation is measured in degrees after identifying the direction of the apex of the angulation
• Straight: no angulatory deformity
• Angulated: bent at the fracture site
• Example: distal phalanx shaft fracture with an angulation of 45° could have the apex of the angulation dorsally or volarly

D - Displacement (Contour)

• Displaced: disrupted cortical contours (eg, distal phalanx shaft fractures can be displaced or translated partially or completely)
• Nondisplaced: fracture line(s) defining one or several fracture fragment fragments; however, the external cortical contours are not significantly disrupted

I - Intra-articular involvement

• Fractures that enter a joint with one or more of their fracture lines.
• Distal phalanx fractures can have fragment involvement with the DIP joint.
• If a fracture line enters a joint but does not displace the articular surface of the joint, then it is unlikely that this fracture will predispose to posttraumatic osteoarthritis. If the articular surface is separated or there is a step-off in the articular surface then the congruity of the joint will be compromised and the risk of posttraumatic osteoarthritis increases significantly.

C - Closed

• Closed: no associated wounds; the external environment has no connection to the fracture site or any of the fracture fragments.^4-6

---

Distal phalanx fractures: named fractures, fractures with eponyms and other special fractures

Mallet finger fracture

• Fracture-dislocation of the DIP joint caused by avulsion of the dorsal lip of the distal phalanx. The mallet finger fracture is usually unstable when >50% of joint is involved.^4,8,9
• Patients are typically younger with a history of a sports-related accident.¹⁰
• Usually occurs when the tip of the finger is struck with a severe axial load that drives the tip volarly faster than the extensor can relax (eg, when a baseball strikes the fingertip).
• The ring finger is the most commonly injured finger.¹⁰
• Examination typically shows a swollen and ecchymotic DIP joint with marked dorsal tenderness^4,8,10 and positioned in flexion.
• Active ROM exam demonstrates an active extension lag. The collateral ligaments and volar plate are stable.
• Flexor digitorum profundus (FDP) tendon function is intact with normal sensation and normal capillary refill.

Imaging

• Plain AP and lateral X-rays show the dorsal lip fracture.
• The amount of articular surface involvement and degree of volar subluxation of the distal phalanx is best calculated on the lateral X-ray.

Treatment

• Splinting the DIP joint in extension is the mainstay of treatment for the majority of mallet finger fractures.^4,8,10
• Splinting can be done with an aluminum-padded splint, plaster cast, prefabricated commercial splint, or custom splint.
• Most hand surgeons agree that there are 3 mallet finger fracture patterns that always warrant surgical intervention:
  • Large dorsal lip fracture fragment representing 25-50% of joint surface; the exact percentage is not well defined
  • Dorsal lip fracture associated with volar subluxation of the large distal phalanx fracture fragment
  • Dorsal lip fracture fragment that has been pulled proximally over the neck of the middle phalanx
• When one of more of these surgical indications is present, reconstructive surgical options include extension block splinting, ORIF with screw, pin, plate, pullout suture or wire.^4,8,10

Complications

• Posttraumatic osteoarthritis
• Swan neck deformities
• Dorsal prominence at the DIP joint

Outcomes

• Most patients do well. If the dorsal lip represents ≤1/3, then splinting results are essentially the same as surgical treatment results.
• Results are better if treated within 2 weeks.¹¹
• No surgical procedure appears to be better than any other.⁸

FDP tendon avulsion fracture

• Avulsion of the volar lip of the distal phalanx; also called the "jersey finger" injury.

Imaging

• X-ray
• Ultrasound

Treatment

• Asymptomatic late cases can be left untreated.¹²
• Timing is critical for successful repair. Some types require immediate surgery, owing to disruption of the blood supply to the distal tendon;¹³ others can be delayed.¹⁴
• Options for late interventions: two-stage tendon graft or fusion of DIP joint if unstable.¹²

Complications

• In conservatively managed cases, the necrotic tendon may lead to tenderness in the palm and require excision.
• Extension deficit due to flexor tendon advancement during repair
• DIP joint stiffness
• Operative repair that damages the volar plate may lead to flexion contracture.¹²

Outcomes

• In one study, 100% (12/12) patients had satisfactory results after tendon reinsertion; there was a 10–15° extension deficit but good flexion and, in patients treated early, grip strength approached normal values.¹²
• Although several repair methods have been developed, none has yet been shown to result in a superior clinical outcome.^15,16

DIP joint volar plate avulsion fracture

• A DIP joint volar plate avulsion fracture can occur at the proximal portion of the volar distal phalanx lip without disrupting the insertion of the FDP.  This uncommon distal phalanx fracture is associated with dorsal subluxation of the larger distal phalanx fracture fragment.^6&20
• This fracture occurs when an axial load is applied to the fingertip while the DIP joint is in slight flexion.  This axial loading causes the volar lip of the distal phalanx to be avulsed by the volar plate or a significant comminuted fracture of the distal phalanx lip occurs as the distal phalanx is impacted on the head of the middle phalanx.

Imaging

• Plain x-ray imaging will define these fractures very well. Careful attention should be given to the true lateral view.

Treatment

• Volar plate avulsion fractures of the distal phalanx that are seen acutely can be reduced and DIP joint stabilized by first obtaining a closed reduction and then securing the reduction with percutaneous pinning of the DIP joint.  Splinting alone of the reduced fracture dislocation is unlikely to keep the joint anatomically aligned.
• In chronic cases open reduction and internal fixation; open reduction and pinning; dynamic traction; volar plate advancement arthroplasty; and/or DIP joint arthrodesis have all been successfully used to treat this fracture problem successfully.¹⁷

Complications

• Distal interphalangeal joint pain
• Distal interphalangeal joint stiffness and flexion contracture
• Distal interphalangeal joint osteoarthritis
• Infection can complicate any open treatment options.

Outcome

• When the DIP joint congruity and stability are obtained either acutely or chronic situation by reconstructive surgery then the clinical outcome is usually good to excellent.

---

Related Anatomy¹⁸

• The distal phalanx consists of a distal bony tuft, a narrow diaphyseal shaft, a proximal metaphysis, and a base that articulates at the DIP joint with the middle phalanx. The base of the distal phalanx has a dorsal and volar lip.
• Ligaments that attached to the distal phalanx include the volar plate of the DIP joint, the radial collateral ligament of the DIP joint and the ulnar collateral ligament of the DIP joint.
• Tendon insertions include the insertion of the terminal extensor tendon into the dorsal lip of the distal phalanx and the insertion of the flexor digitorum profundus into the volar proximal third of the distal phalanx.
• The distal phalanx and fingertip are further stabilized by fibrous septae in the pulp of the finger and ulnar and radial lateral interosseous ligaments between the base and tuft of the distal phalanx.

Incidence and Related injuries/conditions

• The most commonly fractured bone in the human hand is the distal phalanx.^1,3 
• Distal phalanx fractures are the most commonly occurring hand fracture.
• Distal phalanx fractures occur most commonly secondary to sports in younger patients, secondary to labor in middle-aged patients and secondary to falls and motor vehicle accidents in older individuals.⁸
• Subungual hematomas are a common related injury.

A classic patient with a distal phalanx fracture is a 41-year-old, right-handed male carpenter who strikes his left index finger with a hammer while trying to hammer a nail. The resultant common injury is a tuft fracture of the left index finger with an associated subungual hematoma.

Post-treatment Management

• The care and precautions related to immobilization devices for the distal phalanx fracture must be carefully reviewed with the patient. Patients should be educated regarding care and precautions. Patients should know that pain, especially increasing pain, numbness, tingling, skin irritation, splint loosening, or excessive splint tightness are red flags and should be reported to the surgeon or his team.
• Pain should be managed with properly fitting splints, reassurance, elevation, ice in the initial post-fracture period, and mild pain medications. Patients should be encouraged to discontinue pain medication as soon as possible. Opioid use should be kept to a minimum.
• Joints that are splinted for closed stable fractures are usually immobilized.
• Fractures that require internal fixation can be mobilized after 4 weeks.
• Patients should be instructed to carefully exercise all joints in the injured hand that do not require immobilization. Patients usually can exercise on their own; however, signs of generalized finger or hand stiffness are indications for referral to hand therapy (PT or OT).

• Finger stiffness is the most common complication of hand fractures,^4,8 but distal phalanx fractures usually can be immobilized rapidly enough to avoid this.
• Malunion and fingertip deformity after distal phalanx fractures is rare but can occur, especially in open, severe, unstable fractures.¹⁹ 
• Posttraumatic osteoarthritis (photo) can occur in the DIP joint after distal phalanx fractures (eg, large displaced mallet finger fracture).
• Chronic osteomyelitis of the distal phalanx is rare but can occur in open distal phalanx fractures, especially in patients with diabetes or in patients whose immune system is compromised.

• Most outcomes after distal phalanx fractures are very good.^4,8,20 Fortunately, the complications noted above are very rare. Significant stiffness can usually be avoided because metacarpophalangeal (MP) and PIP joints of the injured finger can be mobilized while the DIP joint and distal phalanx are splinted.   

• Finger fractures must be immobilized before radiographic fracture healing is complete to avoid disabling finger stiffness.
• Immobilization of finger fractures for >4 weeks is rarely needed.¹
• Today, as in ancient times, finger fractures can usually be treated without surgery.^1,6
• Underlying pathological conditions such as bone tumor and osteoporosis should be expected in fractures that occur from trivial trauma.  See the diagnostic guide for Enchondroma.
• Functional needs of each patient must be considered when recommending treatment for finger fractures. 

New and Cited Articles

1. Day CS. Fractures of the Metacarpals and Phalanges. In: Green DP, ed. Green's Operative Hand Surgery. Seventh ed. Philadelphia: Elsevier:231-77.
2. Harness NG, Meals RA. The history of fracture fixation of the hand and wrist. Clin Orthop Relat Res 2006;445:19-29. PMID: 16505723
3. Karl JW, Olson PR, Rosenwasser MP. The Epidemiology of Upper Extremity Fractures in the United States, 2009. J Orthop Trauma 2015;29:e242-4. PMID: 25714441
4. Cheah AE, Yao J. Hand Fractures: Indications, the Tried and True and New Innovations. J Hand Surg Am 2016;41:712-22. PMID: 27113910
5. Nesbitt KS, Failla JM, Les C. Assessment of instability factors in adult distal radius fractures. J Hand Surg Am 2004;29:1128-38. PMID: 15576227
6. Walenkamp MM, Vos LM, Strackee SD, Goslings JC, Schep NW. The Unstable Distal Radius Fracture-How Do We Define It? A Systematic Review. J Wrist Surg 2015;4:307-16. PMID: 26649263
7. Ketonis C, Dwyer J, Ilyas AM. Timing of Debridement and Infection Rates in Open Fractures of the Hand: A Systematic Review. Hand (NY) 2017;12:119-26. PMID: 28344521
8. Meals C, Meals R. Hand fractures: a review of current treatment strategies. J Hand Surg Am 2013;38:1021-31. PMID: 23618458
9. Husain SN, Dietz JF, Kalainov DM, Lautenschlager EP. A biomechanical study of distal interphalangeal joint subluxation after mallet fracture injury. J Hand Surg Am 2008;33:26-30. PMID: 18261661
10. Hofmeister EP, Mazurek MT, Shin AY, Bishop AT. Extension block pinning for large mallet fractures. J Hand Surg Am 2003;28:453-9. PMID: 12772104
11. Shah CM, Sommerkamp TG. Fracture dislocation of the finger joints. J Hand Surg Am 2014;39:792-802. PMID: 24679912
12. Leddy JP, Packer JW. Avulsion of the profundus tendon insertion in athletes. J Hand Surg Am 1977;2:66-9. PMID: 839056
13. Leversedge FJ, Ditsios K, Goldfarb CA, Silva MJ, Gelberman RH, Boyer MI. Vascular anatomy of the human flexor digitorum profundus tendon insertion. J Hand Surg Am 2002;27:806-12. PMID: 12239668
14. Al-Qattan MM. Type 5 avulsion of the insertion of the flexor digitorum profundus tendon. J Hand Surg Br 2001;26:427-31. PMID: 11560423
15. Huq S, George S, Boyce DE. Zone 1 flexor tendon injuries: a review of the current treatment options for acute injuries. J Plast Reconstr Aesthet Surg 2013;66:1023-31. PMID: 23672773
16. Ruchelsman DE, Christoforou D, Wasserman B, Lee SK, Rettig ME. Avulsion injuries of the flexor digitorum profundus tendon. J Am Acad Orthop Surg 2011;19:152-62. PMID: 21368096
17. Rettig ME, Dassa G, Raskin KB. Volar plate arthroplasty of the distal interphalangeal joint. J Hand Surg Am 2001;26:940-4. PMID: 11561249
18. Slattery D, Aland R, Durbridge G, Cowin G. Dorsal digital septum of the distal interphalangeal joint. J Hand Surg Am 2009;34:467-73. PMID: 19258144
19. Kaplan SJ. Bony complications caused by stack splints. J Hand Surg Am 2013;38:2305-6. PMID: 24207001
20. Yoon JO, Baek H, Kim JK. The Outcomes of Extension Block Pinning and Nonsurgical Management for Mallet Fracture. J Hand Surg Am 2017;42:387 e1- e7. PMID: 28274605

Reviews

1. Meals C, Meals R. Hand fractures: a review of current treatment strategies. J Hand Surg Am 2013;38:1021-31. PMID: 23618458
2. Cheah AE, Yao J. Hand Fractures: Indications, the Tried and True and New Innovations. J Hand Surg Am 2016;41(6):712-22. PMID: 27113910

Classics

1. Wehbé MA, Schneider LH. Mallet fractures. J Bone Joint Surg Am 1984;66(5):658-69. PMID: 6725314
2. Schneider LH. Fractures of the distal interphalangeal joint. Hand Clin 1994;10:277-285. PMID: 8040206