Supernumerary digits (polydactyly, extra fingers)
Supernumerary digits (polydactyly, extra fingers) ICD-9 755.01
Are You Confident of the Diagnosis?
What you should be alert for in the history
The history is straightforward in most patients with polydactyly; they are born with an extra finger. Key elements of the history include:
- Family history of polydactyly or other congenital limb difference
- Prior treatment (ligation in the nursery)
- Complications such as bleeding, infection, trauma, or vascular compromise
- Medical conditions or syndromes - most polydactyly is sporadic and not associated with systemic conditions
Characteristic findings on physical examination
Ulnar-sided polydactyly is duplication of the small finger and is often bilateral. The most common finding is a single phalanx (with or without a nail) attached by a soft-tissue bridge to the ulnar border of an otherwise normal small finger. It may range from complete duplication of a ray including metacarpal and three phalanges to a small skin tag. Usually, the more ulnar digit is less well-developed, but check for function in both digits as well as size and alignment (
Classical postaxial polydactyly (Courtesy of Rhonda E Schnur, MD)
Central polydactyly is duplication of the ring (most common), long, or index finger (least common). It may involve complete or partial duplication. Range of motion and alignment are more likely to be abnormal with partial duplication. The duplication may be occult when associated with a syndactyly.
Radial-sided polydactyly is duplication of the thumb, but is more accurately described as a split thumb. The split may involve some or all of the bones in the thumb; the most common configuration is complete split of the distal and proximal phalanges, articulating with a bifid metacarpal head. Less common configurations include pedunculated lesions. digits with no bony attachment to the dominant thumb and split thumb with triphalangeal thumb (where one or both thumbs has an extra phalanx). Regardless of configuration, neither half of the split thumb is normal. They are usually smaller, are often angulated, and may have limited motion if the split extends into a joint. Also, the soft tissue structures, such as the tendons may be split, abnormally attached, or hypoplastic.
Expected results of diagnostic studies
Plain radiographs will demonstrate the skeletal anatomy of the polydactyly and should be obtained in all cases of polydactyly except when the part is pedunculated and the rest of the hand examination is clearly normal. No other diagnostic tests are routinely indicated.
None beyond physical examination and radiographs.
Who is at Risk for Developing this Disease?
Overall, polydactyly is the most common congenital hand anomaly. The true incidence is unknown because many pedunculated polydactylous digits are ligated in the newborn nursery. Incidence varies considerably by race: ulnar-sided polydactyly is 10 times more common in African Americans compared to Caucasians. Central polydactyly is very rare.
Approximate overall incidence of polydactyly:
--African Americans: 1:300 (primarily ulnar or small finger polydactyly)
--Caucasians: 1:3000 (radial-sided polydactyly, also common in Asians and Native Americans)
What is the Cause of the Disease?
Ulnar-sided polydactyly exhibits strong autosomal dominant inheritance with variable expressivity, often bilateral, and is almost never associated with systemic or syndromic conditions.
Central polydactyly is duplication of the index, long or ring fingers. When combined with syndactyly (synpolydactyly) it is familial and linked to a HOXD13 gene mutaion on chromosome 2. Other forms of central polydactyly are sporadic or may be syndromic.
Radial-sided polydactyly may have autosomal dominant inheritance, but most cases are sporadic, unilateral and not associated with systemic or syndromic conditions. Thalidomide ingestion can result in triphalangeal thumb polydactyly.
Genetic and environmental factors interact during the fourth through seventh weeks of gestation to produce polydactyly.
Systemic Implications and Complications
Systemic implications are extremely rare in ulnar-sided polydactyly, but more common (but still rare) in radial-sided and central polydactyly. A genetics consultation is advised if there are any abnormalities of the major organs, craniofacial features or other congenital limb abnormalities on physical examination, especially triphalangeal thumb, radial deficiency or ulnar-sided polydactyly in a Caucasian. Associated abnormalities can involve every organ system:
--Hematologic abnormalities including Blackfan-Diamond anemia, Fanconi pancytopenia (triphalangeal thumb), TAR (thrombocytopenia absent radius) syndrome
--Holt-Oram syndrome (triphalangeal thumb, cardiac septal defects)
--Ellis-van Creveld (chondroectodermal dysplasia) syndrome
Observation is necessary for complete duplication of a non-thumb digit that is fully functional. Ligation is appropriate only for pedunculated digits attached by a narrow soft tissue bridge, often leaving a skin tag which may develop a sensitive neuroma. Surgical excision is suitable for skin only or broad-based polydactyly with no bony attachment. This can be performed in the office under local anesthesia in early infancy.
Surgical reconstruction is not a simple amputation. For polydactyly with bone attachment, parts from both polydactylous digits may need to be utilized in reconstructing a maximally functional digit. Surgery is deferred until after 1 year of age when anesthesia is safer, but it should be done prior to school age. Essential steps include:
Skin incision to create flaps for closure
Deletion of superfluous parts
Reattaching intrinsic muscles
Osteotomy for correction of angular deformities (may be done at a later stage)
Optimal Therapeutic Approach for this Disease
Skin tags should be kept under observation or removed by office excision under local anesthesia.
Pedunculated polydactyly with a narrow base (less than 2mm) can be removed by ligation or office excision under local anesthesia.
Procedures for polydactyly with no bony attachment include:
--Less than 5mm base AND less than 3 months of age - office excision under local anesthesia
--More than 5mm base OR more than 3 months of age - excision at 1-3 years of age under general anesthesia
Polydactyly with bone attachment requires surgical reconstruction at 1-3 years of age under general anesthesia.
After ligation, a return to the office is necessary after autoamputation of the part and for complications (bleeding, infection, failure to autoamputate within 2 weeks).
After office excision, remove the dressing after 2 days and leave open. Wash daily with soap and water as needed after 2 days. Return to the office for bleeding, infection, or regrowth of the skin tag.
After surgical reconstruction a cast is needed for 2 weeks, then a daily wash with soap and water. Post-operative office visits are necessary at 2 weeks, 2 months, 6 months, 1 year, then yearly until age 6 to check for appropriate growth and function. Corrective surgery may be necessary to treat long-term complications including angulation, contracture, bony prominence, neuroma, hypoplasia, and stiffness.
Unusual Clinical Scenarios to Consider in Patient Management
Fully functional polydactyly
A central or ulnar-sided polydactyly may be left in situ at the discretion of the parents if all digits are normal in appearance and function. Thumb polydactyly involving only the distal phalanx may be left in situ if the duplicated part is diminutive and does not interfere with function. Deletion may still be desirable for social acceptance and for practical considerations such as wearing gloves.
Polydactyly should be considered in the differential diagnosis for any “wart” along the ulnar border of the small finger, particularly near the metacarpophalangeal joint. Excisional biopsy is therapeutic and diagnostic. Pathology often reveals a neuroma.
Synpolydactyly may hide a polydactylous digit between two syndactylized digits. Suspect synpolydactyly if the digits are angulated or do not have full range of motion. Plain radiographs are diagnostic and essential for pre-operative planning.
What is the Evidence?
(The anatomic variation, classification, surgical treatment and outcomes of surgical intervention are reviewed for polydactyly.)
(This article presents clinical and molecular features of synpolydactyly including a discussion of typical features, minor variants, and unusual phenotypes.)
(This article presents clinical outcomes of thumb polydactyly reconstruction in 80 patients.)
(Landmark article on surgical treatment of thumb polydactyly.)
(This is the updated Mayo Clinic experience with thumb duplication and their preferred operative procedures.)
(This small study supports surgical excision of pedunculated polydactyly over ligation to prevent neuroma.)
(This is a review of ten patients with 13 symptomatic polydactyly ligation stumps who underwent surgical revision.)
Copyright © 2017, 2012 Decision Support in Medicine, LLC. All rights reserved.
No sponsor or advertiser has participated in, approved or paid for the content provided by Decision Support in Medicine LLC. The Licensed Content is the property of and copyrighted by DSM.
- Compound in Teas, Peas, Soybeans May Increases Prostate Cancer Risk
- Fertility Preservation in Male Adolescents and Young Adults With Cancer
- Acupuncture an Effective Alternative Treatment for Cancer-Related Fatigue
- Social, Psychiatric Variables Reduce Cognitive Functioning, QoL in HNC
- Response to Anemia Treatment Differs in Lymphoma, Multiple Myeloma
- HPV and Cancer (Fact Sheet)
- Pain Control More Easily Achieved With Nurse-Led Education in Bone Metastases
- Using Nutrition-Based Strategies to Manage Adverse Effects of Cancer
- Palliative Care Associated With Decreased Costs For Patients With Advanced Cancer
- A Case of Immunotherapy-Induced Myocarditis Concomitant to MG in Lung Cancer
- Vitamin D Supplementation is Recommended for Pediatric Patients With Sarcoma
- Extended Adjuvant Therapy for Breast Cancer Improves 5-Year Disease-free Survival
- A Structured Group Exercise Program for Patients With Metastatic Cancer Receiving Chemotherapy and CTNNB1 (β-catenin) as a Biomarker of Exercise Efficacy
- Response to Anemia Treatment Differs in Lymphoma, Multiple Myeloma
- Impact of Prostate Cancer Diagnosis, Treatment Choice on Quality of Life
Sign Up for Free e-newsletters
Regimen and Drug Listings
GET FULL LISTINGS OF TREATMENT Regimens and Drug INFORMATION
|Head and Neck Cancer||Regimens||Drugs|