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This Clinical Documentation Guide (CDG) provides AAPC/AHIMA-credentialed coders and CDI specialists with comprehensive coding, clinical, and documentation guidance for polydactyly (extra digits) and syndactyly (fused or webbed digits). Content reflects FY2026 ICD-10-CM guidelines (effective October 1, 2025 – September 30, 2026) and incorporates current surgical, genetic, and CDI query guidance. Use this guide to ensure accurate diagnosis code assignment, appropriate surgical procedure coding (CPT), and defensible documentation for polydactyly and syndactyly encounters across all care settings.
1. Definition
Polydactyly is a congenital anomaly characterized by the presence of more than the normal number of digits (fingers or toes). It is one of the most common congenital hand malformations, with an overall upper-extremity prevalence of approximately 23.4 per 10,000 live births based on New York State registry data. Polydactyly may manifest as a rudimentary skin tag (nubbin) or as a fully formed, functional extra digit complete with bone, joints, tendons, and neurovascular supply.
Polydactyly is classified anatomically into three subtypes based on digit location, as described in World Journal of Orthopedics (2023):
- Preaxial (radial/tibial side): Extra digit on the thumb/great toe side; thumb duplication (radial polydactyly) is the most surgically complex form. Prevalence: 0.8–2.3 per 10,000 live births.
- Postaxial (ulnar/fibular side): Extra digit on the small finger/fifth-toe side; the most common type overall, especially in patients of African descent (prevalence 1/100–1/300 in Black population vs. 1/3,300 in Caucasian).
- Central (mesoaxial): Duplication of one of the three middle digits; rare, often associated with syndactyly (polysyndactyly).
Syndactyly is a congenital condition in which two or more adjacent digits are fused or webbed. It is classified as:
- Simple syndactyly: Only soft tissue (skin and subcutaneous structures) connects the digits; no osseous involvement.
- Complex syndactyly: Involves bony fusion or interdigitation of phalanges or nail structures, as recognized by the Journal of Hand Surgery (2021).
- Complete syndactyly: Webbing or fusion extends from the base of the digits to the fingertips.
- Incomplete syndactyly: Fusion does not reach the fingertip.
Polysyndactyly (ICD-10-CM Q70.4) represents co-occurrence of polydactyly and syndactyly, commonly seen in syndromic presentations such as Apert syndrome and Greig cephalopolysyndactyly.
2. Alternative Terminology
Medical coders and CDI specialists will encounter multiple terms in documentation that map to Q69 and Q70 codes. The following table summarizes formal, clinical, and colloquial terms used across operative reports, genetics notes, and outpatient records:
| Formal / Clinical Name | Colloquial / Lay / Alternate Names | ICD-10-CM Mapping |
|---|---|---|
| Polydactyly | Extra finger/toe, accessory digit, supernumerary digit | Q69.x (specify site) |
| Preaxial polydactyly (thumb) | Radial polydactyly, thumb duplication, bifid thumb | Q69.1 Accessory thumb(s) |
| Postaxial polydactyly (fingers) | Ulnar polydactyly, accessory little finger, extra pinky | Q69.0 Accessory finger(s) |
| Polydactyly of toes | Extra toe, accessory hallux, toe duplication | Q69.2 Accessory toe(s) |
| Polydactyly, unspecified | Supernumerary digit NOS | Q69.9 |
| Syndactyly | Webbed fingers/toes, fused digits, conjoined fingers | Q70.x (specify type/site) |
| Complex syndactyly (fused fingers) | Bony syndactyly, osseous fusion of fingers | Q70.0 Fused fingers |
| Simple syndactyly (webbed fingers) | Cutaneous syndactyly, soft-tissue web, finger webbing | Q70.1 Webbed fingers |
| Complex syndactyly (fused toes) | Bony toe fusion, osseous toe syndactyly | Q70.2 Fused toes |
| Simple syndactyly (webbed toes) | Toe webbing, cutaneous toe syndactyly | Q70.3 Webbed toes |
| Polysyndactyly | Combined extra and webbed digits, Apert-type digits | Q70.4 Polysyndactyly, unspecified |
| Syndactyly, unspecified | Digit fusion NOS | Q70.9 |
| Acrocephalosyndactyly (Apert syndrome) | Apert syndrome, acrocephaly with syndactyly | Q87.0 |
Note the inversion in the ICD-10-CM subcategory assignment vs. lay terminology: Q69.0 is “accessory finger(s)” (i.e., postaxial, small-finger–side duplication) and Q69.1 is “accessory thumb(s)” (i.e., preaxial thumb duplication). Confirm the anatomic site carefully before code assignment — do not rely on operative report shorthand.
3. Signs & Symptoms
Polydactyly
- Visible extra digit: Ranging from a rudimentary soft-tissue nubbin (Postaxial Type B) to a fully formed digit with metacarpal/metatarsal articulation (Postaxial Type A), as classified in World Journal of Orthopedics (2023).
- Thumb duplication (Wassel classification): Seven types ranging from bifid distal phalanx (Type I) to complete metacarpal duplication (Type VI) to triphalangeal component (Type VII), per the Wassel classification.
- Functional deficits: Radial (thumb) polydactyly may impair pinch strength, opposition, and key grip. Central polydactyly may cause lateral instability of adjacent digits.
- Angular deformity: Deviation at the duplicated digit’s axis; especially common in Wassel Types I, III, V thumb duplications.
- Bilateral presentation: More common in postaxial polydactyly, particularly in syndromic cases (Bardet-Biedl, Ellis-van Creveld syndromes).
Syndactyly
- Webbing or fusion of adjacent digits: Most commonly between the third and fourth fingers (ring-long) or second and third toes.
- Growth restriction: Differential digit lengths (e.g., ring vs. small finger) cause tethering and progressive angular deformity when left untreated, per Hospital for Special Surgery.
- Nail fold abnormalities: In complex (bony) syndactyly, shared nail plates or bifid nails may be present.
- Functional limitation: More pronounced with thumb involvement; simple toe syndactyly rarely causes functional deficit.
- Syndromic features: Apert syndrome presents with complete complex syndactyly of all four fingers (“mitten hand”) plus craniosynostosis; Down syndrome (Q90.x) and Poland sequence may include partial finger syndactyly.
4. Differential Diagnosis
| Condition | Key Distinguishing Features | ICD-10-CM Code |
|---|---|---|
| Polydactyly (isolated) | Extra digit without other anomalies; autosomal dominant inheritance pattern; postaxial type most common | Q69.0–Q69.9 |
| Syndactyly (isolated) | Webbed/fused digits; simple (soft tissue only) vs. complex (bony); autosomal dominant | Q70.0–Q70.9 |
| Apert syndrome | Complete complex syndactyly all fingers + craniosynostosis; FGFR2 mutation; high surgical complexity | Q87.0 |
| Poland sequence | Unilateral absence/hypoplasia of pectoralis major + ipsilateral symbrachydactyly; may have preaxial polydactyly | Q79.8 |
| Trisomy 13 (Patau syndrome) | Postaxial polydactyly + midline brain defects, holoprosencephaly, cardiac defects; lethal in most cases | Q91.4–Q91.7 |
| Down syndrome (Trisomy 21) | Clinodactyly of 5th finger, partial syndactyly of toes; global intellectual disability | Q90.0–Q90.9 |
| Bardet-Biedl syndrome | Postaxial polydactyly + retinitis pigmentosa, obesity, renal anomalies, intellectual disability | Q87.89 |
| Ellis-van Creveld syndrome | Bilateral postaxial polydactyly, short-limb dwarfism, cardiac defects; EVC gene mutations | Q77.6 |
| Skin tag / rudimentary digit | Soft-tissue nubbin without bone, narrow pedicle; may be ligated at bedside vs. formal surgery | Q69.0 or Q69.9 |
| Camptodactyly | Flexion contracture of finger (not an extra digit); distinguished by physical exam and X-ray | Q68.1 |
5. Clinical Indicators for Coders/CDI
| Clinical Indicator | Documentation Required | Coding Impact |
|---|---|---|
| Digit affected (finger vs. toe) | Specify upper vs. lower extremity; finger or toe | Determines Q69.0/Q69.1/Q69.2 vs. Q70.0/Q70.1/Q70.2/Q70.3 |
| Laterality (bilateral vs. unilateral) | Right, left, or bilateral explicitly stated | ICD-10-CM does not include laterality at the Q69/Q70 character level; laterality documented for surgical/clinical notes |
| Preaxial vs. postaxial polydactyly | Thumb (preaxial/radial) vs. finger (postaxial/ulnar) | Q69.1 (thumb) vs. Q69.0 (finger); surgical CPT code selection differs |
| Wassel classification (thumb duplication) | Provider documents Wassel type I–VII or describes extent of skeletal duplication | Determines surgical approach and CPT code; supports medical necessity for complex reconstruction |
| Simple vs. complex syndactyly | Provider specifies soft-tissue only (simple) vs. bony fusion or shared nail (complex) | Q70.1/Q70.3 (webbed/simple) vs. Q70.0/Q70.2 (fused/complex); CPT 26560–26561 (simple) vs. 26562 (complex) |
| Complete vs. incomplete syndactyly | Extent of webbing: through full digit length or partial | Affects surgical planning documentation; supports CPT complexity selection |
| Syndromic vs. isolated | Provider documents associated syndrome (Apert, Bardet-Biedl, etc.) or states “isolated” | Additional codes needed (Q87.0 Apert, Q91.x Trisomy 13, etc.); HCC assignment may differ |
| Postaxial Type A vs. Type B | Describes well-formed digit with bony articulation (Type A) vs. nubbin/skin tag (Type B) | Type B nubbin → may use CPT 11200 (skin tag removal) or Q69.0; Type A → CPT 26587 |
When the operative report documents polydactyly repair but the query note or H&P only says “extra finger” without specifying anatomic type, query the surgeon: “The operative report identifies an extra digit. Can you please clarify whether this involves the (a) thumb/preaxial side, (b) small-finger/postaxial side, or (c) a central digit? Additionally, does the duplication involve bony structures (phalanx or metacarpal)? This information is required for ICD-10-CM specificity at the Q69 level.”
6. Anatomy & Pathophysiology
Normal Digit Development
Digital development occurs between weeks 4 and 8 of gestation. The limb bud undergoes patterning along three axes: proximal-distal (driven by FGF signaling from the apical ectodermal ridge), dorsal-ventral (WNT7A), and anterior-posterior (zone of polarizing activity secreting SHH). Digit number and identity are established by the SHH/PTCH/GLI pathway; mutations in these genes are among the most common causes of polydactyly and syndactyly, as detailed in World Journal of Orthopedics (2023).
Polydactyly Pathophysiology
Polydactyly results from aberrant anterior-posterior patterning of the developing limb bud. Posterior (postaxial) polydactyly is typically autosomal dominant with variable penetrance and is linked to mutations on chromosomes 13q21-q32. Preaxial (thumb/great toe) duplication is associated with mutations in the LMBR1 regulatory element upstream of SHH. Wassel thumb duplication arises from partial or complete duplication of the proximal-to-distal skeletal elements, resulting in seven distinct anatomic subtypes, per the Wassel classification (Clinical Orthopaedics and Related Research).
Syndactyly Pathophysiology
Syndactyly results from failure of the normal programmed cell death (apoptosis) in the interdigital web spaces between weeks 6 and 8 of gestation. In simple syndactyly, only the skin fails to separate; in complex syndactyly, bony elements from adjacent digits fuse or interdigitate. The HOXD13, FBXW4, and GJB3/GJB6 genes have been implicated in familial forms. Apert syndrome, the most severe syndromic form, is caused by gain-of-function mutations in FGFR2, resulting in complete complex syndactyly of all four fingers and both feet alongside craniosynostosis.
Wassel Classification (Thumb Duplication)
| Wassel Type | Skeletal Level of Duplication | Relative Frequency |
|---|---|---|
| Type I | Bifid distal phalanx (incomplete duplication) | 2% |
| Type II | Complete duplication of distal phalanx | 15% |
| Type III | Bifid proximal phalanx + complete distal phalanx duplication | 6% |
| Type IV | Complete duplication of proximal and distal phalanges | 43% (most common) |
| Type V | Bifid metacarpal + complete phalanx duplications | 10% |
| Type VI | Complete metacarpal and phalanx duplications | 4% |
| Type VII | Any of the above with triphalangeal component | 20% |
Source: Clinical Orthopaedics and Related Research (2017)
7. Medication Impact / Treatment
Polydactyly and syndactyly are structural congenital anomalies; pharmacologic therapy has no direct role in correcting the digit malformation itself. However, the following perioperative and syndromic medication considerations apply:
- General anesthesia: Required for pediatric surgical repair; typically administered as inhalation induction (sevoflurane) with regional nerve block (digital or wrist block) for postoperative analgesia. Anesthetic risk is discussed with the family during preoperative assessment.
- Corticosteroids (topical): Occasionally used postoperatively to manage hypertrophic scar formation at skin graft donor and recipient sites after syndactyly release.
- Antiepileptics (in utero exposure): Topiramate and valproic acid use during the first trimester has been associated with increased risk of congenital limb anomalies, per CDC birth defects risk factor data.
- Syndromic medication impact: Patients with Apert syndrome or Bardet-Biedl syndrome may be on multisystem therapies (cardiac medications, hormone replacement); these should be coded additionally if present at the time of the encounter.
Preview ends here. The full guide continues with FY2026 ICD-10-CM code sets, CPT surgical coding, MS-DRG mapping, reimbursement guidance, CDI query templates, and an audit checklist — all available to CCO Members.
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8. ICD-10-CM Guidelines (FY2026)
Polydactyly and syndactyly are classified in Chapter 17: Congenital Malformations, Deformations, and Chromosomal Abnormalities (Q00–Q99) of ICD-10-CM, per the FY2026 ICD-10-CM Official Guidelines.
Key FY2026 Chapter 17 Coding Rules
- Congenital anomaly as principal diagnosis: When a patient presents for a procedure to correct a congenital anomaly (e.g., polydactyly repair), the Q-code for the anomaly is assigned as the principal diagnosis. Do not use a sign/symptom code as principal when a definitive anomaly code is available.
- Corrected congenital anomaly — historical coding: Once a congenital malformation has been surgically corrected, assign a personal history code (Z87.398 — Personal history of other congenital malformations) for subsequent encounters. Do not continue assigning the active Q-code after full repair.
- Multiple congenital anomalies: When polydactyly or syndactyly occurs as part of a syndrome (e.g., Apert Q87.0), code the syndrome first, then add codes for any manifestations not included in the syndrome code, per the FY2026 guidelines Section I.C.17.
- Specificity requirement: Assign codes at the highest level of specificity. Use Q69.1 (thumb) rather than Q69.9 (unspecified) when the operative note or H&P confirms thumb involvement. Q69.9 is appropriate only when the provider has not specified the affected digit.
- Bilateral coding: ICD-10-CM Q69 and Q70 codes do not include laterality characters. If bilateral involvement is clinically significant, document it in the medical record; laterality will drive surgical CPT code reporting (separate codes for each extremity) rather than ICD-10 specificity.
- Postaxial polydactyly nubbin (skin tag): A rudimentary digit without bone attachment may be assigned Q69.0 (accessory fingers) or Q69.9. If the provider documents it only as a “skin tag” and there is no ICD-10-CM documentation of polydactyly, code L91.8 (other hypertrophic disorders of skin) may apply; query the provider for clarification.
Do not assign Q69.9 (polydactyly, unspecified) when the operative report or imaging clearly identifies whether the extra digit is on the thumb/preaxial side (→ Q69.1) or on the small-finger/postaxial side (→ Q69.0). Using unspecified codes when specificity is documented in the record is a common audit finding and may trigger payer queries for medical necessity support.
Syndactyly Coding Guidance
- Q70.0 (Fused fingers) vs. Q70.1 (Webbed fingers): Q70.0 implies complex syndactyly (bony or nail fusion); Q70.1 implies simple syndactyly (skin/soft-tissue web only). The provider must document whether bone is involved.
- Q70.4 Polysyndactyly: Used when both polydactyly and syndactyly are present in the same digit complex (e.g., an extra digit fused to an adjacent digit). This is distinct from a patient who has both Q69 and Q70 diagnoses on separate digits.
- Apert syndrome Q87.0: The tabular note at Q87.0 includes “Acrocephalosyndactyly [Apert]” and carries a Use additional code(s) to identify all associated manifestations instruction. Code Q87.0 as principal/primary for Apert; then add Q70.x codes to specify the type of syndactyly if additional detail is needed and not already captured in Q87.0.
9. ICD-10-CM Code Set (FY2026)
| Code | Description (FY2026) | Billable | Key Notes |
|---|---|---|---|
| Q69 | Polydactyly | No (category header) | Use a 4th-character subcode |
| Q69.0 | Accessory finger(s) | Yes | Postaxial polydactyly of the hand (small-finger/ulnar side); includes postaxial Type A and Type B finger duplications |
| Q69.1 | Accessory thumb(s) | Yes | Preaxial (radial) polydactyly of the hand; apply Wassel classification in documentation to support surgical CPT |
| Q69.2 | Accessory toe(s) | Yes | Polydactyly of the foot, all types (preaxial, postaxial, central); great toe duplication coded here |
| Q69.9 | Polydactyly, unspecified | Yes | Use only when digit site is truly undocumented; subject to payer queries |
| Q70 | Syndactyly | No (category header) | Use a 4th-character subcode |
| Q70.0 | Fused fingers | Yes | Complex syndactyly of fingers with bony and/or nail fusion; correlates with CPT 26562 |
| Q70.1 | Webbed fingers | Yes | Simple syndactyly of fingers (soft tissue only); correlates with CPT 26560–26561 |
| Q70.2 | Fused toes | Yes | Complex syndactyly of toes with bony fusion; surgical repair less common than finger complex syndactyly |
| Q70.3 | Webbed toes | Yes | Simple toe syndactyly; most common type; often not surgically treated unless great toe involved |
| Q70.4 | Polysyndactyly, unspecified | Yes | Coexisting polydactyly and syndactyly; used for Apert “mitten hand” when Q87.0 not yet documented; common in central polydactyly |
| Q70.9 | Syndactyly, unspecified | Yes | Use only when type is undocumented; avoid if simple vs. complex is specified anywhere in record |
| Q87.0 | Congenital malformation syndromes predominantly affecting facial appearance | Yes | Includes Apert syndrome (acrocephalosyndactyly); add Q70.x for specificity; AAPC ICD-10 Q87.0 |
| Q79.8 | Other congenital malformations of musculoskeletal system | Yes | Used for Poland sequence when associated with symbrachydactyly/polydactyly |
| Q91.4–Q91.7 | Trisomy 13 (nonmosaicism/mosaicism/translocation/unspecified) | Yes | Trisomy 13 (Patau syndrome) frequently presents with postaxial polydactyly; code trisomy as principal in neonatal setting |
| Z87.398 | Personal history of other congenital malformations | Yes | Assign after successful surgical correction of polydactyly or syndactyly for subsequent encounters |
FY2026 ICD-10-CM introduced no new codes specifically within Q69–Q70; however, the Chapter 17 congenital anomaly guidelines were reaffirmed regarding the use of personal history codes (Z87.398) following surgical correction. Review the patient’s problem list at each encounter — if polydactyly was surgically corrected in childhood, the Q69 code should not persist on adult encounter claims without documentation of residual or recurrent disease.
10. Indexing
Use the ICD-10-CM Alphabetic Index to locate polydactyly and syndactyly codes. Key index pathways:
| Index Entry | Subterm | Code |
|---|---|---|
| Polydactyly, polydactylism | (default) | Q69.9 |
| Polydactyly, polydactylism | fingers | Q69.0 |
| Polydactyly, polydactylism | toes | Q69.2 |
| Accessory | digit(s) | Q69.9 |
| Accessory | finger(s) | Q69.0 |
| Accessory | thumb | Q69.1 |
| Accessory | toe(s) | Q69.2 |
| Syndactyly, syndactylism | complex (with synostosis) | Q70.0 |
| Syndactyly, syndactylism | fingers without synostosis | Q70.1 |
| Syndactyly, syndactylism | toes without synostosis | Q70.3 |
| Syndactyly, syndactylism | toes with synostosis | Q70.2 |
| Polysyndactyly | (see also Syndactyly) | Q70.4 |
| Webbing | fingers — see Syndactyly, fingers | Q70.1 |
| Webbing | toes — see Syndactyly, toes | Q70.3 |
| Apert’s syndrome | (see Syndrome, Apert) | Q87.0 |
When indexing under “Webbing, fingers,” the index directs to Q70.1 (simple syndactyly). If the provider’s operative report documents bony fusion or synostosis, override the default index path and assign Q70.0 (fused fingers). Always verify the index lead-in against the Tabular List for final code assignment, per ICD-10-CM official convention.
11. CPT (2026)
Surgical repair of polydactyly and syndactyly is performed most commonly in the pediatric setting, typically between ages 6 months and 2 years depending on digit involved and severity. CPT codes are selected based on the type of anomaly corrected and surgical complexity, per AAPC CPT 2026.
| CPT Code | Description | Global Period | Notes / Clinical Context |
|---|---|---|---|
| 26587 | Reconstruction of supernumerary digit, soft tissue and bone | 90 days | Primary code for polydactyly repair when extra digit contains both soft tissue and bone (Wassel Types II–VI, Postaxial Type A); complete digit excision with collateral ligament reconstruction |
| 26560 | Repair of syndactyly, each web space; with skin flaps | 90 days | Simple syndactyly repair using local skin flaps only; no skin graft required; used for incomplete or mild webbing |
| 26561 | Repair of syndactyly, each web space; with skin flaps and grafts | 90 days | Simple syndactyly requiring both flaps and full-thickness skin graft (FTSG) for web space coverage; most common syndactyly CPT |
| 26562 | Repair of syndactyly, each web space; complex (e.g., involving bone, nails) | 90 days | Complex syndactyly: includes osteotomy, bone excision, or shared nail plate reconstruction; longer OR times; increased complication profile |
| 26580 | Repair of cleft hand | 90 days | Used for central polydactyly with associated cleft (split) hand deformity; may be used alongside Q70.4 or central polydactyly coding |
| 11200 | Removal of skin tags, multiple fibrocutaneous tags, any area; up to and including 15 lesions | 10 days | Appropriate for postaxial Type B rudimentary digit (nubbin) without bony attachment; simpler than 26587; verify no bony component on X-ray before using 11200 |
| 26520 | Capsulectomy or capsulotomy; metacarpophalangeal joint, each joint | 90 days | May be required for severe contracture following delayed syndactyly repair or failed primary repair; not a primary polydactyly/syndactyly code |
| 26525 | Capsulectomy or capsulotomy; interphalangeal joint, each joint | 90 days | Used for IP joint contracture secondary to syndactyly or post-polydactyly repair scarring |
CPT 26560–26562 are reported per web space. If two adjacent web spaces are released in the same operative session (e.g., 2nd/3rd and 3rd/4th web spaces), report the code twice with modifier -51 (multiple procedures) on the second procedure. Do not report a single code for bilateral or multi-web space repairs without appropriate modifiers and documentation of each web space addressed.
When a skin graft harvest is performed as part of syndactyly repair and the surgeon separately documents the donor site preparation, CPT 15040 (harvest of skin for tissue cultured skin autograft) or a split-thickness skin graft code may be added only if the graft work is performed at a separate donor site and documented as a distinct procedure. Most syndactyly repairs use full-thickness skin grafts (FTSG) from the groin or wrist crease that are inherently included in CPT 26561.
12. HCPCS (2026)
HCPCS Level II L-codes for orthotics are used post-operatively following polydactyly and syndactyly repair. Custom or prefabricated finger and hand orthoses support digit alignment, prevent web creep, and protect skin grafts during the healing phase. Orthotics are supplied by certified orthotists or hand therapists and billed using the appropriate L-code, per American Society of Hand Therapists (ASHT) coding guidance.
| HCPCS Code | Description | Typical Post-op Use |
|---|---|---|
| L3904 | Wrist-hand-finger orthosis (WHFO), without joints, prefabricated, off-the-shelf | Post-syndactyly or polydactyly repair; immobilization of wrist and digits during early healing phase |
| L3906 | Wrist-hand-finger orthosis (WHFO), without joints, custom fabricated | Custom thermoplastic splint post-repair when standard sizing is insufficient; common in Apert syndrome or bilateral repair |
| L3808 | Wrist-hand-finger orthosis (WHFO), includes one or more nontorsion joints, prefabricated, off-the-shelf | Dynamic splinting to prevent web creep after syndactyly release; used in extended splinting protocols |
| L3900 | Wrist-hand-finger orthosis (WHFO), dynamic flexion and extension, custom fabricated | Dynamic orthosis for scar management and range-of-motion maintenance following complex syndactyly repair |
| L3960 | Shoulder-elbow-wrist-hand orthosis (SEWHO), bilateral, custom fabricated | Post-op immobilization for bilateral repairs or Apert syndrome patients requiring bilateral simultaneous repair |
When billing HCPCS L-codes, append the appropriate modifier: RT (right side) or LT (left side) for unilateral orthoses, or NU (new equipment) when applicable. L-codes include the evaluation, fabrication, and fitting; bill CPT 97760 separately for orthotic training if performed.
13. AHA Coding Clinic (Recent Guidance)
No AHA Coding Clinic advisory has been published specifically addressing Q69 or Q70 polydactyly/syndactyly coding controversies in FY2024–FY2026. The following general Chapter 17 Coding Clinic principles apply:
| Topic | Coding Clinic Reference | Guidance Summary |
|---|---|---|
| Congenital anomaly personal history after correction | AHA Coding Clinic, Q4 2013; reaffirmed Q1 2017 | Once a congenital malformation is fully surgically corrected, use Z87.398 for subsequent encounters; the Q-code should not be reassigned at follow-up visits when the anomaly is no longer present |
| Coding congenital anomalies in adults | AHA Coding Clinic, Q1 2017 | Q-codes may be assigned in adult patients if the congenital condition persists and has not been corrected; an adult presenting with uncorrected polydactyly for the first time still receives the appropriate Q69.x code |
| Multiple congenital anomalies in a single encounter | AHA Coding Clinic, Q3 2020 | All clinically relevant congenital anomalies at the encounter may be coded; sequence the anomaly most relevant to the encounter as principal diagnosis |
| Syndromic vs. isolated anomaly coding | AHA Coding Clinic, Q2 2018 | When a syndrome code (e.g., Q87.0 Apert) encompasses the anomaly, code the syndrome; add manifestation codes not integral to the syndrome definition for specificity |
Note: Coders should verify for any new Coding Clinic advisories published after Q1 2026 via the AHA Central Office.
14. HCC / Risk Adjustment (v28)
Under the CMS-HCC Model V28 (fully operative as of January 1, 2026), polydactyly and syndactyly codes Q69.x and Q70.x do not map to a payment HCC category for adult Medicare Advantage beneficiaries. This is consistent with CMS’s V28 structural decision to remove conditions that, while congenital, carry low chronic disease burden in an adult MA population after surgical correction.
However, the following HCC-relevant considerations apply:
- Syndromic conditions: When polydactyly or syndactyly is part of a systemic syndrome, the syndrome code may carry HCC weight. For example, Down syndrome (Q90.x) maps to HCC 224 (Chromosomal and Polygenetic Disorders and Congenital Malformations) in CMS-HCC V28.
- Pediatric RAF (PACE/CHIP): In pediatric risk adjustment programs, congenital digit anomalies may contribute to higher-risk coding classifications depending on program-specific models. Q69 and Q70 codes remain clinically important for pediatric encounter documentation.
- HCC capture best practice: Ensure all co-morbid conditions present at the encounter (cardiac anomalies in Apert syndrome, renal anomalies in Bardet-Biedl) are coded, as these are the primary HCC drivers in syndromic polydactyly/syndactyly patients.
| ICD-10-CM Code | HCC v28 Mapping | Relative RAF Weight | RAF Impact Notes |
|---|---|---|---|
| Q69.0–Q69.9 (Polydactyly) | No HCC mapping (V28) | 0.000 | Does not contribute to MA risk score; document for clinical accuracy only |
| Q70.0–Q70.9 (Syndactyly) | No HCC mapping (V28) | 0.000 | Does not contribute to MA risk score; document for clinical accuracy only |
| Q87.0 (Apert syndrome) | HCC 224 (Chromosomal/Polygenetic Disorders) | Moderate (varies by age) | Apert syndrome and other congenital multi-system syndromes do map in V28; ensure annual documentation |
| Q90.x (Down syndrome) | HCC 224 | Moderate | Down syndrome with associated digit anomalies; HCC captured via Q90, not Q70 |
| Q91.4–Q91.7 (Trisomy 13) | HCC 224 | High (neonatal/pediatric) | Trisomy 13 with polydactyly; typically neonatal setting; high complexity HCC |
15. CDI Query Templates
The following query templates conform to AHIMA and ACDIS standards for compliant CDI queries: non-leading, multiple-choice format, clinically based, with documentation support cited.
| Clinical Scenario | Query Wording (Non-Leading, Multiple Choice) |
|---|---|
| Operative report documents “polydactyly repair” — digit not specified |
Physician Query — Polydactyly Type Clarification The operative note dated [DATE] documents repair of polydactyly. To support complete and accurate ICD-10-CM coding, please clarify the anatomic site of the extra digit: (a) Thumb (preaxial/radial side, hand) (b) Finger other than thumb (postaxial/ulnar side, hand) (c) Great toe (preaxial, foot) (d) Toe other than great toe (foot) (e) Clinically undetermined Please document your response in the medical record. |
| Syndactyly diagnosed but simple vs. complex not documented |
Physician Query — Syndactyly Type Clarification The medical record dated [DATE] references syndactyly of the fingers. To accurately assign the ICD-10-CM code (which distinguishes between soft-tissue webbing and bony fusion), please clarify: (a) Simple syndactyly — soft tissue/skin webbing only, no bone involvement (b) Complex syndactyly — involves bony fusion, synostosis, or shared nail plate (c) Clinically undetermined at this time Please document your response in the medical record. |
| Polydactyly with associated syndrome not specified |
Physician Query — Associated Syndrome Clarification The patient’s record dated [DATE] documents polydactyly/syndactyly. The clinical findings [describe: craniosynostosis / renal anomaly / cardiac defect / developmental delay] may suggest an underlying congenital syndrome. Can you please clarify whether this is: (a) Isolated polydactyly/syndactyly (no associated syndrome) (b) Apert syndrome (acrocephalosyndactyly) (c) Bardet-Biedl syndrome (d) Down syndrome (Trisomy 21) (e) Trisomy 13 (Patau syndrome) (f) Other syndrome — please specify: ___________ (g) Clinically undetermined Please document your response in the medical record. |
| Post-op visit, Q69 active on problem list — history of prior repair |
Physician Query — Status of Corrected Congenital Anomaly The patient’s problem list includes active polydactyly (Q69). Per review of prior records, surgical repair was performed on [DATE/YEAR]. Is the polydactyly: (a) Fully corrected — no residual anomaly or symptoms (→ Personal history, Z87.398 appropriate) (b) Partially corrected — residual deformity or functional deficit present (→ Q69.x remains appropriate) (c) Recurrent or requiring additional surgery Please document your response in the medical record. |
For thumb polydactyly: when the operative report references the Wassel classification verbally (e.g., “Wassel IV thumb duplication”) but the preoperative H&P only documents “extra thumb,” issue a concurrent query to ensure the preoperative assessment note is updated to reflect the specific Wassel type. This supports medical necessity documentation for complex thumb reconstruction (CPT 26587) versus simple skin tag removal (CPT 11200).
16. Treatments (Clinical)
Polydactyly Treatment
Surgical excision is the only definitive treatment for polydactyly. Timing and technique depend on polydactyly type, as summarized below, per Clinical Orthopaedics and Related Research (2017):
- Postaxial Type B nubbin (rudimentary digit): Simple suture ligation may be performed in the newborn nursery; definitive surgical excision under anesthesia is performed at 6–12 months to prevent neuroma and ensure complete removal. CPT 11200 or CPT 26587 depending on tissue composition.
- Postaxial Type A (well-formed extra digit): Surgical excision of the supernumerary digit with collateral ligament reconstruction at 6–18 months; CPT 26587.
- Preaxial (Wassel thumb duplication):
- Wassel Types II, IV, VI: Ablation of the smaller/more radial thumb with collateral ligament reconstruction; typically 12–24 months of age.
- Wassel Types I, III, V (bifid elements): Bilhaut-Cloquet combination procedure (combining both halves) or ablation with ligament transfer; risk of physeal injury with early surgery, so often deferred to 3+ years for bifid types.
- Wassel Type VII (triphalangeal): Ablation of triphalangeal thumb with potential osteotomy.
- Central polydactyly: Complex reconstruction; often involves ray resection and digital transposition; performed by experienced pediatric hand surgeons at 12–24 months.
Syndactyly Treatment
Surgical separation is indicated for all hand syndactylies except isolated middle-ring webbing in certain cases, per Hospital for Special Surgery:
- Thumb-index finger syndactyly: Urgent early release (before 6 months of age) to prevent thumb-growth restriction and functional deficit.
- Small-ring finger syndactyly: Release before 12 months due to digit-length discrepancy causing progressive deformity.
- Ring-middle-index finger syndactyly: Repair typically at 12–24 months; similar digit lengths allow delayed intervention.
- Surgical technique: Dorsal and palmar skin flaps with full-thickness skin graft (FTSG) harvested from the groin to cover the bare web space. The dorsal commissure flap is the most critical element to prevent “web creep” (scar migration distally).
- Complex syndactyly (Apert syndrome): Staged releases in multiple operations beginning at 12–18 months; typically requires 4–6 surgeries to release all web spaces bilaterally; skin grafts from groin or other donor sites.
- Postoperative care: Long-arm cast or rigid splint for 3–4 weeks; custom WHFO orthosis for 3–6 months to prevent web creep; night splinting may extend to 2 years post-repair.
- Toe syndactyly: Generally does not require surgery unless involving the great toe with functional impairment; aesthetic repair may be performed at parental request.
17. Patient Education / Summary
What Are Polydactyly and Syndactyly?
Polydactyly means having an extra finger or toe that was present from birth. Syndactyly means two or more fingers or toes are joined together with skin or bone. Both are common birth differences — polydactyly affects about 1 in every 500–1,000 newborns, making it one of the most frequently seen congenital hand conditions, per EBSCO Health research.
Do These Conditions Always Need Surgery?
Most cases of polydactyly require surgery to remove the extra digit and reconstruct the hand or foot for normal function and appearance. Simple toe syndactyly between the second and third toes often does not cause problems and may not need treatment. Finger syndactyly — especially involving the thumb — typically does require surgery to allow normal finger growth and hand function, as explained by Hospital for Special Surgery.
When Is Surgery Performed?
Most hand surgeries for polydactyly and syndactyly are performed when children are between 6 months and 2 years old. This timing minimizes anesthesia risk while ensuring the hand can develop normally. Thumbs involved in syndactyly may be released even earlier (before 6 months) to prevent growth restriction.
What Happens After Surgery?
After surgery, children wear a cast or splint for several weeks, followed by a custom hand splint or brace for several months. Physical or occupational therapy may be needed to regain full range of motion. Most children achieve excellent functional and cosmetic results.
Is This Hereditary?
Many forms of polydactyly and syndactyly run in families and can be passed down from parents to children. However, many cases occur without a family history. When polydactyly or syndactyly is part of a broader syndrome (such as Apert or Bardet-Biedl syndrome), genetic counseling is recommended for the family, per World Journal of Orthopedics (2023).
Key Takeaways for Documentation (CDI Summary)
- Specify which digit is affected (thumb, finger, toe) and which side (preaxial vs. postaxial).
- For thumb duplication: document Wassel type to support surgical coding.
- For syndactyly: document simple (soft tissue only) vs. complex (with bone or nail fusion).
- Document any associated syndrome (Apert, Bardet-Biedl, trisomy 13, etc.).
- After successful repair: update the problem list to reflect corrected status and use personal history code Z87.398.
About this Guide
This Clinical Documentation Guide is published by CCO Academy and is intended for credentialed coding, CDI, and clinical documentation professionals. Content is updated for FY2026 ICD-10-CM (effective October 1, 2025). All code assignments should be verified against the official ICD-10-CM Tabular List, AHA Coding Clinic, and applicable payer-specific policies. This guide does not constitute legal, medical, or compliance advice.
Last reviewed: April 2026 · Next scheduled review: October 2026 (FY2027 update)
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