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Scaphoid fracture

A scaphoid fracture is a break in the , the largest of the eight in the , located on the thumb side near the base of the hand. It represents the most common carpal , comprising 60-70% of all carpal fractures and 2-7% of total fractures overall. These injuries typically result from a fall on an outstretched hand, which applies axial loading to the in a position of hyperextension and radial deviation, often seen in sports, accidents, or everyday falls. The scaphoid's unique anatomy contributes to the challenges of these fractures: it articulates with both the proximal and distal rows of carpal bones, facilitating wrist motion, but receives its blood supply primarily from branches of the radial artery in a retrograde fashion from the distal to proximal pole. This vascular pattern predisposes proximal pole fractures—about 25% of cases—to avascular necrosis due to disrupted blood flow, while waist fractures (65% of cases) and distal fractures (10%) have better perfusion. Scaphoid fractures are most prevalent in young adults, with a mean age of 29 years, and occur more frequently in males, accounting for around 15% of acute wrist injuries. Symptoms often include immediate pain and swelling at the base of , tenderness in the anatomic snuffbox (a depression on the radial side of the wrist), and reduced , particularly with gripping or wrist deviation; these can mimic a simple , leading to misdiagnosis in up to 25% of initial presentations. relies on findings like snuffbox tenderness, followed by imaging: standard X-rays (posteroanterior, lateral, and scaphoid views) detect most fractures, but occult ones require MRI (with 97.7% sensitivity) or for confirmation. Treatment depends on fracture location and : non-displaced fractures, especially distal ones, are managed conservatively with thumb spica cast for 6-12 weeks, achieving union rates up to 90% if displacement is less than 1 mm. Displaced fractures (>1 mm), proximal pole injuries, or non-unions necessitate surgical intervention, such as open reduction and with screws or , often via a volar approach. Recovery typically spans 3-6 months, involving to restore strength and mobility, though complications like non-union (14-50% in displaced cases), (30-40%), or can lead to and disability if untreated.

Anatomy and Pathophysiology

Scaphoid bone structure

The scaphoid is the largest bone in the proximal row of , forming the radial border of the and bridging the to the hand. It is positioned obliquely between the distal radius proximally and the capitate in the distal carpal row distally, contributing to the overall architecture of the joint. This boat-shaped bone, also known as the navicular, measures approximately 2.6 cm in length on average, with its elongated form allowing it to span both carpal rows. Approximately 80% of the scaphoid's surface is covered by articular cartilage, making it highly intra-articular and limiting areas for vascular penetration. It articulates proximally with the scaphoid facet of the distal radius, ulnarly with the lunate, distally with the capitate, and radially with the and bones in the distal row. On its palmar surface, the scaphoid features a prominent that serves as an attachment site for ligaments and a for the flexor carpi radialis , which runs through a shallow groove adjacent to the tubercle. Biomechanically, the scaphoid plays a critical role in stability by linking the proximal and distal carpal rows, acting as a against compressive forces and preventing excessive translation. It transmits about 45-55% of the load across the radiocarpal depending on wrist position, with peak pressures reaching 1.4 MPa during motion. During carpal , the scaphoid flexes and supinates in extension while exhibiting reciprocal motion in radial-ulnar deviation, coordinating synchronous movement of the carpal rows for flexion-extension and deviation. Morphological variations in scaphoid size and shape exist across populations, influenced by factors such as , , and ; for instance, average length ranges from about 22.5 mm in some Asian groups to 31 mm in Western males. These differences include variations in width, prominence, and overall curvature, which can affect surgical planning but generally maintain functional consistency. The bone's retrograde blood supply from distal branches of the renders proximal portions vulnerable to in certain injuries.

Blood supply and healing challenges

The scaphoid bone derives its primary blood supply from branches of the , with the dorsal carpal branch entering through a nonarticular on the dorsal surface and perfusing approximately 80% of the bone in a fashion toward the proximal pole. A smaller volar contribution, about 20%, arises from branches of the (a volar derivative) that enter the distal . This flow pattern relies heavily on intraosseous branching from these entry points, making the vascular network vulnerable to disruption by fractures that interrupt the limited collateral pathways. The proximal pole receives a tenuous supply primarily from small dorsal ridge vessels, creating a watershed zone where perfusion is marginal and dependent on retrograde intraosseous collaterals. Fractures in this region can sever these vessels, leading to ischemia and a high propensity for (), with rates up to 30% for proximal pole injuries. In contrast, the distal and waist regions benefit from more direct vascular access, though overall scaphoid vascularity remains poorer than in other , which typically have more redundant extraosseous and intraosseous networks supporting robust . These vascular limitations contribute to significant healing challenges, including delayed union that can extend 12-24 weeks for proximal s due to slow and limited nutrient delivery. occurs in 5-10% of cases, often resulting from inadequate formation and persistent fibrous tissue at the site, while the risk of osteonecrosis further complicates outcomes by causing and collapse. Histologically, scaphoid shows reduced vascular and osteoblastic activity compared to other , where denser capillary ingrowth promotes more efficient and primary union.

Etiology and Classification

Mechanism of injury

The primary mechanism of injury for scaphoid fractures is a fall on an outstretched hand (FOOSH) with the in forced hyperextension and radial deviation, resulting in axial along the radial column of the and forces across the scaphoid. This position causes the scaphoid to act as a compressive between the and capitate, transmitting high-energy loads proximally through the . Due to the scaphoid's unique position in the proximal carpal row, where it bridges the proximal and distal rows while articulating with the distal , lunate, capitate, and , the energy from such impacts concentrates at the waist or proximal pole, leading to fracture as the bone impinges on the dorsal rim of the . Biomechanical cadaveric studies demonstrate that axial loads exceeding 2 kN applied in extension can induce scaphoid failure, with fracture thresholds around 2.75 kN in simulated models. Alternative mechanisms include direct trauma from contact sports, such as hyperextension or ulnar deviation during athletic activities, and high-impact events like accidents, where impacts or sudden loading produce similar compressive or bending forces. Less commonly, repetitive stress in athletes (e.g., gymnasts or shot putters) can lead to fatigue fractures without acute FOOSH. Scaphoid fractures are frequently associated with other injuries, including ligament disruptions and concurrent carpal or fractures; for example, scapholunate ligament tears occur in approximately 70% of acute waist fractures based on arthroscopic evaluations, while combined scaphoid and distal radius fractures are reported in 0.7-4% of upper extremity trauma cases.

Fracture types and classification

Scaphoid fractures are classified based on their anatomical location within the bone, which influences stability, potential, and risk of complications such as (). Proximal pole fractures, comprising approximately 25% of cases, occur in the segment closest to the and carry a high risk of due to retrograde blood supply. Waist fractures, the most common type at 65-70%, involve the central portion of the scaphoid and are generally more amenable to if nondisplaced. Distal pole and fractures account for approximately 10% and are often stable, with the being an from ligamentous attachments. The Herbert classification, introduced in and the most widely cited system, categorizes fractures by stability, , and healing stage to guide management decisions. Type A represents stable acute fractures, including A1 ( avulsion) and A2 (nondisplaced cracks). Type B denotes unstable acute fractures, with subtypes such as B1 (distal oblique fracture), B2 (complete fracture), B3 (proximal pole), B4 (fracture ), and B5 (comminuted fracture). Type C indicates delayed union, while Type D signifies established , further subdivided into D1 (fibrous) and D2 (sclerotic). Subtypes emphasize greater than 1 mm as a marker of across categories. Other classification systems provide complementary perspectives, particularly for pattern and surgical planning. The Russe , based on the orientation of the line relative to the scaphoid's long axis, includes Type I (horizontal oblique, most stable), Type II (transverse), and Type III (vertical oblique, least stable due to shear forces). The /OTA system (code 72) focuses on and location for operative approaches, dividing into 72-A (extra-articular, noncomminuted, by or ), 72-B (partial articular, ), and 72-C (complete articular, highly ). Instability in scaphoid fractures is often determined by displacement criteria, including a step-off greater than 1 mm on or a radiolunate exceeding 15 degrees, which disrupts carpal alignment and predicts poor outcomes. Additionally, 15-20% of scaphoid fractures are , meaning they are not visible on initial radiographs despite clinical suspicion, necessitating advanced for confirmation.

Clinical Presentation

Signs and symptoms

Patients with a scaphoid fracture typically experience acute pain localized to the radial aspect of the , particularly in the , which is the depression on the thumb side of the hand formed by the extensor and abductor pollicis longus tendons. This pain is often exacerbated by specific maneuvers, such as axial loading of the (applying pressure along the long axis of the toward the hand) or pinching with , and may radiate proximally along the radial in some cases. Symptoms usually onset immediately or within days following injury, though the intensity can vary depending on fracture location, with proximal pole fractures potentially causing more subtle initial discomfort. Swelling and tenderness are prominent features, most commonly over the but occasionally extending to the dorsal . Tenderness is highly sensitive for detecting the injury, often elicited by direct palpation of the scaphoid tubercle on the volar (palm-side) aspect or the snuffbox dorsally. Bruising may appear along the thumb side of the , contributing to visible ecchymosis in moderate to severe cases. Functional limitations are evident early, including significantly reduced compared to the uninjured side and difficulty with activities requiring stability, such as radial deviation (bending the toward the thumb), pronation (rotating the palm-down), or on the hand. intensifies with resisted pronation or gripping objects, limiting daily tasks like turning a doorknob or holding tools. In displaced fractures, (a grating sensation) may be palpable during motion due to bone fragment instability. Atypical presentations occur in up to 20% of nondisplaced fractures, where symptoms may be minimal or absent initially, mimicking a simple wrist sprain with only mild discomfort and no obvious deformity. These occult cases often involve subtle tenderness without significant swelling, delaying recognition until persistent pain prompts further evaluation.

Initial assessment

The initial assessment of a suspected scaphoid fracture begins with a detailed history to identify the mechanism of injury, which typically involves a fall on an outstretched hand (FOOSH) with the in hyperextension and radial deviation, or axial loading from direct , often seen in contact sports or accidents. Patients usually report acute onset of pain in the radial immediately following the trauma, along with any history of prior injuries or risk factors such as high- athletic participation that may predispose to such fractures. This step helps establish suspicion, particularly in young adults where these injuries are prevalent. Physical examination focuses on targeted maneuvers to elicit pain indicative of scaphoid involvement, starting with for swelling or ecchymosis in the anatomic snuffbox region. The anatomic snuffbox tenderness test, performed by applying pressure in the depression between the extensor pollicis longus and brevis tendons, demonstrates high sensitivity of approximately 90-100% for detecting scaphoid s, though its specificity is lower at around 30-50%. Additional tests include the scaphoid compression test, where longitudinal pressure is applied axially through the first metacarpal using the examiner's thumb and , reproducing in the presence of fracture; and assessment of , revealing limitations in flexion, extension, and radial deviation due to guarding. Axial compression of the thumb may also provoke localized to the scaphoid. Differential diagnosis during initial evaluation must consider conditions mimicking scaphoid injury, such as , scapholunate dissociation, or de Quervain's tenosynovitis, which may present with overlapping radial wrist pain but differ in tenderness location or associated findings like . Red flags warranting urgent attention include signs of neurovascular compromise, such as diminished , sensory deficits, or weak pulses in the hand, as well as open wounds suggesting compound injury that could lead to infection. Smoking history should be noted as a that approximately doubles the risk of . Documentation of the assessment includes recording specific exam findings, such as the location and severity of tenderness, alongside baseline functional status using standardized tools like the QuickDASH questionnaire to quantify upper extremity disability for future comparison. This comprehensive approach ensures a high index of suspicion to guide subsequent steps without delay.

Diagnosis

Imaging modalities

Plain radiographs remain the initial imaging modality of choice for suspected scaphoid fractures due to their accessibility and low cost. Standard views include posteroanterior (), lateral, and dedicated scaphoid views, with the latter involving ulnar deviation and a 20-40° cranial tube angulation to minimize superimposition and elongate the scaphoid. A clenched-fist PA view may be added to assess for associated scapholunate instability. Initial sensitivity for detecting fractures is approximately 70-90%, though up to 16% of fractures may be on presentation. For occult fractures or when plain radiographs are inconclusive, advanced imaging is essential. Magnetic resonance imaging (MRI) is considered the gold standard, offering 94-100% sensitivity and 98% specificity for detecting occult fractures, bone marrow edema, and early avascular necrosis (AVN). T1-weighted coronal sequences best visualize cortical disruptions, while short tau inversion recovery (STIR) or T2-weighted images highlight edema. Computed tomography (CT) provides superior bony detail with 0.5-1 mm resolution, making it ideal for precise measurement of displacement (sensitivity 81.5%, specificity 96%) and preoperative planning in displaced cases. Bone scintigraphy, involving three-phase technetium-99m bone scans, is occasionally used when nonunion is suspected, showing focal tracer uptake with around 93% and specificity 91%; however, it is less favored due to exposure, a 72-hour delay for optimal results, and availability of non-radiating alternatives like MRI. is an emerging, non-ionizing option particularly useful in emergency settings for assessing injuries such as radiocarpal effusions or disruptions associated with scaphoid fractures, with overall of 85% and specificity 86%; it is limited for detailed evaluation, especially in the proximal pole, due to acoustic shadowing and operator dependence. In cases of high clinical suspicion but negative initial radiographs, a serial imaging protocol is recommended, typically involving repeat plain radiographs at 10-14 days to detect evolving fractures as resorption occurs, thereby avoiding unnecessary advanced imaging in up to 25% of occult cases.

Diagnostic challenges

Diagnosing scaphoid fractures presents significant challenges due to their frequent occult nature on initial imaging, with 20% to 25% of clinically suspected cases not visible on initial X-rays owing to minimal displacement or bony overlap. This low visibility stems from the scaphoid's oblique orientation and the fracture's subtle cortical disruption in non-displaced injuries, leading to potential delays in treatment and increased risk of complications such as nonunion. Studies indicate that initial plain radiographs have a sensitivity of approximately 86% for detecting scaphoid fractures, underscoring the high rate of initial misses. False negatives are particularly common in the acute phase, with radiographic ranging from 66% to 81% in the first week post-injury, exacerbated in elderly patients or those with high pain thresholds who may underreport symptoms. In such populations, atypical presentations like reduced tenderness can further obscure , as clinical signs alone have limited specificity. Overall, up to 40% of fractures may be missed on initial radiographs, necessitating a high index of suspicion based on mechanism of injury. Overdiagnosis risks arise when distinguishing acute fractures from stress injuries, as repetitive loading can produce similar radiographic lines without acute , potentially leading to unnecessary if not correlated with clinical history. Proper requires integrating activity levels and symptom onset patterns to avoid overtreatment of benign reactions mimicking acute . Timing compounds these issues, as early X-rays often fail to show fracture lines, with bone resorption or periosteal reaction typically becoming evident only after 10 to 14 days, prompting recommendations for interim splinting in suspected cases to prevent displacement. During this window, repeat imaging is essential for confirmation, as initial negatives do not reliably rule out injury. For early detection of occult fractures, MRI is preferred over CT due to its superior sensitivity for trabecular disruptions and soft tissue assessment, aligning with 2024 guidelines that advocate its use as the gold standard to reduce diagnostic delays and costs associated with prolonged casting. While CT excels in cortical detail, MRI's higher accuracy (up to 100% sensitivity) makes it more cost-effective for confirming or excluding fractures in clinically suspicious cases without initial radiographic evidence.

Management

Conservative treatment

Conservative treatment is indicated for stable scaphoid fractures that are nondisplaced or minimally displaced, typically with less than 1 mm of and less than 15° of angulation, as these features predict high rates without . This approach is particularly suitable for Herbert Type A (stable acute fractures, such as incomplete or complete non-displaced fractures) and select stable Herbert Type B (acute unstable but nondisplaced fractures, like oblique or proximal compression types) lesions, where the risk of is low. Such management prioritizes to promote natural healing, especially for fractures in the distal pole or waist with adequate blood supply. The cornerstone of conservative treatment involves immobilization in a to restrict motion at the and , preventing further and facilitating . A short-arm is commonly used for the initial 4-6 weeks, incorporating the in opposition and extending to the interphalangeal joint, while some protocols include above-elbow extension for proximal pole fractures to further limit rotation. Union rates with this method range from 85% to 90% for nondisplaced waist fractures, though healing may take longer in proximal locations due to poorer vascularity. Follow-up care includes weekly clinical assessments to monitor for signs of , such as increased or swelling, alongside serial radiographs at 6 and 12 weeks to evaluate healing progress. Advanced imaging like may be employed if plain films are inconclusive, with confirmed by continuous trabecular bridging across at least 50% of the fracture site. For cases of delayed , adjunctive therapies such as pulsed electromagnetic fields (PEMF) can be considered to stimulate osteogenesis, with from clinical trials and reviews showing potential benefits in accelerating healing without invasive intervention, though results vary and are most supportive for established nonunions. Treatment duration typically spans 8-12 weeks for waist fractures, with cast changes as needed based on radiographic , while proximal pole fractures may require up to 20 weeks of to achieve reliable union.

Surgical options

Surgical intervention for scaphoid fractures is indicated in cases of greater than 1 mm, proximal pole fractures due to their limited vascular supply, or failure of leading to , particularly for Herbert types C (unstable) and D (displaced or sclerotic). Percutaneous screw fixation is a preferred minimally invasive technique for stable or minimally displaced fractures, utilizing cannulated screws such as the Herbert or Acutrak designs to achieve compression across the fracture site, with reported union rates exceeding 95% in multiple studies. For comminuted or highly unstable fractures, open reduction and (ORIF) allows direct visualization and anatomical reduction, often combined with to restore alignment and stability. In cases of (AVN) or established , vascularized bone grafts are employed to promote and healing; a common approach uses the 1,2-intercompartmental supraretinacular artery (1,2-ICSRA) pedicle from the distal , harvested as a corticoperiosteal graft and inserted into the scaphoid defect following , yielding union rates of 80-90% in proximal pole nonunions. Recent advances include the 2020 Scaphoid Waist Internal Fixation for Fractures Trial (SWIFFT), a multicenter randomized demonstrating that surgical fixation achieves faster radiographic (median 6.8 weeks) compared to cast immobilization (median 12.0 weeks), though patient-reported outcomes were similar at 12 months.30931-4/fulltext) Post-2022 studies have validated patient-specific 3D-printed surgical guides for fixation, improving screw placement accuracy and reducing operative time in delayed or minimally displaced fractures.00228-7/fulltext) Additionally, (PRP) has been investigated as a biologic adjunct to fixation, showing potential to enhance pain relief and functional scores in cases, though evidence remains mixed for routine use. Postoperative care typically involves short-term immobilization in a well-padded below-elbow splint or cast for 2-4 weeks to protect the fixation while allowing early motion, followed by structured protocols emphasizing range-of-motion exercises, strengthening, and grip activities to restore function within 6-12 weeks.

Complications and Prognosis

Potential complications

Scaphoid fractures are prone to several acute and subacute complications due to the bone's unique retrograde blood supply and mechanical stresses at the wrist. These include nonunion, avascular necrosis, delayed union, infection following surgical intervention, and malunion. Early recognition through imaging and clinical follow-up is essential to mitigate progression to chronic issues. Nonunion occurs when the fracture fails to heal, resulting in persistent separation of fragments. The overall incidence is approximately 5-10% for nondisplaced fractures treated conservatively, rising to 10-15% after surgical fixation. For proximal pole fractures, the rate increases to 30-40%, primarily attributable to compromised vascularity in this region, where blood supply enters distally and flows retrogradely. Risk factors include fracture displacement, delayed diagnosis, smoking, and proximal location. Nonunion is diagnosed via serial radiographs showing lack of bridging callus after 12-16 weeks, often necessitating revision surgery such as bone grafting. Avascular necrosis (AVN) involves ischemic death of bone tissue, most commonly affecting the proximal pole due to its tenuous blood supply. The incidence reaches 15-30% in proximal fractures and up to 50% in untreated or delayed cases. AVN is diagnosed radiographically by the absence of subchondral resorption (analogous to the Hawkins sign in other bones) on X-rays at 6-8 weeks post-injury, or via MRI showing low signal intensity in the proximal fragment. This complication can lead to fragmentation and collapse if untreated, often requiring vascularized bone grafts for salvage. Delayed union is defined as failure to achieve radiographic union beyond 12 weeks post-injury, though bridging may eventually occur with extended . Incidence varies but is estimated at 10-20% in stable fractures, influenced by risk factors such as , fracture greater than 1 mm, and inadequate initial . Management typically involves prolonged casting or surgical stabilization, with most cases progressing to union by 6 months. is a rare postoperative complication, occurring in less than 1% of cases following open reduction and internal fixation. It presents as , swelling, and drainage, often due to during surgery. Treatment includes antibiotics and, if necessary, surgical to prevent spread to deeper tissues. Malunion results from improper alignment during , leading to a characterized by volar flexion and shortening of the scaphoid. This occurs in up to 10% of untreated displaced , causing carpal instability and altered . The is identified on lateral radiographs by increased scaphoid-lunate (>60°) or intrascaphoid (>35°), potentially requiring and grafting for correction.

Long-term outcomes

The long-term outcomes of scaphoid s depend on factors such as location, , and treatment modality, with most patients achieving bony and satisfactory function when managed appropriately. For non-displaced or minimally displaced treated conservatively with , rates reach approximately 90% within 6-8 weeks, while surgical fixation achieves in 95-99% of cases, often with faster times. Patients typically return to work or sports 8-12 weeks post-treatment, with surgical intervention allowing an earlier resumption by 2-3 weeks compared to . Functional recovery is generally favorable, with 80-90% of patients regaining near-full wrist and after union, though up to 20% experience persistent weakness or reduced endurance in demanding activities. Patient-reported outcomes, such as Disabilities of the Arm, Shoulder and Hand (DASH) scores, improve significantly, often reaching less than 10 points by 6 months post-treatment, indicating minimal disability in daily activities. Several risk factors contribute to poorer long-term outcomes, including patient age over 40 years, , proximal pole fracture location, and treatment delay exceeding 4 weeks, which increase risk to 10-50% and may lead to or . In cases of chronic , salvage procedures such as proximal row carpectomy or four-corner are employed, yielding union or stability in 70-88% of patients with satisfaction rates around 70%, though they often result in reduced wrist motion. A 2020 NIHR-funded randomized (SWIFFT) confirmed that while achieves higher union rates than , long-term patient-reported symptoms and function are comparable at 1 year, supporting individualized decisions.

Epidemiology

Incidence and prevalence

Scaphoid fractures represent the most common type of carpal , accounting for approximately 60-70% of all carpal fractures. Globally, the incidence varies widely, reported between 1.4 and 29 fractures per 100,000 person-years in civilian populations, with some studies estimating an overall rate of around 12-29 per 100,000 annually. These fractures comprise 2-7% of all skeletal fractures, highlighting their significant burden in care. Scaphoid fractures account for approximately 15% of acute injuries. Age distribution shows primary incidence in young adults aged 20-30 years, where the majority of cases occur, particularly among males, with mean age reported between 22 and 29 years across studies. The condition is uncommon in children under 10 and the elderly, representing only about 10% of total cases combined. , incidence is estimated at around 10 per 100,000 person-years based on data. Incidence trends have remained relatively stable over time, but improved detection through advanced like MRI has led to higher reported rates of fractures in recent years, enhancing early identification without altering underlying occurrence. Geographic variations exist, with rates roughly doubling in highly active populations such as athletes, where scaphoid fractures can reach up to 70% of carpal injuries compared to general populations.

Risk factors and demographics

Scaphoid fractures predominantly affect males, who comprise 70% to 80% of cases, with a notable peak incidence among young adults aged 15 to 35 years accounting for approximately 70% of occurrences. This demographic pattern reflects higher exposure to high-energy in active young males. Occupational and sports-related activities significantly elevate risk, particularly in participants of high-impact pursuits like and , where the incidence of scaphoid and related fractures is 3 to 5 times higher than in the general due to frequent falls on outstretched hands. Manual laborers, such as those in or , also experience increased susceptibility from repetitive loading and occupational falls. Modifiable risk factors include , which heightens fracture vulnerability in females over 50 years through reduced and low-energy mechanisms. Comorbidities such as diabetes mellitus and further increase susceptibility by compromising bone quality and systemic inflammation, leading to higher fracture rates and poorer outcomes. In pediatric patients, scaphoid fractures tend to occur more frequently in the distal pole due to the distal-to-proximal pattern of , and they exhibit superior healing potential with union rates approaching 95% under , often within 6 to 8 weeks.

History and Terminology

Historical background

The recognition of scaphoid fractures dates back to the early , with French surgeon Étienne Destot providing the first detailed description in 1905 following the introduction of , which allowed for accurate visualization of these previously elusive carpal bone injuries. Prior to this, carpal injuries were often misdiagnosed or overlooked due to limitations in diagnostic imaging, but Destot's work formalized the identification of scaphoid fractures as distinct from other pathologies. Key milestones in management emerged in the mid-20th century, particularly addressing the high risk of nonunion. In 1937, Hermann Matti introduced a bone grafting technique using a cancellous bone graft from the to treat scaphoid nonunions, marking an early surgical approach to promote union in delayed-healing cases. This was refined in the 1950s and 1960s by Otto Russe, who modified the procedure to improve graft stability and incorporation, establishing the Matti-Russe technique as a standard for nonunion repair. Screw fixation began gaining traction in the 1970s, with Maudsley and reporting on compression screw use for acute fractures, enabling more stable and reducing reliance on prolonged casting. Advances in the late focused on the scaphoid's unique vascular anatomy, which predisposes proximal pole fractures to (). Anatomical studies in the 1970s and 1980s highlighted the retrograde blood supply from distal branches of the , explaining the 30-40% risk in proximal fractures and influencing treatment toward early intervention. The 1980s saw the development of the Herbert screw by Timothy J. Herbert and W. E. Fisher, a headless introduced in 1984 that minimized soft tissue irritation and improved union rates, alongside a seminal classification system categorizing fractures by location and stability to guide prognosis and therapy. Herbert's contributions were pivotal in shifting paradigms toward precise, minimally invasive fixation. In the 2000s, randomized controlled trials, such as those by Davis et al. (2003) and Arora et al. (2007), demonstrated that early surgical fixation reduced healing time and rates compared to alone, particularly for undisplaced waist fractures, prompting a broader of operative management in active patients. Post-2020, evidence-based guidelines from organizations like the European Federation of Orthopaedics and Traumatology (EFORT) emphasize MRI for occult fractures, risk-stratified treatment, and multidisciplinary follow-up to optimize outcomes while minimizing complications like and . In the , further advances include the integration of for fracture detection on imaging, arthroscopy-assisted fixation for improved outcomes, and innovative techniques to address nonunions. These developments reflect a century-long evolution from diagnostic challenges to proactive, data-driven care.

Nomenclature

The term "scaphoid" derives from word skaphos, meaning "boat," reflecting the bone's boat-shaped morphology in the proximal row of the . Historically, the bone was termed "navicular," from the Latin navis for "ship," leading to the alternative name "navicular fracture" for breaks in this structure, though this usage predates the 1980s and is now considered outdated to avoid confusion with the tarsal . A colloquial term for scaphoid fractures is "snuffbox fracture," arising from the characteristic tenderness in the —a triangular depression on the radial aspect of the —where the scaphoid lies superficially and is palpable during clinical examination. In nomenclature, the Herbert system, introduced in 1984, categorizes s into types A through D based on stability, acuity, and union status: type A for stable acute s (subdivided into A1 tubercle and A2 incomplete waist), type B for unstable acute s (including B1 distal oblique, B2 waist, B3 proximal pole, and B4 trans-scaphoid perilunate), type C for delayed union, and type D for established . Complementing this, the Russe , proposed in 1960, describes patterns by of the line: horizontal oblique (most stable, favorable for healing), transverse (through the waist), and vertical oblique (least stable). These systems contribute to international efforts toward , as coordinated by organizations like the International Federation of Societies for Surgery of the Hand (IFSSH) through its scientific committees on , which emphasize consistent terminology for location, stability, and plane to guide management across global practices. Terminological variations include "" for fractures not visible on initial plain radiographs despite clinical suspicion, often requiring advanced imaging like MRI or for confirmation. Fractures are further distinguished as "acute" if presenting within six weeks of injury, versus "chronic" for those beyond this timeframe, which may involve or delayed healing. Post-2020 clinical guidelines and literature predominantly favor "scaphoid fracture" over "navicular" to enhance precision and reduce ambiguity in medical communication and documentation.

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