Slipped capital femoral epiphysis (SCFE), also called slipped upper femoral epiphysis (SUFE), is the most common hip pathology in pre-adolescent and adolescents. However, this diagnosis is often delayed or missed due to either atypical presentation, such as thigh or knee pain, or the chronic nature of the presentation. The differential diagnosis for pre-adolescent and adolescents presenting with leg pain is broad; thus, the medical provider must always consider the diagnosis of SCFE. Delay in the diagnosis of SCFE is associated with higher rates of complications, including femoral head osteonecrosis. 
Most cases of SCFE are idiopathic. Often there is no history of trauma or injury before the onset of symptoms. Additionally, an association has been reported between the development of SCFE and patients with endocrine disorders (including hypothyroidism, hyperthyroidism, hypopituitarism, growth hormone deficiency) and renal disorders. 
SCFE is one of the most common hip pathologies affecting pre-adolescent and adolescent patients, occurring in approximately 10.8/100,000 (Range: 0.33/100,000-24.8/100,000). The single most significant risk factor for SCFE is obesity. Other risk factors include male sex, periods of rapid growth, and prior radiation therapy. The average age of onset is 11.2 years in females and 12.0 years in males. Approximately 25% (Range: 8-50%) of cases are bilateral. 
SCFE occurs when the femoral epiphysis is displaced posteriorly and inferiorly relative to the femoral head and neck. The exact mechanism remains uncertain. It is hypothesized that displacement occurs due to a high physiologic axial load transmitted across a relatively weak physis. Conditions such as obesity increase the mechanical weight and force transmitted, whereas certain endocrine or renal disorders may contribute to the weakening of the physis. 
The clinician should always consider SCFE in a pre-adolescent, adolescent or young adult patient with a complaint of atraumatic hip, thigh or knee pain, particularly if associated with limping or inability to bear weight. Pain is most often reported in the hip (52%); however, pain associated with SCFE may also be reported in the groin (13.9%), thigh (35%), or knee (26%).  Patients with SCFE on average have 4-5 months of symptoms prior to diagnosis; however, patients with SCFE may also present with less than 3 weeks of symptoms. While most patients will not report any history of trauma or injury before the onset of symptoms, a history of injury or trauma does not exclude the possibility of SCFE. 
On exam, the patient may have a limited internal rotation of the affected extremity, and passive internal rotation may elicit pain. The patient may have Drehmann sign which consists of external rotation with passive flexion of the hip to 90 degrees. Additionally, the patient may have a shuffling, Trendelenburg or antalgic gait or have complete inability to bear weight. Thigh atrophy may or may not be present. 
The evaluation of patients with suspected SCFE should be begin with bilateral hip radiographs with anteroposterior (AP) and frog-leg lateral views. Radiographs should be bilateral to allow for comparison. The line of Klein is a radiographic finding used to detect SCFE plain radiographs. On the AP view, a line is drawn along the superior, and in the normal hip, intersects the lateral part of the superior femoral epiphysis. If the line of Keline fails to intersect the epiphysis, SCFE is likely present (known as Trethowan sign); however, this method has relatively low sensitivity for diagnosing SCFE. Other plain radiography methods of detecting SCFE include the Southwick Slip Angle and the "S" sign. The Southwick Slip Angle measures the degrees of epiphyseal displacement in relation to the diaphysis; this method is considered more sensitive in detecting SCFE. The "S" sign consists of a line drawn along the inferior cortical outline of the femur in the frog-leg view that extends from the proximal femoral head-neck junction to the proximal femoral physis; it is normal when the cortical outlines are symmetrical, without sharp turns, or broken continuity. SCFE is likely to present if the cortical outlines are asymmetrical, have a sharp turn, or broken continuity. Use of the "S" sign in conjunction with line of Klein was found to increase both sensitivity and specificity in detection of SCFE. 
If radiographs do not demonstrate findings consistent with SCFE, but clinical suspicion is high, the clinician can consider obtaining magnetic resonance imaging (MRI) to further evaluate. Several recent small studies suggest that ultrasound may be a more sensitive modality compared to radiographs in diagnosing SCFE; however, further investigation of this application of ultrasound is needed.
The clinician should consider laboratory testing to evaluate for possible underlying medical conditions such as endocrine or renal disorders if the patient is less than 10 years of age or pre-pubertal, has short stature (more than two standard deviations below mean for age), or weight below the 50th percentile for age. Initial laboratory testing can include thyroid stimulating hormone (TSH) level, thyroxine level (free T4), blood urea nitrogen (BUN), and serum creatinine. Further testing can be performed in consultation with appropriate pediatric specialists such as pediatric endocrinology.
Initial management of the patient with suspected SCFE should begin with strict non-weight bearing (ambulating only with crutches and/or transport via wheelchair). The clinician should provide adequate analgesia to address the patient's pain. All patients with suspected or confirmed diagnosis of SCFE should have urgent pediatric orthopedic consultation to determine definitive management, which generally consists of surgical stabilization. The most common operative treatment for SCFE is in situ screw fixation. Prophylactic fixation of an unaffected contralateral hip may also be performed in “high risk” patients (e.g., diagnosed the endocrine disorder, age <10 years, obesity with delayed presentation). However, this practice is controversial. 
The differential diagnosis of SCFE should include infectious etiologies such as septic arthritis and osteomyelitis, in particular, if the patient is febrile or ill-appearing. If the onset of pain is reported in the context of a sports injury or other traumatic injury, etiologies such as avulsion fracture of the anterior iliac spine(s), adductor muscle strain, ligamentous knee injury, and femur or pelvic fractures should be considered. Inflammatory processes such as transient synovitis, Legg-Calve-Perthes disease, and Osgood-Schlatter disease can also be considered in the appropriate clinical context. However, if the patient has a clinical exam that seems consistent with possible SCFE, even if other clinical features are atypical, the clinician should strongly consider obtaining plain radiographs of the hips.
There are three classification systems for SCFE: Loder Classification, Southwick Slip Angle Classification, and a temporal classification. The Loder classification was introduced in 1993 and divided SCFE into stable or unstable if the patient can bear weight (with or without crutches) or is unable to bear weight even with assistance, respectively. The Southwick Slip Angle Classification system grades the severity of epiphyseal displacement in relation to the diaphysis in the affected compared to the unaffected/contralateral hip; mild, moderate and severe are defined as < 30% displacement, 30-50% displacement and > 50% displacement, respectively. Temporal classification is based on the duration of symptoms. It is seldom used as it has no bearing in prognosis. SCFE is considered acute if symptoms are present for less than three weeks, chronic if symptoms have persisted for more than three weeks, or severe on chronic if a patient has a worsening of symptoms that have been present for more than three weeks.
The Loder classification is very important in prognosis. The original study in 1993 found that a patient with SCFE classified as stable did not develop osteonecrosis, whereas 47% of the patient with SCFE that were considered unstable went on to develop osteonecrosis. More recent studies including a systematic review have confirmed these findings.,
Complications of SCFE include femoral growth arrest due to premature closure of the physis, femoral head osteonecrosis, chondrolysis, femoroacetabular impingement and development of SCFE in the contralateral hip. Later complications of SCFE include early-onset osteoarthritis of the hip. 
Patients and their families require instructions on strict non-weight bearing. They will also require counseling on adequate pain control. If after pediatric orthopedic consultation, urgent operative management is not performed, patients and families should be given anticipatory guidance regarding SCFE, and the need for urgent orthopedic follow up. If there is any concern that the family may be unable or unwilling to follow up with an orthopedic surgeon, admission with pediatric orthopedic consultation should be strongly considered.
Slipped capital femoral epiphysis (SCFE), also called slipped upper femoral epiphysis (SUFE), is the most common hip pathology in pre-adolescent and adolescent patients; however, the diagnosis can be delayed or missed. Primary care (family medicine, internal medicine, or pediatrics) and emergency medicine clinicians including physicians and advanced practice providers should always consider SCFE in the differential diagnosis of pre-adolescent and adolescent patients with leg pain. Patients with suspected or confirmed diagnosis of SCFE must be immediately placed on strict non-weight bearing precautions and provided adequate analgesia; thus, effective interprofessional communication amongst clinicians, nursing, pharmacists and patient care technicians is paramount to ensure optimal care delivery. Urgent pediatric orthopedic consultation for definitive management should be prioritized. Clinicians should additionally consider clinical features of possible underlying endocrine or renal disorders and further evaluate patients as indicated in consultation with appropriate subspecialists.
|||Loder RT,Skopelja EN, The epidemiology and demographics of slipped capital femoral epiphysis. ISRN orthopedics. 2011; [PubMed PMID: 24977061]|
|||Wells D,King JD,Roe TF,Kaufman FR, Review of slipped capital femoral epiphysis associated with endocrine disease. Journal of pediatric orthopedics. 1993 Sep-Oct; [PubMed PMID: 8376562]|
|||Witbreuk M,van Kemenade FJ,van der Sluijs JA,Jansma EP,Rotteveel J,van Royen BJ, Slipped capital femoral epiphysis and its association with endocrine, metabolic and chronic diseases: a systematic review of the literature. Journal of children's orthopaedics. 2013 Jun; [PubMed PMID: 24432080]|
|||Uvodich M,Schwend R,Stevanovic O,Wurster W,Leamon J,Hermanson A, Patterns of Pain in Adolescents with Slipped Capital Femoral Epiphysis. The Journal of pediatrics. 2018 Nov 16; [PubMed PMID: 30454962]|
|||Georgiadis AG,Zaltz I, Slipped capital femoral epiphysis: how to evaluate with a review and update of treatment. Pediatric clinics of North America. 2014 Dec; [PubMed PMID: 25439015]|
|||Peck DM,Voss LM,Voss TT, Slipped Capital Femoral Epiphysis: Diagnosis and Management. American family physician. 2017 Jun 15; [PubMed PMID: 28671425]|
|||Rebich EJ,Lee SS,Schlechter JA, The S Sign: A New Radiographic Tool to Aid in the Diagnosis of Slipped Capital Femoral Epiphysis. The Journal of emergency medicine. 2018 Jun; [PubMed PMID: 29550284]|
|||Mc Cabe A,McArdle S, Towards evidence-based emergency medicine: Best BETs from the Manchester Royal Infirmary. BET 2: Is ultrasound or plain film radiography a more sensitive diagnostic modality for diagnosing slipped capital femoral epiphysis? Emergency medicine journal : EMJ. 2014 Jan; [PubMed PMID: 24367014]|
|||Roaten J,Spence DD, Complications Related to the Treatment of Slipped Capital Femoral Epiphysis. The Orthopedic clinics of North America. 2016 Apr; [PubMed PMID: 26772949]|
|||Ganz R, Alshryda S et al. Evidence based treatment for unstable slipped upper femoral epiphysis: Systematic review and exploratory patient level analysis. The Surgeon. 2018; 16: 46-54. The surgeon : journal of the Royal Colleges of Surgeons of Edinburgh and Ireland. 2018 Dec 1; [PubMed PMID: 30514665]|