Fractures and Dislocations on the Playing Field: Which Are Emergent and What to Do?

High-energy injuries, including fractures and dislocations, are occurring with increasing frequency in athletic competitions with the increasing size and speed of players. Common fractures and dislocations will be discussed in this article. We will evaluate emergent versus routine injuries and discuss appropriate treatment at the athletic venue. Fractures that can be seen with athletic activities include cervical spine; knee osteochondral fractures; tibia, ankle, and clavicle. Dislocations that will be considered include knee, patella, hip, shoulder, sternoclavicular joint, and proximal interphalangeal joint of the finger. These injuries vary significantly both in severity and in the emergent nature of the injury.

Diagnostic Performance of the Caprini Risk Assessment Model Combined With D-Dimer for Preoperative Deep Vein Thrombosis in Patients With Thoracolumbar Fractures Caused by High-Energy Injuries.

OBJECTIVE: To assess the validity of the Caprini risk assessment model (RAM) in risk stratification for deep vein thrombosis (DVT) and to investigate the diagnostic value of Caprini score combined with D-dimer in predicting DVT. METHODS: This study involved 429 patients with thoracolumbar fractures caused by high-energy injuries between October 2016 and November 2019. All patients were treated surgically and had a mean age of 45.3 ± 11.4 years. Patients were risk-stratified using the 2013 Caprini RAM. Mechanical and chemical prophylaxis were used for DVT. Duplex ultrasound of both lower extremities was performed before surgery. RESULTS: Of the 429 patients, 62 (14.45%) developed DVT. The incidence of preoperative DVT was correlated with Caprini score according to risk stratification(χ2 = 117.4, P < 0.001). Based on the original Caprini RAM, all the patients scored in the highest risk category (score ≥5). Further substratification showed that the majority (277 of 429, 64.57%) of the patients were in the Caprini score range 7-8 and the risk of preoperative DVT was significantly higher among patients with Caprini score >10. The area under the receiver operating characteristic curve of Caprini score and D-dimer was 0.816 and 0.769 when Caprini score >8 or D-dimer >1.81mg/L was considered the criterion of predicting the risk of DVT. When combining the 2 variables, the area under the ROC curve can increase to 0.846. CONCLUSIONS: The Caprini RAM is an effective and reliable DVT risk stratification tool in patients with thoracolumbar fractures caused by high-energy injuries. Caprini score >8 or D-dimer >1.81 mg/L may predict the occurrence of preoperative DVT and the Caprini score combined with D-dimer exhibit better diagnostic performance.

National trends in extremity fracture hospitalizations among older adults between 2003 and 2017.

BACKGROUND: Fractures in late life are highly consequential for health, services use, and spending. Little is known about trends in extremity fracture hospitalizations among older adults in the United States. DESIGN: Retrospective longitudinal cohort study. SETTING: The 2003-2017 National Inpatient Sample (NIS), a representative sample of U.S. community hospitals. PARTICIPANTS: Hospitalized adults aged 65 and older with a diagnosis of upper or lower extremity fracture. MEASUREMENTS: Incidence of extremity fracture hospitalization and mortality, using NIS discharge and trend weights, and population denominators derived from the U.S. Census Bureau. Incidence was reported separately for men and women by age, fracture diagnosis, and injury mechanism. Weighted linear regression was used to test for significant trends over time. RESULTS: Incidence of extremity fracture hospitalizations declined in both women (15.7%, p trend < 0.001) and men (3.2%, p trend < 0.001) between 2003 and 2017. This trend was primarily attributed to a decline in low energy femur fractures which accounted for 65% of all fracture hospitalizations. Among older adults with an extremity fracture hospitalization, mortality declined from 5.1% in 2003 to 3.3% in 2017 in men, and from 2.6% to 1.9% in women (p trend < 0.001). High energy fractures were due to falls (53%), motor vehicle accidents (34%), and other high impact injuries (13%). Overall, 12% of extremity fracture hospitalizations were attributed to high-energy injuries: increases were observed among men ages 65-74 (20%; p trend < 0.001) and 75-84 (10%; p trend = 0.013), but not among women of any age. CONCLUSION: Observed declines in the incidence of extremity fracture hospitalizations and related mortality are encouraging. However, increasing incidence of fracture hospitalization from high energy injuries among men suggests that older adults with complex injuries will be seen with more prevalence in the future.

Clinical and Radiological Clues of Traumatic Craniocervical Junction Injuries Requiring Occipitocervical Fusion to Early Diagnosis.

OBJECTIVE: The purpose of this study is to find the clinical and radiographic characteristics of traumatic craniocervical junction (CCJ) injuries requiring occipitocervical fusion (OC fusion) for early diagnosis and surgical intervention. METHODS: We retrospectively reviewed 12 patients with CCJ injuries presenting to St. Michaels Hospital in Toronto who underwent OC fusion and looked into the following variables; (1) initial trauma data on emergency room arrival, (2) associated injuries, (3) imaging characteristics of computed tomography (CT) scan and magnetic resonance imaging (MRI), (4) surgical procedures, surgical complications, and neurological outcome. RESULTS: All patients were treated as acute spinal injuries and underwent OC fusion on an emergency basis. Patients consisted of 10 males and 2 females with an average age of 47 years (range, 18-82 years). All patients sustained high-energy injuries. Three patients out of 6 patients with normal BAI (basion-axial interval) and BDI (basion-dens interval) values showed visible CCJ injuries on CT scans. However, the remaining 3 patients had no clear evidence of occipitoatlantal instability on CT scans. MRI clearly described several findings indicating occipitoatlantal instability. The 8 patients with normal values of ADI (atlantodens interval interval) demonstrated atlantoaxial instability on CT scan, however, all MRI more clearly and reliably demonstrated C1/2 facet injury and/or cruciate ligament injury. CONCLUSION: We advocate measures to help recognize CCJ injury at an early stage in the present study. Occipitoatlantal instability needs to be carefully investigated on MRI in addition to CT scan with special attention to facet joint and ligament integrity.

Management of high-energy foot and ankle injuries in the geriatric population.

By the year 2035 almost 20% of the US population of 389 million people will be 65 years and older. What this group has, compared with aged populations in the past, is better health, more mobility, and more active lifestyles. From January 1989 through December 2010, a total of 494 elderly patients with 536 foot and ankle injuries were identified. Within this group, 237 (48%) patients with 294 injuries were sustained as a result of a high-energy mechanism. These mechanisms consisted of 170 motor vehicle accidents, 30 as a result of high (not ground level) energy falls, 2 from industrial accidents, and 35 classified as other, which included sports, blunt trauma, bicycle, airplane or boating accidents, crush injuries, and injuries resulting from a lawn mower. The injuries produced were 17 metatarsal fractures, 9 Lisfranc injuries, 10 midfoot (navicular, cuneiform, or cuboid) fractures, 23 talus fractures, 63 calcaneal fractures, 73 unimalleolar, bimalleolar, or trimalleolar ankle fractures, 45 pilon fractures, and 3 pure dislocations of the foot or ankle. Overall, 243 (83%) of these injuries underwent surgical fixation and data have shown that when surgery is used to manage high-energy injuries of the foot and ankle in the elderly individuals, the complications and outcomes are similar to those seen in younger patients. Therefore, the decision for surgical intervention for high-energy injuries of the foot and ankle should be based primarily on the injury pattern and not solely on the age of the patient.

Management of high-energy acetabular fractures in the elderly individuals: a current review.

Acetabular fractures in the elderly individuals are increasing in prevalence. Although there is evidence in the literature that acetabular fractures in elderly patients sustained as a result of low-energy mechanisms can be well treated by nonoperative management, open reduction and internal fixation, or even acute arthroplasty, almost no literature exists that may appropriately guide the treatment of elderly acetabular fractures that occur as a result of high-energy mechanisms. In spite of this lack of evidence, specific principles for providing the best care in adult trauma patients may reasonably be adopted. These principles include aggressive resuscitation and medical optimization; surgical care that focuses on a patient's survival but does not sacrifice skeletal stability; and early mobilization. Best practices that guide the care of hip fracture patients, such as a team approach to care, the use of protocols to guide treatment, and the timing of surgery to occur as soon as is safely possible also should be employed to guide care in patients who have sustained acetabular fractures. Opportunity exists to better study these higher energy fractures and to, thereby, affect outcomes in patients who have sustained them.