Neck Fractures (neck + fractures)

Distribution by Scientific Domains

Kinds of Neck Fractures

  • femoral neck fractures


  • Selected Abstracts


    Factors influencing prehospital and emergency department analgesia administration to patients with femoral neck fractures

    EMERGENCY MEDICINE AUSTRALASIA, Issue 3 2002
    John Vassiliadis
    Abstract Objectives: To assess the analgesia practices of ambulance personnel and emergency department staff treating patients with fractured neck of femur. Methods: This is a retrospective analysis of 176 patients with an admission diagnosis of fractured neck of femur, who presented to a major western Sydney teaching hospital, between January and November 1999. Results: One hundred and twenty-eight patients met the inclusion criteria. The median age was 82, there were more female than male subjects. Ambulance officers made a clinical diagnosis of fractured neck of femur in 68% of cases. In 49% of cases no analgesia was given. Patients were given a higher triage category and pain relief faster if they had been given analgesia by ambulance officers, P = 0.0018 and P = 0.002, respectively. The median time to analgesia was 2 h 48 min. Conclusions: Only a modest proportion of patients with fractured neck of femur received prehospital analgesia and delays to analgesia in the emergency department are considerable. Strategies to address the delivery of appropriate analgesia to this group of patients should be developed. [source]


    Evidence of a hypermineralised calcified fibrocartilage on the human femoral neck and lesser trochanter

    JOURNAL OF ANATOMY, Issue 2 2001
    J. E. SHEA
    Femoral neck fractures are a major cause of morbidity and mortality in elderly humans. In addition to the age-related loss of cancellous bone, changes to the microstructure and morphology of the metaphyseal cortex may be a contributing factor in osteoporotic hip fractures. Recent investigations have identified a hypermineralised tissue on the neck of the femur and trochanteric region that increases in fractional area with advancing age in both males (Boyce & Bloebaum, 1993) and females (Vajda & Bloebaum, 1999). The aim of this study was to determine if the hypermineralised tissue previously observed on the proximal femur is calcified fibrocartilage. Regional variations in the fractional area of hypermineralised tissue, cortical bone, and porosity of the cortical bone along the neck of the femur and lesser trochanter were also quantified. Comparison of back scattered electron and light microscope images of the same area show that regions of hypermineralised tissue correlate with the regions of calcified fibrocartilage from tendon and capsular insertions. The hypermineralised tissue and calcified fibrocartilage had similar morphological features such as the interdigitations of the calcified fibrocartilage into the bone, lacunar spaces, and distinctly shaped pores adjacent to the 2 tissues. Regions of the neck that did not contain insertions were covered with periosteum. There were no regional differences (P > 0.05) on the superior and inferior femoral neck in terms of the percentage area of hypermineralised calcified fibrocartilage, cortical bone, or cortical bone porosity. The lesser trochanter exhibited regional differences in the fractional area of hypermineralised calcified fibrocartilage (P = 0.007) and cortical bone (P = 0.007) but not porosity of the cortical bone (P > 0.05). The effects of calcified fibrocartilage on femoral neck periosteal expansion, repair, and mechanics are unknown, but may play a role in osteoporotic fractures and intracapsular fracture healing. [source]


    Analgesia before a spinal block for femoral neck fracture: fascia iliaca compartment block

    ACTA ANAESTHESIOLOGICA SCANDINAVICA, Issue 10 2009
    M. J. YUN
    Background: In this prospective randomized study, the authors compared the analgesic effect of a fascia iliaca compartment (FIC) block with that of intravenous (i.v.) alfentanil when administered to facilitate positioning for spinal anaesthesia in elderly patients undergoing surgery for a femoral neck fracture. Methods: The 40 patients were randomly assigned to one of two groups, namely, the FIC group (fascia iliaca compartment block, n=20) and the IVA group (intravenous analgesia with alfentanil, n=20). Group IVA patients received a bolus dose of i.v. alfentanil 10 ,g/kg, followed by a continuous infusion of alfentanil 0.25 ,g/kg/min starting 2 min before the spinal block, and group FIC patients received a FIC block with 30 ml of ropivacaine 3.75 mg/ml (112.5 mg) 20 min before the spinal block. Visual analogue pain scale (VAS) scores, time to achieve spinal anaesthesia, quality of patient positioning, and patient acceptance were compared. Results: VAS scores during positioning (mean and range) were lower in the FIC group than in the IVA group [2.0 (1,4) vs. 3.5 (2,6), P=0.001], and the mean (± SD) time to achieve spinal anaesthesia was shorter in the FIC group (6.9 ± 2.7 min vs. 10.8 ± 5.6 min; P=0.009). Patient acceptance (yes/no) was also better in the FIC group (19/1) than in the IVA group (12/8)(P=0.008). Conclusions: An FIC block is more efficacious than i.v. alfentanil in terms of facilitating the lateral position for spinal anaesthesia in elderly patients undergoing surgery for femoral neck fractures. [source]


    Association of Geometric Factors and Failure Load Level With the Distribution of Cervical vs.

    JOURNAL OF BONE AND MINERAL RESEARCH, Issue 6 2006
    Trochanteric Hip Fractures
    Abstract We experimentally studied the distribution of hip fracture types at different structural mechanical strength. Femoral neck fractures were dominant at the lowest structural strength levels, whereas trochanteric fractures were more common at high failure loads. The best predictor of fracture type across all failure loads and in both sexes was the neck-shaft angle. Introduction: Bone geometry has been shown to be a potential risk factor for osteoporotic fractures. Risk factors have been shown to differ between cervical and trochanteric hip fractures. However, the determinants of cervical and trochanteric fractures at different levels of structural mechanical strength are currently unknown. In addition, it is not known if the distribution of fracture types differs between sexes. The aim of this experimental study on excised femora was to investigate whether there exist differences in the distribution of cervical and trochanteric fractures between different structural mechanical strength levels and different sexes and to identify the geometric determinants that predict a fracture type. Materials and Methods: The sample was comprised of 140 cadavers (77 females: mean age, 81.7 years; 63 males: mean age, 79.1 years) from whom the left femora were excised for analysis. The bones were radiographed, and geometrical parameters were determined from the digitized X-rays. The femora were mechanically tested in a side impact configuration, simulating a sideways fall. After the mechanical test, the fracture patterns were classified into cervical and trochanteric. Results: The overall proportion of cervical fractures was higher in females (74%) than in males (49%) (p = 0.002). The fracture type distribution differed significantly across load quartiles in females (p = 0.025), but not in males (p = 0.205). At the lowest load quartiles, 94.7% of fractures in female and 62.5% in males were femoral neck fractures. At the highest quartiles, in contrast, only 52.6% of fractures in females and 33.3% in males were cervical fractures. Among geometric variables, the neck-shaft angle was the best predictor of fracture type, with higher values in subjects with cervical fractures. This finding was made in females (p < 0.001) and males (p = 0.02) and was consistent across all failure load quartiles. Conclusions: Femoral neck fractures predominate at the lowest structural mechanical strength levels, whereas trochanteric fractures are more common at high failure loads. Females are more susceptible to femoral neck fractures than males. The best predictor of fracture type across all structural strength levels and both sexes was the neck-shaft angle. [source]


    HIP FRACTURE RATES IN SOUTH AUSTRALIA: INTO THE NEXT CENTURY

    ANZ JOURNAL OF SURGERY, Issue 2 2000
    L. S. Chipchase
    Background: Fractures of the femoral neck already represent a major public health problem in Australia. This situation is set to worsen as the population ages. The present study estimates the number of patients over 50 years of age with femoral neck fractures that is expected to impact on the South Australian healthcare service into the next century. Methods: Population projections from the Australian Bureau of Statistics 1996 census were combined with age- and gender-specific incidence rates for fractures of the femoral neck for persons over the age of 50 in South Australia. Projections for the expected number of hip fractures in this State were then calculated. Results: Assuming there are no changes in the age- and gender-specific incidence of fracture rates, the number of fractures in South Australia is estimated to increase by approximately 66% by the year 2021 and 190% by 2051. Conclusion: Based on the population projections and the assumption that conditions contributing to hip fractures remain constant, the number of fractured neck of femurs will increase in far greater proportion than the overall population in the next century. The results of the present study indicate the serious implications for the South Australian healthcare system if there is no reduction in incidence rates. [source]