Uses survey research to investigate two general questions concerning managerial competencies and performance appraisal: whether a set of managerial competencies currently being used by organizations to describe successful managers can be identified; and whether organizations are appraising these same competencies as part of their managerial performance appraisal processes. The six competencies most often identified as critical to managerial success appear to be proper choices, given the discussion of the attributes needed for a competency to be effective. The results also show, however, that many of these same organizations are not appraising these competencies in their managerial-performance appraisal processes. Concludes that failure to appraise the competencies reduces the effectiveness of the competencies and the managerial performance appraisal programs.
A utograft bone graft harvest is an important surgical technique in the armamentarium of the orthopaedic surgeon. The iliac crest can provide a robust amount of bone graft, but using it carries a risk of complications including neurologic injury, gait disturbance, sensory dysesthesia, and ilium fracture. We present a surgical technical involving harvest of cancellous bone graft from the anterior iliac crest that minimizes the complication profile associated with tricortical bone graft harvest. It should be noted that there are differences between the outcomes of anterior and posterior crest harvests. Anterior autograft harvest is associated with a higher complication rate, with more iliac wing fractures, postoperative hematomas, and sensory disturbances. The posterior approach, however, is associated with more postoperative pain than the anterior approach, with the patient often experiencing more pain from the harvest than from the procedure itself. The allcancellous iliac crest bone graft harvest provides the benefit of a large quantity of autogenous bone for various procedures, ranging from spinal fusion to osseous reconstruction. The major steps of this procedure are (1) offset of the surgical incision, (2) exposure of the iliac crest while avoiding neurologic structures, (3) identifying the location of and performing a corticotomy of the iliac crest, (4) harvesting the cancellous bone graft using curets, (5) obtaining hemostasis, and (6) performing a layered closure. The postoperative course entails immediate weight-bearing as tolerated. There is a potential for complications, which are discussed at the individual points of concern during this video.
Cotton padding demonstrates the greatest change in pressure within a long-arm cast after undergoing bivalve. Synthetic and waterproof cast padding should not be used in the setting of an acute fracture to accommodate swelling.
Background: Screw malpositioning is an identifiable cause of intraoperative neurophysiologic changes.Although triggered screw electromyography (t-EMG) has been found to exhibit high sensitivity for identifying malpositioned screws, no previous study has assessed the utility of combining t-EMG with robotic-assisted pedicle screw placement for identifying malpositioned screws. We sought to evaluate the utility of t-EMG used in combination with robotic-assisted pedicle screw placement for identifying malpositioned screws in patients with adolescent idiopathic scoliosis (AIS).Methods: Patients undergoing robotic-assisted posterior spinal fusion with pedicle screw fixation for AIS underwent retrospective review from a single surgeons prospectively collected database. Preoperative demographic data and curve characteristics were recorded. Computed tomography (CT) scans were reviewed, measuring pedicle width and classifying pedicle morphology using the channel classification system. Pedicle data was compared against intra-operative t-EMG data, with a minimal threshold of 8 mA used for screw removal and screw path examination and the rate of screw re-direction recorded. All pedicle screws were verified using image intensification.Results: Forty-nine patients (11 males, 38 females, average age 14.49 years) with an average curve magnitude of 51 degrees and placement of 844 pedicle screws to attain an average curve correction of 67.7%. The incidence of an absent pedicle (type C or D morphology) was 2%. Overall, 24 screws (2.8%) were identified with an abnormal t-EMG threshold. All screws were found to have an intact medial wall upon probing and were reinserted without re-direction. No patient or curve characteristic was predictive of abnormal t-EMG amplitude but smaller pedicles correlated with smaller amplitudes.Conclusions: With precise pre-operative planning, robotic-assisted pedicle screw placement has shown to be a safe and effective method in treating AIS patients as shown by the lack of medial pedicle breach and malpositioned screws. We found no evidence to support combined use of t-EMG for identifying medially malpositioned screws.
Background: Medial patellofemoral ligament (MPFL) reconstruction for patellar instability is a commonly performed procedure with a reported high rate of return to preinjury activity. However, no previous study has assessed the functional outcomes of military servicemembers undergoing MPFL reconstruction. Hypothesis: Primary MPFL reconstruction confers patellar stability, but with limited return to preinjury function and ability to maintain unrestricted military active duty status. Study Design: Case series; Level of evidence, 4. Methods: Using the Management Analysis and Reporting Tool database, we conducted a retrospective review of active duty servicemembers throughout the US Department of Defense Health System who underwent primary MPFL reconstruction between 2012 and 2015. Demographic variables were recorded as well as ability to return to impact activities—defined as running, jumping, rucking with a load >40 pounds (18 kg), and returning to airborne operations—and to remain on active duty status. The rates of recurrent instability and the need for subsequent surgeries were identified and assessed for statistical significance using uni- and multivariate analyses. Patients were evaluated for a minimum of 2 years postoperatively. Results: Of the 213 patients who underwent primary MPFL reconstruction, including 34 with concomitant tibial tubercle osteotomy, 19 (8.9%) patients developed recurrent instability. The presence of bilateral patellar instability was associated with higher recurrence rate. Patients with bilateral instability comprised 47.3% of those with recurrence but only 24.9% of patients without recurrence ( P = .019). Impact activity restrictions were present in 57.6% of patients (n = 121), with 86 patients (52.1%) undergoing medical separation from the military. Patients who were prescribed activity restriction before surgery were significantly more likely to have postoperative activity restrictions (64.5%; P = .019), and junior enlisted servicemembers were more likely to be medically separated from service postoperatively than higher ranking senior enlisted members or officers. Conclusion: Only 42.4% of US military servicemembers undergoing primary MPFL reconstruction were able to return to unrestricted impact activity after surgery. Bilateral instability negatively affected return to impact activities. Military servicemembers, particularly junior enlisted members, should be counseled on this poor prognosis for a full return to unrestricted activity postoperatively.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
hi@scite.ai
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.