Individual patient CNR-optimized energy level images and the NIC can be used to improve the sensitivity and the specificity for differentiating CMFP from PDAC by use of dual-energy MDCT in spectral imaging with fast tube voltage switching.
In general, the effect size of intramedullary nailing may be comparable to that of plate fixation in the terms of nonunion, postoperative infections, radial nerve paralysis. The only slightly difference was identified in the event of delayed healing rate.
Objective: Del Nido cardioplegia solution provides a depolarized hyperkalemic arrest lasting up to 60 minutes. Single-dose del Nido cardioplegia solution may offer an alternative myocardial protection strategy to conventional whole blood cardioplegia following acute aortic dissection surgery. Methods: We retrospectively reviewed 122 consecutive patients with acute aortic dissection undergoing arch reconstruction surgery procedure with cardioplegia arrest from January 2017 to December 2019. Patients exclusively received with whole blood cardioplegia (n = 60, January 2017–December 2018) or del Nido cardioplegia (n = 62, January 2018–December 2019). Preoperative and postoperative data were retrospectively reviewed. Results: No significant difference between two groups in mortality (4/60 vs 3/62, p = 0.964), cardiopulmonary bypass time (168.0 ± 10.5 minute vs 165.0 ± 12.5 minute, p = 0.154), aortic cross-clamp time (91.8 ± 9.0 minute vs 93.2 ± 9.5 minute, p = 0.405), selective antegrade cerebral perfusion time (21.8 ± 5.0 minute vs 22.4 ± 4.7 minute, p = 0.496) and postoperative vasoactive inotropic score (34.8 ± 1.9 vs 35.2 ± 2.1, p = 0.272), neurological complications rate (8/60 vs 12/62, p = 0.523), renal insufficiency rate (5/60 vs 7/62, p = 0.807) and the troponin T level (304.8 ± 111.3 vs 315.0 ± 94.9, p = 0.588), respectively. Mean volume of crystalloid was significantly higher in the del Nido group compared to the whole blood cardioplegia group (1010.2 ± 20.3 mL vs 300.0 ± 19.6 mL, p < 0.001). Patients requiring defibrillation was 7/62 vs 28/60 (p < 0.001), with statistical difference in both groups. Conclusion: Short-term outcomes in acute aortic dissection surgery using del Nido cardioplegia solution were acceptable and comparable to conventional multi-dose whole blood cardioplegia. Del Nido cardioplegia technique is associated with lower defibrillations rate and requires a reduced frequency of infusions that results in longer durations between infusions and may be a feasible alternative to conventional whole blood cardioplegia solution in acute aortic dissection surgery.
BackgroundAlthough percutaneous posterior-ring tension-band metallic plate and percutaneous iliosacral screws are used to fix unstable posterior pelvic ring fractures, the biomechanical stability and compatibility of both internal fixation techniques for the treatment of Denis I, II and III type vertical sacral fractures remain unclear.MethodsUsing CT and MR images of the second generation of Chinese Digitized Human “male No. 23”, two groups of finite element models were developed for Denis I, II and III type vertical sacral fractures with ipsilateral superior and inferior pubic ramus fractures treated with either a percutaneous metallic plate or a percutaneous screw. Accordingly, two groups of clinical cases that were fixed using the above-mentioned two internal fixation techniques were retrospectively evaluated to compare postoperative effect and function. Parallel analysis was performed with a finite element model controlled trial and a case control study.ResultsThe difference of the postoperative Majeed standards and outcome rates between two case groups was no statistically significant (P > 0.05). Accordingly, the high values of the maximum displacements/stresses of the plate-fixation model group approximated those of the screw-fixation model group. However, further simulation of Denis I, II and III type fractures in each group of models found that the biomechanics of the plate-fixation models became increasingly stable and compatible, whereas the biomechanics of the screw-fixation models maintained tiny fluctuations. When treating Denis III fractures, the biomechanical effects of the pelvic ring of the plate-fixation model were better than the screw-fixation model.ConclusionsPercutaneous plate and screw fixations are both appropriate for the treatment of Denis I and II type vertical sacral fractures; whereas percutaneous plate fixation appears be superior to percutaneous screw fixation for Denis III type vertical sacral fracture. Biomechanical evidence of finite element evaluations combined with clinical evidence will contribute to our ability to distinguish between indications that require plate or screw fixation for vertical sacral fractures.
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