Impact of patient demographics and intraoperative characteristics on abdominal aortic aneurysm sac following endovascular repair.

BACKGROUND: Endovascular aortic repair (EVAR) has become the preferred treatment for abdominal aortic aneurysm (AAA). Its main aim is to seal the perfusion of the aneurysmal sac and, thus, induce sac regression and subsequent aortic remodelling. Aneurysmal sac regression has been linked to the short- and long-term clinical outcomes post-EVAR. It has also been shown to be influenced by endograft device choice, with several of these available commercially. This review summarises and discusses current evidence on the influence of pre- and intraoperative factors on sac regression. Additionally, this review aims to highlight the device-specific variations in sac regression to provide an overall holistic approach to treating AAAs with EVAR. METHODS: A comprehensive literature search was conducted using multiple electronic databases to identify and extract relevant data. RESULTS: Female sex, >70 mm original sac diameters, higher pre-procedural fibrinogen levels, smoking and low intra-aneurysmal pressure were found to positively impact sac regression. Whereas renal impairment, ischemic heart disease, high intra-aneurysmal pressure and aneurysm neck thrombus negatively influenced sac regression. Patent lumbar arteries, age, statins and hypercholesterolaemia displayed conflicting evidence regarding sac regression. Regarding the EVAR endografts compared, newer generation devices such as the Anaconda mainly showed the most optimal results. CONCLUSION: Sac regression following EVAR in AAA is an important prognostic factor for morbidity and mortality. Nevertheless, several pre- and intraoperative factors can have an influence on sac regression. Therefore, it is necessary to take them into account when assessing AAA patients for EVAR to optimise outcomes. The choice of EVAR stent-graft can also affect sac regression, with evidence suggesting that the Fenestrated Anaconda is associated with the most favourable results.

Improved neuroprotection using miglustat, curcumin and ibuprofen as a triple combination therapy in Niemann-Pick disease type C1 mice.

OBJECTIVES: Niemann-Pick disease type C (NPC) is a neurodegenerative lysosomal storage disorder characterised by the storage of multiple lipids, reduced lysosomal calcium levels, impaired late endosome:lysosome fusion and neuroinflammation. NPC is caused by mutations in either of the two genes, NPC1 or NPC2, which are believed to function in a common cellular pathway, the function of which remains unclear. The complexity of the pathogenic cascade in NPC disease provides a number of potential clinical intervention points. To date, drugs that target pivotal stages in the pathogenic cascade have been tested as monotherapies or in combination with a second agent, showing additive or synergistic benefit. In this study, we have investigated whether we can achieve greater therapeutic benefit in the Npc1(-/-) mouse by combining three therapies that each targets unique aspects of the pathogenic cascade. METHODS: We have treated Npc1(-/-) mice with miglustat that targets sphingolipid synthesis and storage, curcumin that compensates for the lysosomal calcium defect by elevating cytosolic calcium, and the non-steroidal anti-inflammatory drug ibuprofen to reduce central nervous system inflammation. RESULTS/INTERPRETATION: We have found that triple combination therapy has a greater neuroprotective benefit compared with single and dual therapies, increasing the time period that Npc1(-/-) mice maintained body weight and motor function and maximally delaying the onset of Purkinje cell loss. In addition, ibuprofen selectively reduced microglial activation, while curcumin had no anti-inflammatory effects, indicating differential mechanisms of action for these two therapies. When taken together, these results demonstrate that targeting multiple unique steps in the pathogenic cascade maximises the clinical benefit in a mouse model of NPC1 disease.

NSAIDs increase survival in the Sandhoff disease mouse: synergy with N-butyldeoxynojirimycin.

The GM2 gangliosidoses are caused by incomplete catabolism of GM2 ganglioside in the lysosome, leading to progressive storage and a neurodegenerative clinical course. An inflammatory response (microglial activation, macrophage infiltration, oxidative damage) has been found to be a consequence of GM2 storage in the brain, although it remains unclear whether this contributes to pathogenesis or disease progression. In this study, we treated Sandhoff disease mice with nonsteroidal antiinflammatory drugs (indomethacin, aspirin, and ibuprofen) and antioxidants (L-ascorbic acid and alpha-tocopherol acetate). The treated mice lived significantly longer than untreated littermates (12-23%, p <0.0001) and showed a slower rate of disease progression (p <0.001). When aspirin treatment was combined with substrate reduction therapy, synergy resulted (11%, p <0.05) with a maximum improvement of 73% in survival (p <0.00001). This study demonstrates that inflammation contributes to disease progression and identifies antiinflammatory and antioxidant therapies as a potential adjunctive approach to slow the clinical course of this and related disorders.