12 research outputs found
Physician-modified versus chimney endografting for pararenal aortic aneurysms: a systematic review and meta-analysis.
INTRODUCTION
We performed a systematic review and meta-analysis to assess the existing published evidence regarding the safety and efficacy of the endovascular aortic repair with chimney technique (ch-EVAR) and physician-modified stent-grafts (PMSGs) for the treatment of pararenal aortic aneurysm repair.
EVIDENCE ACQUISITION
A systematic search of all relevant studies reported until October 2023 according to the PRISMA (preferred reporting items for systematic reviews and meta-analyses) guidelines was performed. The pooled 30-day mortality, peri- and postoperative complication rates were estimated using fixed or random effect methods.
EVIDENCE SYNTHESIS
A total of 679 study titles were identified by the initial search strategy, of which 16 were considered eligible for inclusion in the meta-analysis. A total of 1094 patients (ch-EVAR N.=861 and PMSG N.=233) (90% male) were identified. The pooled 30-day mortality rate was 3.4% for ch-EVAR and 2.6% for PMSG. The major adverse events (MAE) in the early period was 14.7% for ch-EVAR and 18.5% PMSG, respectively. Higher occlusion rate was observed of the chimney stents grafts (8.2%) than the bridging stents (1.4%) during the follow-up period.
CONCLUSIONS
Ch-EVAR and physician-modified technology are safe with low 30-day mortality in elective settings for pararenal aortic aneurysms repair. No significant differences were seen between the two surgical methods regarding the early major adverse events rate. However, higher occlusion rate for the chimneys can be expected over time
Endovascular repair of pararenal and thoracoabdominal aortic aneurysms with inner and outer off-the shelf-multibranched endografts. A systematic review and meta-analysis.
BACKGROUND
During the last years a great progress has been noted in device technology and operator experience in treating complex aortic aneurysms. Fenestrated and branched custom-made devices require detailed preoperative planning and production time that can take up to 12 weeks. During this awaiting period, the aortic related mortality is being increased. To overcome this limitation, off-the shelf standardized multibranched devices were launched in the market for the treatment of pararenal and thoracoabdominal aortic aneurysms (TAAA). Our aim was to systematically evaluate all the published studies of off-the shelf endografts for the treatment of pararenal and thoracoabdominal aortic aneurysms.
METHODS
We performed a systematic review to identify all the eligible studies that reported outcomes to the off-the-shelf with inner or outer multibranched devices and then conducted a qualitative synthesis and meta-analysis of the results. The main outcomes were technical success, mortality, target visceral vessel (TVV) instability, major adverse events and reintervention rate. We estimated pooled proportions and 95% confidence intervals (CIs).
RESULTS
A total of 1605 study titles were identified by the initial search strategy, of which 13 (8=t-Branch/ 3=E-nside/1=We-Flow/1=TAMBE) were considered eligible for inclusion in the meta-analysis. A total of 595 patients (70% male) were identified among the eligible studies. In terms of procedures, 64.4% were elective, 19.2% (13.4% outer-multibranched group (OMG); 6.1% inner-multibranched group (IMG) were emergent, and 16.4% (15.6% OMG; 0.8% IMG) were urgent. The pooled technical success was 92.1% (95%, CI, 83.8-96.4%) and 96.9% (95%, CI, 92.5-98.8%) for the outer- and inner-multibranched endograft, respectively. The pooled 30-day mortality was 10.4 % (95%, CI, 6.6-16.1%,) and 4.2% (95%, CI, 2.0-8.6%) for the outer and inner branched group respectively. The pooled 30-day and late TVV instability for the outer-branched group was 3.5% (95%, CI, 2.0-6.1%) and 6.2% (95%, CI, 4.7-8.0%) and for the inner branched group 10.4% (95%, CI, 4.5-22.5%) and 1.6% (95%, CI, 0.7-3.3%) respectively.
CONCLUSIONS
This pooled analysis indicated good technical success and mortality rate, for both devices despite the high rate of urgent procedures. Pararenal and thoracoabdominal aortic aneurysms can be safely treated using the included devices. However, further studies are required to draw additional conclusions for the inner group due to the small sample size
The Effect of Strontium Ranelate on Fracture Healing: An Animal Study
Background. Strontium ranelate (StR) is an antiosteoporotic agent previously utilized for the enhancement of fracture union. We investigated the effects of StR on fracture healing using a rabbit model. Methods. Forty adult female rabbits were included in the study and were divided in 2 equal groups, according to StR treatment or untreated controls. All animals were subjected to osteotomy of the ulna, while the contralateral ulna remained intact and served as a control for the biomechanical assessment of fracture healing. Animals in the study group received 600 mg/kg/day of StR orally. All animals received ordinary food. At 2 and 4 weeks, all animals were euthanatized and the osteotomy sites were evaluated for healing through radiological, biomechanical, and histopathological studies. Results. The treatment group presented statistically significant higher callus diameter, total callus area, percentage of fibrous tissue (p<0.001), vessels/mm2, number of total vessels, and lower osteoclast number/mm2 (p<0.05) than the control group at 2 weeks. Additionally, the treatment group presented significantly higher percentages of new trabecular bone, vessels/mm2, osteoclast number/mm2, and lower values for callus diameter, as well as total callus area (p<0.05), than the control group at 4 weeks. At 4 weeks, in the treatment group, force applied (p=0.003), energy at failure (p=0.004), and load at failure (p=0.003) were all significantly higher in the forearm specimens with the osteotomized ulnae compared to those without. Radiological bone union was demonstrated for animals receiving StR at 4 weeks compared with controls (p=0.045). Conclusion. StR appears to enhance fracture healing but further studies are warranted in order to better elucidate the mechanisms and benefits of StR treatment
The Topography of the Frontal Terminations of the Uncinate Fasciculus Revisited Through Focused Fiber Dissections: Shedding Light on a Current Controversy and Introducing the Insular Apex as a Key Anatomoclinical Area
BACKGROUND: Recent studies advocate a connectivity pattern wider than
previously believed of the uncinate fasciculus that extends to the
ventrolateral and dorsolateral prefrontal cortices. These new percepts
on the connectivity of the tract suggest a more expansive role for the
ncinate fasciculus. Our aim was to shed light on this controversy
through fiber dissections. METHODS: Twenty normal adult human
formalin-fixed cerebral hemispheres were used. Focused dissections on
the insular, orbitofrontal, ventromedial, ventrolateral, and
dorsolateral prefrontal areas were performed to record the topography of
the frontal terminations of the uncinate fasciculus. RESULTS: Three
discrete fiber layers were consistently disclosed: the first layer was
recorded to terminate at the posterior orbital gyrus and pars orbitalis,
the second layer at the posterior two thirds of the gyrus rectus, and
the last layer at the posterior one third of the paraolfactory gyrus.
The insular apex was documented as a crucial landmark regarding the
topographic differentiation of the uncinate and occipitofrontal
fasciculi (i.e., fibers that travel ventrally belong to the uncinate
fasciculus whereas those traveling dorsally are occipitofrontal fibers).
CONCLUSIONS: The frontal terminations of the uncinate fasciculus were
consistently documented to project to the posterior orbitofrontal area.
The area of the insular apex is introduced for the first time as a
crucial surface landmark to effectively distinguish the stems of the
uncinate and occipitofrontal fasciculi. This finding could refine the
spatial resolution of awake subcortical mapping, especially for insular
lesions, and improve the accuracy of in vivo diffusion tensor imaging
protocols
The Effect of Strontium Ranelate on Fracture Healing: An Animal Study
Background. Strontium ranelate (StR) is an antiosteoporotic agent
previously utilized for the enhancement of fracture union. We
investigated the effects of StR on fracture healing using a rabbit
model. Methods. Forty adult female rabbits were included in the study
and were divided in 2 equal groups, according to StR treatment or
untreated controls. All animals were subjected to osteotomy of the ulna,
while the contralateral ulna remained intact and served as a control for
the biomechanical assessment of fracture healing. Animals in the study
group received 600 mg/kg/day of StR orally. All animals received
ordinary food. At 2 and 4 weeks, all animals were euthanatized and the
osteotomy sites were evaluated for healing through radiological,
biomechanical, and histopathological studies. Results. The treatment
group presented statistically significant higher callus diameter, total
callus area, percentage of fibrous tissue (p<0.001), vessels/mm(2),
number of total vessels, and lower osteoclast number/mm(2) (p<0.05) than
the control group at 2 weeks. Additionally, the treatment group
presented significantly higher percentages of new trabecular bone,
vessels/mm(2), osteoclast number/mm(2), and lower values for callus
diameter, as well as total callus area (p<0.05), than the control group
at 4 weeks. At 4 weeks, in the treatment group, force applied (p=0.003),
energy at failure (p=0.004), and load at failure (p=0.003) were all
significantly higher in the forearm specimens with the osteotomized
ulnae compared to those without. Radiological bone union was
demonstrated for animals receiving StR at 4 weeks compared with controls
(p=0.045). Conclusion. StR appears to enhance fracture healing but
further studies are warranted in order to better elucidate the
mechanisms and benefits of StR treatment