2,940 research outputs found
TRANSESOPHAGEAL RIGHT UPPER PULMONARY LOBECTOMY - IN VIVO PORCINE EXPERIMENTAL STUDY
TRANSESOPHAGEAL RIGHT UPPER PULMONARY LOBECTOMY - IN VIVO PORCINE EXPERIMENTAL STUDY
João Moreira-Pinto, MD1,2,3; Aníbal Ferreira, MD1,2,4; Alice Miranda, DVM1,2; Carla Rolanda, MD, PhD1,2,4; Jorge Correia-Pinto, MD, PhD1,2,5
1Surgical Sciences Research Domain, Life and Health Sciences Research Institute (ICVS), School of Health Sciences, University of Minho, Braga, Portugal; 2ICVS/3B’s - PT Government Associate Laboratory, Braga/Guimarães, Portugal; 3Pediatric Surgery division, Centro Hospitalar do Porto, Porto, Portugal; 4Department of Gastroenterology, Hospital de Braga, Braga, Portugal; 5Pediatric Surgery division, Hospital de Braga, Braga, Portugal.
Background and Study Aims
Video-assisted thoracoscopic surgery (VATS) has been widespread as the better approach to carry out pulmonary lobectomy. Natural Orifice Transluminal Endoscopic Surgery (NOTES) is being assessed as an alternative to the transthoracic endoscopic surgery. We designed this study to test the feasibility of peroral transesophageal right upper pulmonary lobectomy with the assistance of a single transthoracic trocar.
Material and Methods
In ten anesthetized pigs (35-45 Kg), we performed right upper pulmonary lobectomy using a forward viewing single-channel gastroscope (introduced perorally) and an operative thoracoscope with a 5 mm working channel (introduced through a single-transthoracic 10 mm port) (Karl Storz). After introducing the gastroscope throughout an oroesophageal overtube into the esophagus, a 1 cm transverse esophagotomy was carried out in the upper third using an ESD-knife under thoracoscope control. Anatomic dissection of the right upper hilum was performed using flexible (gastroscope) and rigid (thoracoscope) instruments. After individual dissection, right upper pulmonary arteries, veins and correspondent bronchus were independently stapled using a 45-mm long, linear endostapler (EndoPath®, Ethicon Endo-Surgery) introduced through the oroesophageal overtube. After completing the lobe resection using an endoscopic snare with cautery, the specimen was extracted retrogradely through the mouth. The esophagotomy was stitched and tied using Endo Stitch™ (Covidien) and a long knot-pusher, which were handled through the oroesophageal overtube.
Results
Esophagotomy was performed safely in all animals. Dissection of the right upper lobe hilum elements (arteries, veins and bronchus) was also carried out in all animals without significant problems. Oroesophageal handling of the endostapplers for independent ligation of the hilum elements under transthoracic imaging was surprisingly feasible, reasonably easy to perform and reliable in 7 cases. In two cases ligation of the vessels was en bloc. In one case, severe hemorrhage occurred from incomplete vein ligation, although we could control it using electrocoagulation. Esophagotomy closure was feasible but its reliability was not tested in survival studies. All but one animal were kept alive until the end of the acute experiment when they were sacrificed.
Conclusions
Transesophageal right upper pulmonary lobectomy using single transthoracic trocar assistance is feasible and it may represent a step towards scarless pulmonary lobectomy. Additional survival studies are necessary to test the reliability of this procedure.
Apresentador:
João Moreira-Pinto, Médico Interno de Cirurgia Pediátrica, CHP
Five really easy steps to build a homemade low-cost simulator
AIM:
The aim of this study was to evaluate how simple it is to build a homemade low-cost simulator using a simple 5-step scheme.
METHODS:
A scheme explaining how to build an endoscopic surgery simulator in 5 easy steps was presented to 26 surgeons. The simulator required a pair of scissors and easy-to-find materials. Its total cost was less than €35. The participants assessed the simulator using common endoscopic training toys or ex vivo tissue and completed an anonymous query comparing it with other commercial simulators that they had experienced before.
RESULTS:
In all, 84.6% found the simulator really easy to build. Every participant felt that he or she could do the same simulator themselves. Comparing with other commercial available box simulators, the majority of participants found the homemade simulator easier to (a) mount and dismount, (b) transport, (c) clean, and (d) use when practicing alone.
CONCLUSIONS:
Anyone can build its own simulator for a small amount of money
Distinct load dependence of relaxation rate and diastolic function in Oryctolagus cuniculus and Ratus norvegicus
This study investigated potential differences on load dependence of relaxation rate and diastolic function between Oryctolagus cuniculus and Ratus norvegicus, which have constitutive differences in the mechanisms involved in myocardial inactivation. Load dependence of relaxation rate and diastolic function were evaluated with the response of left ventricular time constant tau and diastolic pressure-dimension relation to beat-to-beat aortic constrictions in open-chest rabbits and rats. Afterload levels were normalized, being expressed as a percentage of peak isovolumetric pressure (relative load). In control heartbeats, relaxation rate and diastolic function were similar in the two animal species. They presented, however, distinct responses to afterload elevations. In rabbits, time constant decreased similar to7% and diastolic pressure-dimension relation remained unchanged when afterload was elevated to a relative load of 73-76%. Above this afterload level, a significant deceleration of relaxation rate (increase of time constant) and an upward shift of diastolic pressure-dimension relation were observed. In rats, afterload elevations accelerated pressure fall up to a relative load of 97-100% and no afterload-induced shift of the diastolic pressure-dimension relation was observed. This study provides, therefore, evidence that Oryctolagus cuniculus has lower afterload reserve of myocardial relaxation and diastolic function than Ratus norvegicus
Pattern of right ventricular pressure fall and its modulation by afterload
Pattern of right ventricular pressure (RVP) fall and its afterload dependence were examined by analyzing ventricular pressure curves and corresponding pressure-dP/dt phase planes obtained in both ventricles in the rat heart in situ. Time and value of dP/dt(min), and the time constant tau were measured at baseline and during variable RV afterload elevations, induced by beat-to-beat pulmonary trunk constrictions. RVP and left ventricular pressure (LVP) decays were divided into initial accelerative and subsequent decelerative phases separated by corresponding dP/dt(min). At baseline, LVP fall was decelerative during 4/5 of its course, whereas only 1/3 of RVP decay occurred in a decelerative fashion. During RV afterload elevations, the absolute value of RV-dP/dt(min) and RV-tau increased, whilst time to RV-dP/dt(min) decreased. Concomitantly, the proportion of RVP decay following a decelerative course increased, so that in highly RV afterloaded heartbeats RVP fall became more similar to LVP fall. In conclusion, RVP and LVP decline have distinct patterns, their major portion being decelerative in the LV and accelerative in the RV. In the RV, dP/dt(min), tau and the proportional contribution of accelerative and decelerative phases for ventricular pressure fall are afterload-dependent. Consequently, tau evaluates a relatively much shorter segment of RVP than LVP fall
Monitorização da qualidade da energia elétrica
A monitorização da Qualidade da Energia Elétrica é uma mais-valia para os responsáveis pelas instalações elétricas, permitindo a otimização dos perfis de consumo e a identificação e prevenção de problemas.Fundação para a Ciência e a Tecnologia (FCT
Immunological impact of induced acute physical activity reduction
[resumo][abstract
- …