3D CAT Scan and Gastric Volumetry in the Planning of Revisional Bariatric Surgery.

Background: The planning of revisional bariatric surgery is a complex process. The availability of accurate anatomical information is especially important for the planning of such challenging surgical procedures, we present our initial experience using three-dimensional-computed tomography (3D-CT) images to preoperatively assess the anatomy of patients before bariatric revisional surgery. Methods: We used 3D reconstructed images of CT scans to assess the anatomy and plan revisional surgery in 144 patients 98 of them had a previous sleeve gastrectomy 41 had a previous gastric by-pass and 4 Vertical banded gastroplasties. An effervescent preparation was used to distend the stomach and the proximal bowel allowing volume estimation. Results: Eleven sleeve patients underwent a re-sleeve gastrectomy and 44 were revised to a "Roux-en-Y" gastric bypass (RYGBP). Forty-two patients with a previous gastric by-pass were revised due to weight regain or other issues and 4 patients with previous vertical banded gastroplasty (VBGP) were revised to RYGBP. 3D-CT scans provided valuable information for the planning of all revisional procedures by offering accurate information about the existing anatomy and measures of the volume of the gastric pouch, the size of the gastro-jejunal anastomosis in gastric by-pass cases, or the volume and shape of the gastric tube in gastric sleeve cases. Conclusion: 3D-CT is a fast, widely available, reliable, and accurate tool to assess the anatomy after bariatric procedures. This noninvasive method can be particularly useful for the evaluation of postbariatric patients with failures, suboptimal results, and complications, and for the planning of revisional surgery.

Reconstrucción del ligamento patelofemoral medial (LPFM) con autoinjerto cuadricipital y uso de TAC 3D preoperatorio para establecer punto anatómico femoral / Medial patellofemoral ligament reconstruction with a quadriceps autograft and using a pre-operative 3-d ct scan to locate the femoral anatomical point

Introducción En los últimos años ha cobrado importancia la reconstrucción del LPFM. La técnica más utilizada es con autoinjerto de tendones isquiotibiales. En algunas series los reportes de complicaciones son mayores al 26%. Este trabajo pretende demostrar la utilidad del autoinjerto del cuádriceps para la reconstrucción del LPFM, sin túneles rotulianos y sin el uso de fluoroscopia intraoperatoria. Materiales y métodos Se incluyeron pacientes con historia clínica de al menos dos episodios de luxación. Se tomaron en todas los pacientes serie radiográfica, TAC axial rótulas, TAC 3D y RNM. Se obtuvo registro de manera retrospectiva de puntuaciones en las escalas de Lysholm, Tegner y Kujala en el posoperatorio con controles a los 6,12 y 18 meses. Resultados Cumplieron con los criterios de selección 24 pacientes, 16 mujeres y 8 hombres, edad promedio de 23 años.En nuestro estudio se observó la mejoría de puntuaciones en las escalas de Lysholm, Tegner y Kujala en el posoperatorio con controles a los 6,12 y 18 meses. Sin presentarse nuevos episodios de luxación rotuliana u otras complicaciones relevantes. Hubo un retorno en todos los casos a la actividad deportiva. Discusión Este estudio reafirma que el tendón cuadricipital es un injerto que reproduciendo mejor la anatomía del LPFM, presenta cifras comparables o mejores funcionalmente con los otros injertos utilizados en la actualidad. Con el protocolo preoperatorio de TAC3D se ha conseguido identificar en forma individual y con la especificidad anatómica de cada paciente, al tubérculo aductor y epicóndilo medial, dando mayor certeza en la ubicación anatómica de la inserción femoral LPFM. Con las ventajas adicionales de disminuir el tiempo quirúrgico, y evitar radiación innecesaria en el equipo quirúrgico.

Background The reconstruction of the medial patellar-femoral ligament (MPFL) has become increasingly important in recent years. The most used technique is a hamstring tendons autograft. Complications of greater than 26% have been reported in some series. The aim of this study is to demonstrate the use of quadriceps autograft for the reconstruction of the MPFL, without patellar tunnels and without the use of intraoperative fluoroscopy. Methods A Case Series study was performed. Patients with a clinical history of at least two episodes of dislocation were included. A series of x-rays, axial Computed Tomography (CT), patellae, 3D CT, and MR image were taken in all patients. Scores on the Lysholm, Tegner, and Kujala scales were used in the postoperative period, with controls at 6, 12 and 18 months being recorded Results A total of 24 patients, 16 women and 8 men, with a mean age of 23 years, met the selection criteria. An improvement was observed in the scores on the Lysholm, Tegner, and Kujala scales in the postoperative period, with controls at 6, 12, and 18 months. No new episodes of patellar dislocation or other relevant complications were observed. There was a return to sports activity in all cases. Discussion This study reaffirms that the quadriceps tendon is a graft that reproduces the anatomy of the MPFL better, shows figures comparable or functionally better than with the other grafts used at present. Using the preoperative protocol of 3-D CT scans, the adductor and medial epicondyle tubules have been identified individually and with the anatomical specificity of each patient, giving greater certainty in the anatomical location of the MPFL femoral insert. This also has the additional advantages of decreasing surgical time, and avoiding unnecessary radiation in the surgical team.

Aplicação de medidas cefalométricas em 3D-TC / Application of cephalometric measurements in 3D-TC

OBJETIVO: o objetivo desta pesquisa foi avaliar a precisão e acurácia (validade) de medidas cefalométricas lineares em imagens reconstruídas em terceira dimensão (3D), pela técnica de volume, a partir da tomografia computadorizada (TC) multislice. METODOLOGIA: o material da pesquisa consistiu de 10 (dez) crânios secos, previamente selecionados, sem distinção de etnia ou gênero, os quais foram submetidos à TC multislice 16 cortes com 0,5mm de espessura por 0,3mm de intervalo de reconstrução. Posteriormente, os dados obtidos foram enviados para uma estação de trabalho independente, contendo o programa Vitrea®. Os pontos cefalométricos (n=13) foram localizados e as respectivas medidas ósseas lineares (n=15) foram realizadas por 2 examinadores, previamente treinados, medindo cada um duas vezes, independentemente, em 3D. As medidas físicas foram obtidas por um terceiro examinador, utilizando um paquímetro digital. A análise dos dados foi realizada mediante um estudo comparativo entre as medidas inter e intra-examinadores, em 3D-TC, e entre estas e as medidas físicas obtidas diretamente nos crânios, utilizando ANOVA (análise de variância). RESULTADOS: não foram encontradas diferenças estatisticamente significantes entre os valores das medidas inter e intra-examinadores, nem entre as medidas físicas e em 3D, com p>0,6 para todas as medidas. O erro percentual foi de 2,05 por cento para as medidas interexaminadores e de 2,11 por cento para as medidas intra-examinadores. A média do erro percentual entre as medidas físicas e em 3D variou de 0,96 por cento a 1,47 por cento. CONCLUSÃO: todas as medidas cefalométricas lineares foram consideradas precisas e acuradas utilizando a técnica de volume em 3D por meio da TC multislice.

AIM: To test the precision and accuracy of conventional linear cephalometric measurements in 3D reconstructed images using a multislice CT. METHODS: The study population consisted of 10 dry skulls, previously selected, without distinction of ethnic group and sex, which were submitted to a multislice CT 16 slices using 0.5mm of slice thickness and 0.3mm of interval of reconstruction. Subsequently the data was sent to an independent workstation. Conventional craniofacial landmarks (n=13), usually applied to facial orthopedic and orthodontic treatment planning, were localized and linear measurements (n=15) were obtained by 2 radiologists, twice each, independently, in 3D-CT images. In total 600 measurements were made. The correspondent physical measurements were obtained by a third examiner using a digital caliper. Statistical evaluation of the measurements was carried out regarding to inter and intra-examiner, in 3D-CT, and between image and physical measurements from dry skulls, using analysis of variance. RESULTS AND CONCLUSIONS: There were no statistically significant differences between inter and intra-examiner measurements or between imaging and physical measurements. The results also showed an inter-examiner variability error of 2.05 percent, and an intra-examiner variability error of 2.11 percent. There were also no statistically significant differences between imaging and physical measurements with p>0.6 for all measurements. The mean difference was from 0.96 percent to 1.47 percent for all measurements. The validity of linear cephalometric measurements was established using 3D volume rendering from a multislice CT with high precision and accuracy.