ABSTRACT
Los cirujanos cardiovasculares y del aparato digestivo deberían estar al corriente de las múltiples alternativas de abordaje de la aorta abdominal y sus troncos viscerales. Artículo narrativo, ilustrado y dinámico de las diferentes maniobras quirúrgicas descritas con este objetivo. Disección de 5 cadáveres realizadas durante tres cursos nacionales de Anatomía Quirúrgica aplicada a aorta integral, Cirugía hepatobiliopancreática y Cirugía abdominal digestiva. Maniobras quirúrgicas descritas: abordaje aórtico inframesocólico longitudinal, abordaje aórtico supracelíaco, abordaje del tronco celíaco, tres tipos de abordaje de la arteria mesentérica superior: retroperitoneal tras maniobra de Kocher, supramesocólico e inframesocólico, maniobra de Cattell-Braasch y dos tipos de maniobra de Mattox: retrorrenal y prerrenal. El conocimiento profundo de la anatomía intraabdominal es fundamental para la actuación quirúrgica sobre la aorta abdominal y el entrenamiento en cadáver a partir de la anatomía quirúrgica vascular y del tubo digestivo podría ayudar a desarrollar las habilidades quirúrgicas de los cirujanos en formación. (AU)
Access to the abdominal aorta and its visceral trunks is possible through several approaches. Dissections of five cadavers performed during three National Surgical Anatomy courses applied to Aorta, Hepatobiliopancreatic and Digestive Surgery. Videos and pictures were taken throughout the dissections and showed different abdominal aorta approaches. Abdominal aorta and visceral trunks approaches: longitudinal inframesocolic access, supraceliac clamping, celiac trunk dissection, superior mesenteric artery approaches (retroperitoneal after Kocher menoeuvre, supramesocolic or inframesocolic), Cattell-Braasch manoeuvre and mattox manoeuvre: retrorenal and prerenal. Correct knowledge of the intraabdominal anatomy is necessary to perform all the abdominal aorta surgical approaches. Cadaveric dissection could help to achieve this objective. Cardiovascular and digestive surgeons need to know the possible strategies in order to choose the one which is best suited for each patient. (AU)
Subject(s)
Humans , Aorta, Abdominal/anatomy & histology , Aorta, Abdominal/surgery , Aortic Dissection , CadaverABSTRACT
Access to the abdominal aorta and its visceral trunks is possible through several approaches. Dissections of five cadavers performed during three National Surgical Anatomy courses applied to Aorta, Hepatobiliopancreatic and Digestive Surgery. Videos and pictures were taken throughout the dissections and showed different abdominal aorta approaches. Abdominal aorta and visceral trunks approaches: longitudinal inframesocolic access, supraceliac clamping, celiac trunk dissection, superior mesenteric artery approaches (retroperitoneal after Kocher menoeuvre, supramesocolic or inframesocolic), Cattell-Braasch manoeuvre and mattox manoeuvre: retrorenal and prerenal. Correct knowledge of the intraabdominal anatomy is necessary to perform all the abdominal aorta surgical approaches. Cadaveric dissection could help to achieve this objective. Cardiovascular and digestive surgeons need to know the possible strategies in order to choose the one which is best suited for each patient.
Subject(s)
Aorta, Abdominal , Celiac Artery , Aorta, Abdominal/surgery , Cadaver , Dissection , Humans , Mesenteric Artery, SuperiorABSTRACT
Access to the abdominal aorta and its visceral trunks is possible through several approaches. Dissections of five cadavers performed during three National Surgical Anatomy courses applied to Aorta, Hepatobiliopancreatic and Digestive Surgery. Videos and pictures were taken throughout the dissections and showed different abdominal aorta approaches. Abdominal aorta and visceral trunks approaches: longitudinal inframesocolic access, supraceliac clamping, celiac trunk dissection, superior mesenteric artery approaches (retroperitoneal after Kocher menoeuvre, supramesocolic or inframesocolic), Cattell-Braasch manoeuvre and mattox manoeuvre: retrorenal and prerenal. Correct knowledge of the intraabdominal anatomy is necessary to perform all the abdominal aorta surgical approaches. Cadaveric dissection could help to achieve this objective. Cardiovascular and digestive surgeons need to know the possible strategies in order to choose the one which is best suited for each patient.
ABSTRACT
BACKGROUND: The fusion fascia of Toldt is a well-known landmark used by colorectal surgeons. On the contrary, the fusion fascia of Fredet (the plane between the ascending mesocolon and the visceral duodenal-pancreatic peritoneum) still remains a neglected embryological structure. Aim of this study was to provide an anatomic description of this fascia and its application to minimally invasive D3-lymphadenectomy (D3-L) and complete mesocolic excision (CME) for right colon cancer. METHODS: First phase: Cadaveric dissection and anatomic description of the fascia of Fredet. Second phase: prospective evaluation of its surgical application in a consecutive series of laparoscopic right hemicolectomies with CME and D3-L at a tertiary hospital. RESULTS: The fascia of Fredet was identified and dissected in one fresh and two formalin-fixed cadavers. The trunk of Henle and the medial border of the superior mesenteric vein defined the medial limit of this embryologic plane. Seventeen patients were operated on. Laparoscopic dissection of the fascia of Fredet was possible in every patient. Median operative time was 210 (120-380) min. There were no major postoperative complications. All cases were adenocarcinomas, except one adenomatous polyp. T stage was Tis in three, T2 in two, T3 in seven, and T4 in five patients. Median number of harvested lymph nodes was 24 (9-39). Lymphatic invasion was found in six patients. All resections were classified as satisfactory mesocolic excision and R0. Median postoperative length of stay was 6 (4-20) days. Median follow-up time was 28 (16-41) months. Local and distal recurrence rate was 0. CONCLUSION: The fusion fascia of Fredet is useful to achieve CME and D3-L in right colon cancers with reduced risk of intraoperative complications. This structure is particularly suitable for minimally invasive surgery; therefore, we encourage awareness of the fascia of Fredet by colorectal surgeons.
