Peritoneal surface area: measurements of 40 structures covered by peritoneum: correlation between total peritoneal surface area and the surface calculated by formulas

Background We have not found studies that have measured the peritoneal surface area of each of the walls, organs, mesos, omenta, and peritoneal ligaments in a group of non-eviscerated human cadavers. Objectives The objectives of this study were to obtain in fixed non-eviscerated cadavers: (1) the su...

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Bibliographic Details
Published in:Surgical and radiologic anatomy (English ed.) 2009-06, Vol.31 (5), p.369-377
Main Authors: Albanese, Alfonso M., Albanese, Eduardo F., Miño, Jorge H., Gómez, Elena, Gómez, Marta, Zandomeni, Marcos, Merlo, Alicia B.
Format: Article
Language:English
Subjects:
Abdomen
Aged
Aged, 80 and over
Algorithms
Anatomy
Anatomy & physiology
Anesthesia. Intensive care medicine. Transfusions. Cell therapy and gene therapy
Biological and medical sciences
Body Surface Area
Emergency and intensive care: renal failure. Dialysis management
Female
General aspects
Humans
Imaging
Intensive care medicine
Measurement
Medical sciences
Medicine
Medicine & Public Health
Middle Aged
Original Article
Orthopedics
Peritoneum - anatomy & histology
Radiology
Surgery
Viscera - anatomy & histology
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Summary:Background We have not found studies that have measured the peritoneal surface area of each of the walls, organs, mesos, omenta, and peritoneal ligaments in a group of non-eviscerated human cadavers. Objectives The objectives of this study were to obtain in fixed non-eviscerated cadavers: (1) the surface values of walls, organs, mesos, omenta, and peritoneal ligaments of each one and all the areas mentioned in the anatomy bibliography and their contribution to supra- and infra-colic portions, visceral and parietal portions of the supra- and infra-colic portions and the total peritoneal surface area, and (2) the relationship between the peritoneal surface values by direct measurement and the values obtained applying the formulas usually used in clinical practice to obtain body surface area. Methods The peritoneal surface area of ten female human bodies presenting no abdominal pathologies were measured. They were fixed in 5% formaldehyde solution without the use of perfusion pumps and non-eviscerated, thus maintaining all structures intact. Cellophane was placed directly in situ onto all organs, mesos, omenta, ligaments and parietal walls. Digital imaging was obtained by scanning the models. A length reference was included and the surface was determined by the Scion Image program for Windows. Results This paper provides for the first time data on each one and all the areas covered by the peritoneum. The total peritoneal surface area was (mean ± SE) 14,323.62 ± 824.37 cm 2 . The two greater surfaces of peritoneum (39.21% of the total surface) correspond to the jejunum–ileum and its mesentery. The diaphragmatic peritoneum represented the greater area of parietal peritoneum. The supracolic surface was 4,487.46 ± 196.21 cm 2 (31.79 ± 1.50%) and the infracolic one of 9,836.16 ± 732.67 cm 2 (68.21 ± 1.50%). An interesting result of this work is that the surface of the parietal peritoneum in the supracolic abdomen (1,786.67 ± 92.58 cm 2 , 68.56%) is more than twice that of the infracolic region (756.62 ± 55.91 cm 2 , 31.44%). The visceral peritoneal surface (81.89 ± 0.99% of the total) was much higher than that of the parietal peritoneum (18.11 ± 0.99%). This difference is 12 times bigger in the infracolic abdomen. The peritoneal surface area measured in this study in non-eviscerated cadavers represents more than 96% of the one estimated by the above-mentioned formulas. Conclusion The values shown in this paper would provide non-existing information for basic anato
ISSN:0930-1038
1279-8517
DOI:10.1007/s00276-008-0456-9