Abstract

BackgroundIt remains unclear to what extent midgut rotation determines human intestinal topography and pathology. We reinvestigated the midgut during its looping and herniation phases of development, using novel 3D visualization techniques.ResultsWe distinguished 3 generations of midgut loops. The topography of primary and secondary loops was constant, but that of tertiary loops not. The orientation of the primary loop changed from sagittal to transverse due to the descent of ventral structures in a body with a still helical body axis. The 1st secondary loop (duodenum, proximal jejunum) developed intraabdominally towards a left-sided position. The 2nd secondary loop (distal jejunum) assumed a left-sided position inside the hernia before returning, while the 3rd and 4th secondary loops retained near-midline positions. Intestinal return into the abdomen resembled a backward sliding movement. Only after return, the 4th secondary loop (distal ileum, cecum) rapidly “slid” into the right lower abdomen. The seemingly random position of the tertiary small-intestinal loops may have a biomechanical origin.ConclusionsThe interpretation of “intestinal rotation” as a mechanistic rather than a descriptive concept underlies much of the confusion accompanying the physiological herniation. We argue, instead, that the concept of “en-bloc rotation” of the developing midgut is a fallacy of schematic drawings. Primary, secondary and tertiary loops arise in a hierarchical fashion. The predictable position and growth of secondary loops is pre-patterned and determines adult intestinal topography. We hypothesize based on published accounts that malrotations result from stunted development of secondary loops.Electronic supplementary materialThe online version of this article (doi:10.1186/s12861-015-0081-x) contains supplementary material, which is available to authorized users.

Highlights

  • It remains unclear to what extent midgut rotation determines human intestinal topography and pathology

  • The pre-herniation period The foregut could first be identified in Carnegie Stage (CS) 9 embryos (25–27 days post fertilization) and the hindgut at CS10 (28–30 days)

  • We studied the midgut during its looping and herniation phases of development and distinguished 3 generations of midgut loops

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Summary

Introduction

It remains unclear to what extent midgut rotation determines human intestinal topography and pathology. We reinvestigated the midgut during its looping and herniation phases of development, using novel 3D visualization techniques. Malrotations are considered as incomplete or abnormal rotations of the midgut around the vitelline/superior mesenteric artery (SMA). The symptoms of malrotation are not well understood and not all malrotations become symptomatic [2, 3]. It is usually in the early months of life, with 75–85 % of cases diagnosed within one year of age [4]. If one assumes that malrotations represent “frozen” stages of normal development [5], it becomes important to establish how the intestine develops. The standard description of normal intestinal “rotation” encompasses a couple of sequential developmental steps

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