Observations on the development of the aortico-pulmonary spiral septum in the mouse.

The differentiation of the bulbar region and arterial outflow tract of the developing mouse heart was investigated by analysing serial transverse sections through the heart region of mouse embryos isolated between the eleventh and fifteenth day of gestation. Over this period of time, we observed the configurational and cellular changes occurring within the wall of this region of the heart, being particularly interested in the histological appearance of the cellular constituents of the spiral ridges and their eventual apposition and fusion to form the spiral septum. We observed that the mesenchyme cells of which the ridges are largely composed are initially orientated in the direction of the outflow tract, but subsequently realign themselves when the individual ridges become oblique and spiral in their configuration. The tissue that gives rise to the spiral septum, namely the 'bulbar cushions' proximally, and the 'truncal cushions' in the rest of the outflow tract appear at all stages to be continuous structures. We saw no evidence that they initially develop as separate entities, and subsequently fuse. Furthermore, no evidence of cell death was observed in either the mesenchyme tissue or in the wall of the outflow tract. We have therefore suggested that, contrary to the findings of Pexieder (1978), pre-programmed cell death probably plays no significant part in the development of the spiral septum in the mouse, though we cannot exclude the possibility that there may be species differences between the events associated with spiral septum formation in avian and mammalian embryos. We conclude from our histological observations that the changes that occur in the arterial outflow tract in the mouse are probably brought about by the haemodynamic effect of the forces of blood flow impinging on its walls and that this initiates a series of events that are controlled to a considerable degree by pre-programmed genetic instruction.

[1]  G. Hutchins,et al.  Rotation of the junction of the outflow tract and great arteries in the embryonic human heart , 1986, The Anatomical record.

[2]  G. Hutchins,et al.  Development of aortic and mitral valve continuity in the human embryonic heart. , 1986, The American journal of anatomy.

[3]  M. Kaufman,et al.  Differentiation of the myocardial rudiment of mouse embryos: an ultrastructural study including freeze-fracture replication. , 1986, Journal of anatomy.

[4]  M. Kaufman,et al.  Early differentiation of the heart in mouse embryos. , 1981, Journal of anatomy.

[5]  M. Kaufman The role of embryology in teratological research, with particular reference to the development of the neural tube and heart. , 1981, Journal of reproduction and fertility.

[6]  G. Hutchins,et al.  Development of the outflow tract and closure of the interventricular septum in the normal human heart. , 1981, The American journal of anatomy.

[7]  M. de la Cruz,et al.  Experimental study of the development of the truncus and the conus in the chick embryo. , 1977, Journal of anatomy.

[8]  N J Sissman,et al.  Developmental landmarks in cardiac morphogenesis: comparative chronology. , 1970, The American journal of cardiology.

[9]  O. Jaffee The development of the arterial outflow tract in the chick embryo heart , 1967, The Anatomical record.

[10]  O. Jaffee Bloodstreams and the formation of the interatrial septum in the anuran heart , 1963, The Anatomical record.

[11]  F. Goldby Human Embryology (Prenatal Development of Form and Function). , 1963 .

[12]  J. A. Los Cardiac septation and development of the aorta, pulmonary trunk, and pulmonary veins: previous work in the light of recent observations. , 1978, Birth defects original article series.

[13]  Z. Rychter,et al.  Development of hereditary ventricular septal defects in Siller's strain of chick embryos. , 1978, Birth defects original article series.

[14]  T. Pexieder Development of the outflow tract of the embryonic heart. , 1978, Birth defects original article series.

[15]  H. M. Lanne The septation of the arterial pole of the heart in the chick embryo. I. Introduction. , 1978, Acta morphologica Neerlando-Scandinavica.

[16]  A. Becker,et al.  The bulbus cordis--a misunderstood region of the developing human heart: its significance to the classification of congenital cardiac malformations. , 1978, Birth defects original article series.

[17]  D. C. Jaffee Hemodynamics and cardiogenesis: the effects of physiologic factors on cardiac development. , 1978, Birth defects original article series.

[18]  C. E. Challice,et al.  THE EMBRYOLOGIC DEVELOPMENT OF THE MAMMALIAN HEART , 1973 .

[19]  C. E. Challice,et al.  Origin and differentiation of cardiac muscle cells in the mouse. , 1973, Journal of ultrastructure research.

[20]  K. Theiler The house mouse. Development and normal stages from fertilization to 4 weeks of age. , 1972 .

[21]  R. D. Alley,et al.  PATHOGENESIS OF TRANSPOSITION COMPLEXES. I. EMBRYOLOGY OF THE VENTRICLES AND GREAT ARTERIES. , 1963, The American journal of cardiology.

[22]  J. Frazer The Formation of the Pars Membranacea Septi. , 2022, Journal of Anatomy.