The relation between number and size of spinal motoneurons and the dimension of myotomal muscle has been investigated in trout at different stages of embryonic, larval and postlarval development (body length 1-15 cm). Three spinal segments have been analysed (cervical, trunk and caudal) and the following parameters were determined by means of a Micromeasurements Image Analyzer: (a) mean cross-sectional myotomal area; (b) mean soma size of principal (or dorsomedian, DM) and secondary (or ventrolateral, VL) motoneurons; (c) DM and VL motoneuron density per segment. Myotomal muscle and motor pool growth was evaluated by percent increments of a, b and c parameters at each stage. Their relationships were defined by equations of computed regression lines.The analysis provided evidence that: (1) a continuous exponential growth of mean myotomal area takes place in the three segments, with the same trend and with the lowest values in the caudal segment; (2) DM and VL motoneuron size and density per segment also increase during development, with the least value in the caudal segment, VL parameters being of lesser value than DM; (3) motoneuron pool and its target myotomal muscle parameters bear a linear relationship as defined by equations of computer regression lines; (4) motoneuron number percent increment at early eleutherembryonic stage precedes myotomal area increment which takes place during late eleutherembryonic stage.It is apparent that spinal motor pool and target myotomal muscle grow at the same rate in the trout during the considered stages. The discussion links this fact with the hypothesis ofa neuronal influence on muscle fibre type differentiation.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.