It is absolutely necessary to classify children's fractures for quality controls and clinical research. It is not possible that a classification of children's fractures will follow hierarchies, such as the prognosis of growth, the kind of treatment, the severity of the lesion, the patient's age, as well as medical expenditures and different techniques of therapy. The prognosis of growth is dependent on the patient's age and the localisation of the fracture in the bone and in the skeleton. The kind of treatment is dependent on the extent of displacement as well as on the localisation in the bone. Thus, a classification of children's fractures can only be characterized by the localisation of the fracture and the morphology. In addition, a parameter of "tolerable displacement" should be involved in the classification -as a sign for the possibility of spontaneous correction of displacements by further growth.From the morphological/functional point of view, the epiphyseal plate injuries should be differentiated into a metaphyseal part without proliferation but with mineralisation potential, and an epiphyseal part with proliferation but without mineralisation potential. From this aspect of functional morphology the epiphyseal separation -as a lesion in the metaphyseal part of the physis -belongs to the metaphyseal fractures (so to speak, it is the most peripheral shaft fracture), and the epiphyseal fracture -as a lesion in the epiphyseal part of the physis -belongs to the joint fractures.The localisation is differentiated into 4 main segments: upper arm, forearm, femur, and lower leg. In the segment itself, a subdivision is made into proximal, middle, and distal, with proximal and distal being further differentiated in metaphysis and epiphysis. In addition, it is possible to differentiate between radial and ulnar and tibial and fibular.The morphology is differentiated into typical fractures of the epiphysis, the metaphysis and the shaft fractures as well as avulsion fractures of ligaments, avulsion fractures of muscles and flake fractures. Exceptions in the consequent classification of morphology are only made at the distal end of the humerus and at the neck of the femur.The parameter of "tolerable displacement" shows up already known "spontaneous corrections" of displacements in the joints, the metaphysis and the epiphysis.The proposed classification should be used in prospective clinical studies to evaluate the prognosis of growth and the results of different therapeutic approaches.
The architecture of the collagenous fibers in epiphyseal plates of infantile long bones was investigated using polarized light and scanning electron microscope. In the zone of columnar cartilage the collagenous fiber bundles are arranged longitudinally in the intercolumnar cartilaginous septa. In addition to this main longitudinal orientation, some of the fibers branch off at an acute angle and flow through the cartilage columns surrounding rhombus-shaped groups of chondrocytes. In the area adjaced to the inert cartilage the collagen fibers become curved and form a network of arcades. In the zone of inert cartilage the collagenous fibers are arranged in a honeycomb-like fashion. The importance of the arrangement of the collagen fibers to the loading strength of the epiphyseal plate is discussed.
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