Die Komplexität und Organisation des Lebens werden in den biologischen Phänomenen veranschaulicht, die der kieferorthopädischen Zahnbewegung (OTM) zugrunde liegen. Die kieferorthopädische Zahnbewegung ist im Wesentlichen eine biologische Reaktion auf eine mechanische Kraft. Es basiert auf der Prämisse, dass, wenn Kraft auf einen Zahn ausgeübt wird und dadurch auf das angrenzende umgebende Gewebe übertragen wird, bestimmte mechanische, chemische und zelluläre Vorgänge in diesen Geweben stattfinden, die strukturelle Veränderungen ermöglichen und zur Bewegung dieses Zahns beitragen.Um...
Die Komplexität und Organisation des Lebens werden in den biologischen Phänomenen veranschaulicht, die der kieferorthopädischen Zahnbewegung (OTM) ...
La complexité et l'organisation de la vie sont illustrées dans les phénomènes biologiques sous-jacents au mouvement dentaire orthodontique (OTM). Le mouvement dentaire orthodontique est essentiellement une réaction biologique à une force mécanique. Il est basé sur la prémisse que lorsque la force est délivrée à une dent et ainsi transmise aux tissus adjacents, certains événements mécaniques, chimiques et cellulaires se produisent dans ces tissus, ce qui permet des altérations structurelles et contribue au mouvement de cette dent.Pour mieux comprendre le mouvement...
La complexité et l'organisation de la vie sont illustrées dans les phénomènes biologiques sous-jacents au mouvement dentaire orthodontique (OTM). ...
Life's complexity and organization are illustrated in the biological phenomena underlying orthodontic tooth movement (OTM). Orthodontic tooth movement is essentially a biologic reaction towards a mechanical force. It is based on the premise that when force is delivered to a tooth and thereby transmitted to the adjacent investing tissues, certain mechanical, chemical and cellular events take place within these tissues, which allow for structural alterations and contribute to the movement of that tooth.To better understand orthodontic movement, we need to understand the tissue phenomena that...
Life's complexity and organization are illustrated in the biological phenomena underlying orthodontic tooth movement (OTM). Orthodontic tooth movement...
Careful investigation of the blood is often the first step in the assessment of hematologic function and diagnosis of related diseases; many hematologic disorders are also identified by specific blood tests. Blood smears and hematologic parameters examination yields important diagnostic information about cellular morphology, quantification of the blood cellular components, and evaluation of the pathophysiology that allows the formation of broad differential diagnostic impressions, directing additional testing. Apart from investigations, model analysis and observation plays an important role...
Careful investigation of the blood is often the first step in the assessment of hematologic function and diagnosis of related diseases; many hematolog...
Technology has changed the way orthodontic problems are diagnosed and treated. All of these advances have expanded the patient populations seeking treatment and have improved what clinicians can expect when treating patients. To ensure optimal treatment of patients, it is important for clinicians to continue learning and to keep up with advances as the field progresses as a whole to ensure that all orthodontic patients are treated to the optimal standard of care.
Technology has changed the way orthodontic problems are diagnosed and treated. All of these advances have expanded the patient populations seeking tre...