dental lamina

Growth of the dental lamina continues in an area called the "progress zone".

Hyperdontia is believed to be associated with an excess of dental lamina.

The tooth bud itself is the group of cells at the end of the dental lamina.

In actuality, there is no mesenchyme completely surrounded by dental lamina.

These cases are a result from the dental lamina being a curved structure while the slide contains tissue taken in one plane.

Eventually, the dental lamina disintegrates into small clusters of epithelium and is resorbed.

The dental lamina connects the developing tooth bud to the epithelial layer of the mouth for a significant time.

The enamel organ looks to be connected to the oral epithelium by two or more strands of dental lamina.

The development of deciduous teeth starts at the sixth week of development as the dental lamina.

When it is present, the dental lamina connects the developing tooth bud to the epithelium of the oral cavity.

The dental lamina is a band of epithelial tissue seen in histologic sections of a developing tooth.

KCOTs are thought to arise from the dental lamina and associated with impacted teeth.

The ameloblastic fibroma is an odontogenic tumor arising from the enamel organ or dental lamina.

This group of cells, called a clone, coaxes the dental lamina into tooth development, causing a tooth bud to form.

The enamel niche is the name of the mesenchymal cells which look to be surrounded by the strands of the dental lamina.

Large number of rests of dental lamina are found in the connective tissue composed of glycogen rich clear cells.

The gingival cyst of the newborn is a cyst that arises from the rest cells of the dental lamina.

Both the vestibular lamina and the dental lamina arise from a group of epithelial cells, called the primary epithelial band.

Best described as an in-growth of oral ectoderm, the dental lamina is frequently distinguished from the vestibular lamina, which develops concurrently.

The dental lamina is first evidence of tooth development and begins at the sixth week in utero or three weeks after the rupture of the buccopharyngeal membrane.

The nodes are a result of cystic degeneration of epithelial rests of the dental lamina (rests of Serres).

One of the earliest steps in the formation of a tooth that can be seen microscopically is the distinction between the vestibular lamina and the dental lamina.

When the tissues of the developing tooth are seen under a microscope, different cellular aggregations can be identified, including structures known as the enamel organ, dental lamina, and dental papilla.

The dental lamina disintegrates, leaving the developing teeth completely separated from the epithelium of the oral cavity; the two will not join again until the final eruption of the tooth into the mouth.

It is suggested that supernumerary teeth develop from a second tooth bud arising from the dental lamina near the regular tooth bud or possibly from splitting the regular tooth bud itself.