OBJECTIVE: The neonatal line (NNL) is in principle found in all primary teeth and the line represents the time of birth. Earlier findings of the appearance of the NNL in light microscope and in microradiographs have shown not only changes in the prism direction of the enamel, but that the NNL has a hypomineralized character. METHODS: The neonatal line was analyzed in un-decalcified sections of primary lower and central incisors, collected from individuals of different ages utilizing polarized light microscopy, microradiography, scanning electron microscopy (SEM) and X-ray analysis (XRMA). RESULTS: In polarized light the NNL appeared to have a more porous structure than the enamel in general. The appearance of the NNL as a dark line in microradiographs is interpreted as the NNL being less mineralized than neighbouring enamel. Analysis with ImageJ visualized the reduction of the amount of grey value, indicating that the NNL is less mineralized. Analysis of the NNL in SEM showed a reduction of the diameter of enamel prisms, the more narrow diameters continued through the postnatal enamel. A change of the growth direction of the prisms was also observed at the NNL. In a three-dimensional image the NNL appeared as a grove, however, in non-etched enamel no grove was seen. The elemental analyses with XRMA showed no marked changes in the content of C, Ca, P, N, O or S in the area around the NNL. CONCLUSIONS: The NNL is an optical phenomenon due to alterations in height, and degree of mineralization of the enamel prisms.
n class="abstract_title">OBJECTIVE: The neonatal line (NNL) is in principle found in all primary teeth and the line represenpan>ts the time of birth. Earlier findings of the appearance of the NNL in light microscope and in microradiographs have shownpan> not only changes in the prism direction of the enpan>amel, but that the NNL has a hypomineralized character. n class="abstract_title">METHODS: The neonatal line was analyzed in un-decalcified sections of primary lower and central incisors, collected from individuals of different ages utilizing polarized light microscopy, microradiography, scanning electron microscopy (SEM) and X-ray analysis (XRMA). RESULTS: In polarized light the NNL appeared to have a more porous structure than the enamel in general. The appearance of the NNL as a dark line in microradiographs is interpreted as the NNL being less mineralized than neighbouring enamel. Analysis with ImageJ visualized the reduction of the amount of grey value, indicating that the NNL is less mineralized. Analysis of the NNL in SEM showed a reduction of the diameter of enamel prisms, the more narrow diameters continued through the postnatal enamel. A change of the growth direction of the prisms was also observed at the NNL. In a three-dimensional image the NNL appeared as a grove, however, in non-etched enamel no grove was seen. The elemental analyses with XRMA showed no marked changes in the content of C, Ca, P, N, O or S in the area around the NNL. CONCLUSIONS: The NNL is an optical phenomenon due to alterations in height, and degree of mineralization of the enamel prisms.
Authors: Andrea E Cassidy-Bushrow; Kuan-Han Hank Wu; Alexandra R Sitarik; Sung Kyun Park; Lawrence F Bielak; Christine Austin; Chris Gennings; Paul Curtin; Christine Cole Johnson; Manish Arora Journal: Environ Res Date: 2019-01-31 Impact factor: 6.498
Authors: Julia Anglen Bauer; Birgit Claus Henn; Christine Austin; Silvia Zoni; Chiara Fedrighi; Giuseppa Cagna; Donatella Placidi; Roberta F White; Qiong Yang; Brent A Coull; Donald Smith; Roberto G Lucchini; Robert O Wright; Manish Arora Journal: Environ Int Date: 2017-09-21 Impact factor: 9.621
Authors: Ana M Mora; Manish Arora; Kim G Harley; Katherine Kogut; Kimberly Parra; David Hernández-Bonilla; Robert B Gunier; Asa Bradman; Donald R Smith; Brenda Eskenazi Journal: Environ Int Date: 2015-07-24 Impact factor: 9.621
Authors: Robert B Gunier; Manish Arora; Michael Jerrett; Asa Bradman; Kim G Harley; Ana Maria Mora; Katherine Kogut; Alan Hubbard; Christine Austin; Nina Holland; Brenda Eskenazi Journal: Environ Res Date: 2015-10 Impact factor: 6.498