Andreas Niklas scite author profile

Orthodontic forces are known to have various effects on the alveolar process, such as cell deformation, inflammation, and circulatory disturbances. Each of these conditions affecting cell differentiation, cell repair, and cell migration, is driven by numerous molecular and inflammatory mediators. As a result, bone remodeling is induced, facilitating orthodontic tooth movement. However, orthodontic forces not only have cellular effects but also induce vascular changes. Orthodontic forces are known to occlude periodontal ligament vessels on the pressure side of the dental root, decreasing the blood perfusion of the tissue. This condition is accompanied by hypoxia, which is known to either affect cell proliferation or induce apoptosis, depending on the oxygen gradient. Because upregulated tissue proliferation rates are often accompanied by angiogenesis, hypoxia may be assumed to fundamentally contribute to bone remodeling processes during orthodontic treatment.

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In vitro optical detection of simulated blood pulse in a human tooth pulp model

Niklas

Hiller

Jaeger

et al. 2013

Clin Oral Invest

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Spectroscopic Study of Human Teeth and Blood from Visible to Terahertz Frequencies for Clinical Diagnosis of Dental Pulp Vitality

Hirmer

Danilov

Giglberger

et al. 2012

J Infrared Milli Terahz Waves

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Transmission spectra of wet human teeth and dentin slices, together with blood of different flow rates were investigated. The measurements carried out over a wide spectral range, from visible light down to terahertz radiation. The results make it possible to find the optimum light frequency for an alloptical determination of pulpal blood flow and, consequently, for clinically diagnosis of tooth vitality.

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Detection of pulsed blood flow through a molar pulp chamber and surrounding tissue in vitro

et al. 2018

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Die Mischungslücke im System Barium‐Bariumchlorid

Schäfer

Niklas

1952

Angewandte Chemie

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Andreas Niklas

The Role of Hypoxia in Orthodontic Tooth Movement

In vitro optical detection of simulated blood pulse in a human tooth pulp model

Spectroscopic Study of Human Teeth and Blood from Visible to Terahertz Frequencies for Clinical Diagnosis of Dental Pulp Vitality

Detection of pulsed blood flow through a molar pulp chamber and surrounding tissue in vitro

Die Mischungslücke im System Barium‐Bariumchlorid

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