Xingmin Qu scite author profile

The salivary glands and oral bacteria play an essential role in the conversion process from nitrate (NO) and nitrite (NO) to nitric oxide (NO) in the human body. NO is, at present, recognized as a multifarious messenger molecule with important vascular and metabolic functions. Besides the endogenous L-arginine pathway, which is catalyzed by complex NO synthases, nitrate in food contributes to the main extrinsic generation of NO through a series of sequential steps (NO-NO-NO pathway). Up to 25% of nitrate in circulation is actively taken up by the salivary glands, and as a result, its concentration in saliva can increase 10- to 20-fold. However, the mechanism has not been clearly illustrated until recently, when sialin was identified as an electrogenic 2NO/H transporter in the plasma membrane of salivary acinar cells. Subsequently, the oral bacterial species located at the posterior part of the tongue reduce nitrate to nitrite, as catalyzed by nitrate reductase enzymes. These bacteria use nitrate and nitrite as final electron acceptors in their respiration and meanwhile help the host to convert nitrate to NO as the first step. This review describes the role of salivary glands and oral bacteria in the metabolism of nitrate and in the maintenance of NO homeostasis. The potential therapeutic applications of oral inorganic nitrate and nitrite are also discussed.

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Dose reduction of cone beam CT scanning for the entire oral and maxillofacial regions with thyroid collars

Li²,

Sanderink³

et al. 2012

Dentomaxillofacial Radiology

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Objective: The aim of this study was to evaluate the influence of thyroid collars on radiation dose during cone beam CT (CBCT) scanning. Methods: Average tissue-absorbed dose for a NewTom 9000 CBCT scanner (Quantitative Radiology, Verona, Italy) was measured using thermoluminescent dosemeter chips in a phantom. The scans were carried out with and without thyroid collars. Effective organ dose and total effective dose were derived using International Commission on Radiological Protection 2007 recommendations. Results: The effective organ doses for the thyroid gland and oesophagus were 31.0 mSv and 2.4 mSv, respectively, during CBCT scanning without a collar around the neck. When the thyroid collars were used loosely around the neck, no effective organ dose reduction was observed. When one thyroid collar was used tightly on the front of the neck, the effective organ dose for the thyroid gland and oesophagus were reduced to 15.9 mSv (48.7% reduction) and 1.4 mSv (41.7% reduction), respectively. Similar organ dose reduction (46.5% and 41.7%) was achieved when CBCT scanning was performed with two collars tightly on the front and back of the neck. However, the differences to the total effective dose were not significant among the scans with and without collars around the neck (p 5 0.775). Conclusions: Thyroid collars can effectively reduce the radiation dose to the thyroid and oesophagus if used appropriately.

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Thyroid shields for radiation dose reduction during cone beam computed tomography scanning for different oral and maxillofacial regions

Qu¹,

Zhang³

et al. 2012

European Journal of Radiology

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Xingmin Qu

The detection accuracies for proximal caries by cone-beam computerized tomography, film, and phosphor plates

Detection accuracy of in vitro approximal caries by cone beam computed tomography images

From Nitrate to Nitric Oxide

Dose reduction of cone beam CT scanning for the entire oral and maxillofacial regions with thyroid collars

Thyroid shields for radiation dose reduction during cone beam computed tomography scanning for different oral and maxillofacial regions

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