Your dentist can now detect a vitamin D deficiency before it becomes a major issue, found McMaster anthropologists Lori D’Ortenzio and Megan Brickley. Vitamin D deficiency, a serious but often hidden condition that can now be identified by a simple dental X-ray, according the study published in the International Journal of Paleopathology.
According to the research, the pulp shape in a healthy person’s tooth resembles an arch topped by two cat ears, while the pulp shape of a person who has had a severe deficiency of Vitamin D is asymmetrical and constricted, and typically looks like the profile of a hard-backed chair.
Since the consequences of Vitamin D deficiency can be severe—especially in terms of bone health—knowing who has had a deficiency can help identify people who may have ongoing issues in time to prevent worse damage, the researchers say. If regular dental X-rays show a problem, blood tests can confirm whether there is an ongoing deficiency.
The researchers and their colleagues had previously discovered that human teeth hold a detailed and permanent record of serious Vitamin D deficiency, or rickets.
That record takes the form of microscopic deformities in dentin, the material that makes up the mass of the tooth, and can be extremely valuable for understanding precisely when people, even those who lived centuries ago, were deprived of sunlight, the main source of Vitamin D.
The record is preserved by enamel, which protects teeth from breaking down, unlike bones, which are subject to decay.
The problem with looking for such deformities is that a tooth must be cut open to read the patterns that form a lifetime’s Vitamin-D record, and the supply of post-mortem teeth available for study is limited.
To avoid wasting precious specimens, the researchers went looking for a way to isolate teeth for further study.
By using X-rays to study the readily observable shapes of the ‘pulp horns’—the dark shadow at the centre of the image of a tooth—they found a consistent, recognisable pattern that could prove helpful not only to their studies of archaeological teeth, but to living people who may not realise that they are suffering from Vitamin D deficiency.
Such evidence could be particularly valuable in the case of children whose bones are still growing, the researchers say, and spotting a problem early could head off future problems with Vitamin-D related bone deficiency.
Additionally, knowing more about ongoing Vitamin D deficiency can also help to determine what is the best balance between protecting people from harmful UV rays and making sure they get enough sun to maintain a healthy level of the vital nutrient.