Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/3720
Title: The development of a nano-sized eggshell and titanium dioxide desensitising paste to re-mineralise teeth
Authors: Onwubu, Stanley Chibuzor 
Issue Date: 2019
Abstract: 
Dentin hypersensitivity [DH] is a common occurrence and notable painful condition
among dental patients. Clinically, the pain associated with DH is caused by external
stimuli such as thermal, tactile, osmotic or chemical changes from open dentinal
tubules. Traditionally, the treatment of DH is the use of at-home desensitising
toothpaste. While there is a variety of desensitising paste such as Sensodyne® and
Colgate sensitive Pro-Relief TM to treat DH, the dentin tubule remineralising
characteristics of these paste are, however, limited in an acidic environment which
could result in DH relapse. The limiting abilities of these desensitising paste prompt
this study to develop a desensitising agent using nano-sized eggshell-titanium dioxide
(EB@TiO2) as an active ingredient in the management of DH.
A quantitative research design and an experimental research strategy were adopted.
The research design included three phases. In phase one of this study, different
characterisation techniques such as Fourier Transform Infrared Spectroscopy (FTIR);
X-ray Diffraction (XRD); Energy Dispersive X-ray Spectroscopy (EDX) and Scanning
Electron Microscope (SEM); High Transmission Electron Microscopy (HRTEM); and
Thermo-Gravimetric were used to confirm the modification of EB@TiO2. Phase two,
on the other hand, assesses the suitability of the EB@TiO2 as an oral healthcare
product by examining its cytotoxicity and antibacterial properties. By contrast, phase
three investigated the quality of the EB@TiO2 as a new approach to the management
of DH. Particularly, the acid resistant, abrasivity, and remineralisation characteristics
of EB@TiO2 were studied using bovine and eggshell model, respectively. Different
analytical technique such as pressure sensor, gas displacement test, Atomic Force
Microscope, Raman Spectroscopy, SEM, and EDX were used to examine the product
quality of EB@TiO2 in comparison with some commercially available paste. In
addition, a mathematical model was used to predict the duration and rate of
remineralisation of EB@TiO2. Both descriptive and inferential statistics were used to
present the data (P=0.05). The validity of the study was achieved following SANS
1302 (2008) requirement for preparation, developing, and testing toothpaste. The
reliability was determined via reproducibility and repeatability of tests. Paper I and II examines the effectiveness of commercially available toothpaste in the
prevention of tooth decay, using eggshell powder as a substitute for the human tooth.
Paper I established that eggshell model can be used as a substitute for the human
tooth to study the acid resistant properties of toothpaste. The salient point of the paper
is that all the tested toothpaste were effective against erosive attacks. However, the
eggshell alone without the protective covering of toothpaste showed limited acidic
resistance.
Paper II established that acid resistance properties of EB@TiO2 were significantly
better than eggshell alone. The paper confirmed that modifying eggshell with titanium
dioxide improved its acidic resistance characteristics.
Paper III and IV evaluate the acidic resistance of EB@TiO2 using a bovine
model. Paper III and IV established that the protective effects of EB@TiO2 were
superior to the tested commercially available toothpaste. The FESEM, AFM, and
Raman test further confirmed that EB@TiO2 offer better protection on the tooth
enamel.
Paper V and VI assess the occluding capabilities of EB@TiO2 and eggshell alone in
comparison with other desensitising toothpaste. Paper V confirmed that there was
complete remineralisation of the dentin tubules in the samples treated with EB@TiO2.
At higher magnification, the particles of EB@TiO2 were very much evident. The EDX
spectrum reveals that the Ti peaks observe before and after post acidic treatment were
comparable.
Paper VI established that occlusion of EB@TiO2 was highly effective in an acidic
environment, as occluded tubules remained intact post-acidic treatment. In
addition, the cytotoxicity study identified that EB@TiO2 had little effect on the NIH 3T3
cell line even at the highest concentration of 100μg/ml.
Manuscript I assess the occluding capabilities of EB@TiO2 in comparison with a
known occluding desensitising agent (Pro-Argin and NovaMin). Manuscript I
established that as the brushing days increase the remineralisation or dentin tubule
occluded by each respective desensitising agent improved. It was found that the occluding capabilities of EB@TiO2 were more superior to both Pro-argin and NovaMin
products in both saliva and without saliva.
Manuscript II described the use of the logistic equation to predict the remineralisation
of the EB@TiO2. Manuscript II established that the logistic equation effectively
predicted the remineralisation trends of EB@TiO2 and Pro-argin toothpaste (Colgate
Pro-relief).
Manuscript III assesses the abrasivity of EB@TiO2 in comparison with calcium
carbonate, and hydrated silica containing toothpaste. Bovine enamel specimen was
used for the in vitro experiment. Manuscript III established that enamel loss from the
brushed surface, regardless of the sample group, were statistically different when
compared to the covered surface. The study found that the abrasivity of
EB@TiO2 were comparable with the calcium carbonate toothpaste. It was also
established that EB@TiO2 was less abrasive when compared against hydrated silica
containing toothpaste.
In conclusion, the experimental finding has exhaustively provided evidence on the
suitability of EB@TiO2 as an active ingredient in toothpaste formulation. The study,
therefore, provides new evidence and approach for the management of DH,
particularly in low-income countries where the cost of oral healthcare may be too high.
Description: 
Submitted in fulfilment of requirements of the degree of Doctor of Dental Technology, Faculty of Health Sciences at the Durban University of Technology, 2019.
URI: https://hdl.handle.net/10321/3720
DOI: https://doi.org/10.51415/10321/3720
Appears in Collections:Theses and dissertations (Health Sciences)

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