scholarly article | Q13442814 |
P356 | DOI | 10.1038/SJ.BDJ.2018.173 |
P698 | PubMed publication ID | 29495031 |
P50 | author | Ana Carolina Magalhães | Q59224137 |
Daniela Rios | Q61162704 | ||
P2093 | author name string | M A R Buzalaf | |
P2860 | cites work | Vegetarian children and dental erosion. | Q52057864 |
Effect of various Ca2+/PO4(3-) concentrations of linseed-based saliva substitutes on enamel in vitro. | Q52930901 | ||
Effect of Model Variables on in vitro Erosion. | Q53374043 | ||
In vitro evaluation of different remineralization periods in improving the resistance of previously eroded bovine dentine against tooth-brushing abrasion. | Q54004140 | ||
Oral manifestations in patients with gastro-oesophageal reflux disease: a single-center case-control study | Q57764986 | ||
Saliva variations in gastro-oesophageal reflux disease | Q57765000 | ||
The relation between saliva flow after different stimulations and the perception of flavor and texture attributes in custard desserts | Q60494911 | ||
Saliva in relation to dental erosion before and after radiotherapy | Q61927975 | ||
Proteomic Analysis of Human Whole and Parotid Salivas Following Stimulation by Different Tastes | Q62129783 | ||
Tooth enamel softening with a cola type drink and rehardening with hard cheese or stimulated saliva in situ | Q67804118 | ||
Salivary composition and dental erosions in lacto-ovo-vegetarians | Q67973779 | ||
Ellipsometric studies of film formation on tooth enamel and hydrophilic silicon surfaces | Q72053691 | ||
Omeprazole and dry mouth | Q72287286 | ||
Toothbrush abrasion of erosively altered enamel after intraoral exposure to saliva: an in situ study | Q73101976 | ||
Erosion of dentine and enamel in vitro by dietary acids: the effect of temperature, acid character, concentration and exposure time | Q73156547 | ||
Protective properties of salivary pellicles from two different intraoral sites on enamel erosion | Q73687312 | ||
Effect of time on the remineralisation of enamel by synthetic saliva after citric acid erosion | Q73954253 | ||
Is there a relationship between asthma and dental erosion? A case control study | Q74168215 | ||
Asthma and tooth erosion. Is there an association? | Q76382551 | ||
Composition of pellicles formed in vivo on tooth surfaces in different parts of the dentition, and in vitro on hydroxyapatite | Q77324035 | ||
Influence of in vivo formed salivary pellicle on enamel erosion | Q78168027 | ||
Influence of toothbrushing on enamel softening and abrasive wear of eroded bovine enamel: an in situ study | Q80027867 | ||
Dental erosion, gastro-oesophageal reflux disease and saliva: how are they related? | Q80303017 | ||
Toothbrush abrasion of surface softened enamel studied with tapping mode AFM and AFM nanoindentation | Q80464758 | ||
Salivary Secretory Disorders, Inducing Drugs, and Clinical Management | Q26777907 | ||
Matrix metalloproteinases and other matrix proteinases in relation to cariology: the era of 'dentin degradomics' | Q27028083 | ||
Evaluation of the oral component of Sjögren's syndrome: An overview | Q28077695 | ||
Analyses of the Erosive Effect of Dietary Substances and Medications on Deciduous Teeth | Q28551734 | ||
Tooth erosion and eating disorders: a systematic review and meta-analysis | Q28652530 | ||
The Interactions between Attrition, Abrasion and Erosion in Tooth Wear | Q29031477 | ||
Reviewing primary Sjögren's syndrome: beyond the dryness - From pathophysiology to diagnosis and treatment | Q30234992 | ||
Thickness of acquired salivary pellicle as a determinant of the sites of dental erosion | Q30827403 | ||
In situ evaluation of different remineralization periods to decrease brushing abrasion of demineralized enamel | Q30991017 | ||
Delineation of conformational preferences in human salivary statherin by 1H, 31P NMR and CD studies: sequential assignment and structure-function correlations | Q32018744 | ||
Protective effect of the in situ formed short-term salivary pellicle | Q33206552 | ||
Insights into preventive measures for dental erosion | Q33416495 | ||
In situ effect of CPP-ACP chewing gum upon erosive enamel loss. | Q33828396 | ||
The addition of nano-sized hydroxyapatite to a sports drink to inhibit dental erosion: in vitro study using bovine enamel | Q33962904 | ||
Vegetarianism. A blossoming field of study. | Q34224562 | ||
Dietary factors associated with dental erosion: a meta-analysis | Q34404766 | ||
Influence of drinking patterns of carbonated beverages on dental erosion | Q34426892 | ||
The potential of saliva in protecting against dental erosion | Q34427769 | ||
A videofluoroscopic comparison of straw and cup drinking: the potential influence on dental erosion | Q34476676 | ||
Dental erosions in subjects living on a raw food diet | Q34481732 | ||
The Montreal definition and classification of gastroesophageal reflux disease: a global evidence-based consensus | Q34570296 | ||
Dry mouth and its effects on the oral health of elderly people | Q34673328 | ||
Can tooth brushing damage your health? Effects on oral and dental tissues | Q35182769 | ||
Gastro-oesophageal reflux is common in oligosymptomatic patients with dental erosion: A pH-impedance and endoscopic study. | Q35528819 | ||
Dental erosive wear and salivary flow rate in physically active young adults | Q35963378 | ||
The structure, function and properties of the acquired pellicle | Q36351175 | ||
Prevalence of dental erosion in adolescent competitive swimmers exposed to gas-chlorinated swimming pool water | Q36629829 | ||
Occupational dental erosion from exposure to acids: a review. | Q36739072 | ||
Salivary flow patterns and the health of hard and soft oral tissues | Q37156142 | ||
The protective nature of pellicle towards toothpaste abrasion on enamel and dentine | Q80793253 | ||
Toothbrushing before or after an acidic challenge to minimize tooth wear? An in situ/ex vivo study | Q81149491 | ||
Impact of modified acidic soft drinks on enamel erosion | Q81250608 | ||
The effect of chewing sugar-free gum on gastro-esophageal reflux | Q81397915 | ||
Oral symptoms including dental erosion in gastroesophageal reflux disease are associated with decreased salivary flow volume and swallowing function | Q83141115 | ||
In situ evaluation of the erosive potential of orange juice modified by food additives | Q83350667 | ||
Impact of acquired enamel pellicle modification on initial dental erosion | Q83632156 | ||
Clinical study investigating abrasive effects of three toothpastes and water in an in situ model | Q83819759 | ||
Thickness of softened human enamel removed by toothbrush abrasion: an in vitro study | Q84007843 | ||
Acids with an equivalent taste lead to different erosion of human dental enamel | Q84683229 | ||
In vitro evaluation of the erosive potential of orange juice modified by food additives in enamel and dentine | Q84980860 | ||
Effects of pH and acid concentration on erosive dissolution of enamel, dentine, and compressed hydroxyapatite | Q85012631 | ||
Effect of salivary factors on the susceptibility of hydroxyapatite to early erosion | Q85091787 | ||
Effect of acidic solution viscosity on enamel erosion | Q85893711 | ||
Neutralizing salivary pH by mouthwashes after an acidic challenge | Q86826475 | ||
Salivary parameters and teeth erosions in patients with gastroesophageal reflux disease | Q87377345 | ||
Impact of protease inhibitors on dentin matrix degradation by collagenase | Q87398347 | ||
Composition of enamel pellicle from dental erosion patients | Q87410825 | ||
Toothbrushing after an erosive attack: will waiting avoid tooth wear? | Q87600445 | ||
The effect of saliva substitutes on enamel erosion in vitro | Q87621455 | ||
Prevalence, incidence and distribution of erosion | Q88214083 | ||
Intrinsic causes of erosion | Q88214093 | ||
Anacardic acid from brazilian cashew nut trees reduces dentine erosion | Q88215013 | ||
Healthy Plant-Based Diet: What Does it Really Mean? | Q88568113 | ||
The Effect of Mucin in Artificial Saliva on Erosive Rehardening and Demineralization | Q89907192 | ||
Chlorhexidine and green tea extract reduce dentin erosion and abrasion in situ. | Q43280500 | ||
The effect of salivary factors on dental erosion in various age groups and tooth surfaces | Q43282315 | ||
Effect of endurance training on dental erosion, caries, and saliva | Q43935660 | ||
The erosive potential of 1% citric acid supplemented by different minerals: an in vitro study. | Q44071704 | ||
Prevention of dental erosion of a sports drink by nano-sized hydroxyapatite in situ study | Q44227716 | ||
Dental erosions in relation to lactovegetarian diet. | Q44238957 | ||
Effect of ion supplementation of a commercial soft drink on tooth enamel erosion. | Q44356755 | ||
Prevalence of tooth wear on buccal and lingual surfaces and possible risk factors in young European adults. | Q44453589 | ||
Influence of human saliva on the development of artificial erosions | Q44705518 | ||
An in vitro scanning microradiography study of the reduction in hydroxyapatite demineralization rate by statherin-like peptides as a function of increasing N-terminal length | Q45215220 | ||
Effect of iron on matrix metalloproteinase inhibition and on the prevention of dentine erosion | Q45432094 | ||
Assessment of the influence of vegetarian diet on the occurrence of erosive and abrasive cavities in hard tooth tissues | Q45814276 | ||
Effects of buffering properties and undissociated acid concentration on dissolution of dental enamel in relation to pH and acid type | Q45822636 | ||
Effects of toothbrushing force on the mineral content and demineralized organic matrix of eroded dentine. | Q45936969 | ||
Salivary changes and dental erosion in bulimia nervosa | Q46355522 | ||
Determinants of symptoms in gastroesophageal reflux disease: nonerosive reflux disease, symptomatic, and silent erosive reflux disease | Q46406224 | ||
Inhibition of hydroxyapatite dissolution by ovalbumin as a function of pH, calcium concentration, protein concentration and acid type | Q46421431 | ||
Erosive effects of different acids on bovine enamel: release of calcium and phosphate in vitro | Q46452125 | ||
The prevalence and severity of non-carious cervical lesions in a group of patients attending a university hospital in Trinidad | Q46806374 | ||
In situ effect of a commercial CPP-ACP chewing gum on the human enamel initial erosion. | Q46830668 | ||
Effect of different concentrations and application times of proanthocyanidin gels on dentin erosion | Q47408911 | ||
Tooth surface loss in adult subjects attending a university dental clinic in Trinidad | Q47589940 | ||
Health, ethics and environment: a qualitative study of vegetarian motivations | Q48376673 | ||
Saliva parameters and erosive wear in adolescents. | Q50900588 | ||
A New Sugarcane Cystatin Strongly Binds to Dental Enamel and Reduces Erosion. | Q50948847 | ||
Prevalence of perceived symptoms of dry mouth in an adult Swedish population--relation to age, sex and pharmacotherapy. | Q50950617 | ||
Parotid salivary parameters in bulimic patients - a controlled clinical trial. | Q50969505 | ||
The proteomic profile of the acquired enamel pellicle according to its location in the dental arches. | Q51102485 | ||
The effect of acidic beverages on the ultrastructure of the acquired pellicle--an in situ study. | Q51747617 | ||
Fluoride is unable to reduce dental erosion from soft drinks. | Q52042522 | ||
Screening and prediction of erosive potential | Q37882327 | ||
The role of matrix metalloproteinases in dental erosion | Q38035252 | ||
New insights into the composition and functions of the acquired enamel pellicle | Q38047258 | ||
Saliva and dental erosion | Q38058723 | ||
The effect of radiotherapy on dental hard tissue--a systematic review | Q38123103 | ||
Use of dentifrices to prevent erosive tooth wear: harmful or helpful? | Q38189706 | ||
Acquired pellicle as a modulator for dental erosion. | Q38204566 | ||
Erosive tooth wear: a multifactorial condition of growing concern and increasing knowledge | Q38226029 | ||
Prevalence of erosive tooth wear in risk groups | Q38226033 | ||
Erosion in relation to nutrition and the environment | Q38226037 | ||
Oral hygiene products, medications and drugs - hidden aetiological factors for dental erosion | Q38226038 | ||
Understanding the chemistry of dental erosion | Q38226039 | ||
The role of oral hygiene: does toothbrushing harm? | Q38226043 | ||
Risk assessment and causal preventive measures | Q38226044 | ||
The role of fluoride in erosion therapy. | Q38226045 | ||
Alternatives to fluoride in the prevention and treatment of dental erosion | Q38226046 | ||
The future of fluorides and other protective agents in erosion prevention. | Q38420061 | ||
Role of host-derived proteinases in dentine caries and erosion | Q38420066 | ||
Effect of casein phosphopeptide-amorphous calcium phosphate added to acidic beverages on enamel erosion in vitro. | Q38442727 | ||
Association of salivary flow rates with maximal bite force | Q38458693 | ||
Diet influenced tooth erosion prevalence in children and adolescents: Results of a meta-analysis and meta-regression | Q38521945 | ||
Consensus report of the European Federation of Conservative Dentistry: erosive tooth wear--diagnosis and management. | Q38539904 | ||
Characteristics of Americans Choosing Vegetarian and Vegan Diets for Health Reasons. | Q38687875 | ||
Treatment of xerostomia and hyposalivation in the elderly: A systematic review. | Q38794316 | ||
Timing of dietary acid intake and erosive tooth wear: A case-control study | Q39179883 | ||
Erosive potential of calcium-modified acidic candies in irradiated dry mouth patients. | Q39283766 | ||
Influence of Intrinsic Factors on Erosive Tooth Wear in a Large-Scale Epidemiological Study | Q39403664 | ||
Progression of and risk factors for dental erosion and wedge-shaped defects over a 6-year period | Q39534865 | ||
Prevalence and risk factors of erosive tooth wear in 3-6 year old German kindergarten children-A comparison between 2004/05 and 2014/15. | Q39616903 | ||
In situ Effect of Chewing Gum with and without CPP-ACP on Enamel Surface Hardness Subsequent to ex vivo Acid Challenge. | Q39724606 | ||
Methodology and models in erosion research: discussion and conclusions | Q39743881 | ||
Increased contribution of ultra-processed food products in the Brazilian diet (1987-2009). | Q40158484 | ||
Identification of acid-resistant proteins in acquired enamel pellicle | Q40395880 | ||
Salivary parameters of relevance for assessing caries activity in individuals and populations | Q40905035 | ||
Erosion protection conferred by whole human saliva, dialysed saliva, and artificial saliva. | Q41323261 | ||
Calcium glycerophosphate supplemented to soft drinks reduces bovine enamel erosion | Q41852695 | ||
Protective effect of green tea on dentin erosion and abrasion | Q41855228 | ||
Sodium fluoride inhibits MMP-2 and MMP-9. | Q42127004 | ||
Gels containing MMP inhibitors prevent dental erosion in situ. | Q43143711 | ||
P433 | issue | 5 | |
P407 | language of work or name | English | Q1860 |
P304 | page(s) | 371-378 | |
P577 | publication date | 2018-03-02 | |
P1433 | published in | British Dental Journal | Q4969882 |
P1476 | title | Prevention of erosive tooth wear: targeting nutritional and patient-related risks factors | |
P478 | volume | 224 |
Q98163505 | Prevalence and risk indicators of non-carious cervical lesions in male footballers | cites work | P2860 |
Search more.