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Early Childhood Caries

Early Childhood Caries. Mary Bove ND. Early Childhood Caries. D efined as the presence of one or more decayed (non-cavitated or cavitated lesions), missing (due to caries) or filled tooth surfaces in any primary tooth in a preschool-age child between birth and 71 months of age.

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Early Childhood Caries

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  1. Early Childhood Caries Mary Bove ND

  2. Early Childhood Caries • Defined as the presence of one or more decayed (non-cavitated or cavitated lesions), missing (due to caries) or filled tooth surfaces in any primary tooth in a preschool-age child between birth and 71 months of age. http://www.ada.org

  3. Severe Early Childhood Caries (S-ECC) • Children younger than3years of age, any sign of smooth-surface caries is indicative of S-ECC • Ages 3-5, one or more cavitated, missing (due to caries), or filled smooth sur-faces in primary maxillary anterior teeth or a decayed, missing, or filled score of greater than or equal to four (age 3), greaterthan or equal to five (age 4), or greater than or equal to six (age 5) surfaces also constitutes S-ECC

  4. Early Childhood Caries • The biology of ECC may be modified by several factors unique to young children, related to the implantation of cariogenic bacteria, immaturity of the host defense systems, as well as behavioral patterns associated with feeding and oral hygiene in early childhood • A transmissible infectious disease and which is responsive to preventive strategies

  5. Etiology of ECC • Dental caries is a common chronic infectious transmisible disease resulting from tooth-adherent specific bacteria, primarily mutans streptococci (MS), that metabolize sugars to produce acid which, over time, demineralizes tooth structure. Loesche WJ.,Microbiol Rev 1986;50(4):353-80

  6. Etiology of ECC • ECC is caused by mutans streptococci that ferment dietary carbohydrates to produce acid attacks on susceptible teeth over a period of time • Sugared beverages are readily metabolized by MS and lactobacilli into organic acids that can demineralize enamel and dentin

  7. Early Childhood Caries • Common causative agents are mutans streptococci (MS), including Streptococcus mutans, Streptococcus sobrinus, Streptococcus salivarius, Streptococcus mitis, Streptococcussanguis • Lactobacilli also participate in the development of caries playing an important role in lesion progression, but not its initiation • Salivary gland hypofunction

  8. Etiology of ECC • The major reservoir of MS is the mother, from whom the child acquires it during a window period of around 2 years of age • Mothers with dense salivary reservoirs of MS are at high risk of infecting their infants very early in life [Pediatric Dentistry, vol. 28, no. 2, pp. 106–109, 2006.] • Poor maternal oral hygiene and higher daily frequencies of snacking and sugar exposure increase the likelihood of transmission of the infection from mother to child [Journal of Dental Research, vol. 82, no. 7, pp. 504–508, 2003.]

  9. ECC • The time span between MS colonization and caries lesion development is approximately 13–16 months • Prenatal and perinatal malnutrition/under nutrition lead to hypoplasia. • A consistent association has been reported between enamel hypoplasia and ECC

  10. Cesarean Section vs Vaginal Birth • Infants delivered by CS acquire S. mutans earlier than vaginally delivered infants • Vaginal delivery may expose newborns to early protection against S. mutans colonization by exposure to numerous bacteria earlier and with great intensity, affecting the pattern of microbial acquisition • CS infants have an atypical microbial environment that may increase susceptibility to subsequent early S. mutans colonization

  11. Cows Milk vs Breast milk • Cow milk is essentially noncariogenic because of its mineral content and low level of lactose • Human milk promoted the development of smooth-surface caries and was significantly more cariogenic than cow milk* • Breast feeding and its duration were independently associated with an increased risk for ECC* *Canadian Journal of Public Health, vol. 91, no. 6, pp. 411–417, 2000.

  12. Caries Process • The presence of a fermentable carbohydrate (e.g., sucrose, glucose, fructose, cooked starch) and biofilms on the teeth • Support the metabolism of acidogenic microorganisms, leading to acidic substances • Hydrogen ions dissolve the carbonated hydroxyapatite crystal lattice of enamel, cementum, and dentin • Continued demineralization results in cavitation of the tooth enamel surface

  13. ECC and Other Health Issues • Infants with ECC grow at a slower pace • Young children with ECC may be severely underweight because of associated pain and their disinclination to eat • ECC may also be associated with iron deficiency http://dx.doi.org/10.1155/2011/725320

  14. Standard Dental Treatments • Prevention (People remain susceptible to the disease throughout their lives) • Fluoride (2x/d brushing fluoridated paste with eruption of 1st tooth) • Topical Antimicrobial Therapy • Casein Phosphopeptide-Amorphous Calcium Phosphate (CPP-ACP) • Dental Fluorosis • Restoration or the surgical removal (40% reoccurrence in 1st year)

  15. Topical Antimicrobial Therapy • Povidone-iodine has suppressive effects on the oral colonization of MS and prevented dental caries • Povidone-iodine has strong bactericidal/virucidal effects and demolishes normal flora in the pharynx and the oral cavity, which interfere with pathogenic viral invasion • Therefore, povidone-iodine should not be routinely used Pediatric Dentistry, vol. 24, no. 3, pp. 204–206, 2002

  16. Topical Antimicrobial Therapy • Topical 0.12% chlorhexidine gluconate could significantly reduce MS levels • Chlorhexidine therapy was much less effective at reducing the levels of lactobacilli in the human mouth

  17. Casein Phosphopeptide-Amorphous Calcium Phosphate (CPP-ACP) • Shown to reduce demineralization and promote remineralization of carious lesions • CPP-stabilized amorphous calcium fluoride phosphate had a greater remineralizing effect than fluoride or CPP-ACP individually • CPP-ACP used as a self-applied topical coating, after the teeth have been brushed with a fluoridated toothpaste Caries Research, vol. 38, no. 6, pp. 551–556, 2004

  18. Fluoride supplements recommended for preventing caries • Evidence of effectiveness of supplements in caries prevention in primary teeth is weak • For permanent teeth daily use of supplements prevented dental caries • Supplements during the first 6 years of life, and especially during the first 3 years, is associated with an increase in fluorosis • Fluoride supplement should not be given to infants http://dx.doi.org/10.1155/2011/725320

  19. AAPDPreventive Measures Decrease transmission of cariogenic bacteria • Reduce parent/sibling MS levels • Minimizing saliva-sharing activities (eg, sharing utensils) • Implement oral hygiene measures no later than the first primary tootheruption • Brush BID (age-related dose of fluoride toothpaste)

  20. AAPD Preventive Measures • Establishing a dentalcarewithin six months of eruption of the first tooth and no later than 12 months of age • conduct a caries risk assessment • provide parental education

  21. AAPD Preventive Measures • Avoiding high frequency consumption of liquids and/or solid foods containing sugar. • sugar-containing beverages (eg, juices, soft drinks, sweetened tea, milk with sugar added) in a baby bottle or no-spill training cup • infants should not be put to sleep with a bottle filled with milk or liquids containing sugars

  22. AAPD Preventive Measures • Avoid ad libitum breast-feeding after the firstprimary tooth begins to erupt and other dietary carbohydrates areintroduced • Encouragedinfants to drink from a cup as they approach their first birthday • Infants should be weaned from the bottle between 12 to 18 months of age.

  23. Therapeutic Strategies for EEC • Dysbiosis of the mouth • Oral hygiene • Shift oral microbiota • Immune System • Oral mucosal tissue • Immature Systemic Host Defense • Microbiome Challenge • Microbiota Environment of Body

  24. Therapeutic Strategies for EEC • Improve the intraoral environment • Reduce Mutan Strep species • Shift oral environment to reduce strep and lactobacilli affects on demineralization • Increase helpful oral strains of microbes • Support immune regulation of oral environment

  25. ProbioticStreptococcus salivarius strain M18 • Produces bacteriocins targeting thecariogenic species Streptococcus mutans, as well as theenzymes dextranase and urease • RDBPC study of 100 dental caries-active children for 3 months • Plaque scores were significantly lower for children in the M18-treated group • Concluded that S. salivarius M18can provide oral health benefits when taken regularly J Med Microbiol (2013 Jun) 62(Pt 6):875-84

  26. Lactobacillus rhamnosus GG • Has shown antagonism to many bacteria including mutans streptococci • LGG was found to reduce the risk of caries • Milk containing the probiotic LGG bacteria may have beneficial effects on children’s dental health and reducing the risk of caries Caries Res 2001;35:412–420 (DOI: 10.1159/000047484)

  27. Lactobacillus reuteri • Evaluate the effect on the oral health of 9 year olds after: • Daily oral supplementation with the probiotic Lactobacillus reuteri, strain ATCC 55730, to mothers during the last month of gestation and to children through the first year of life • A single-blind, placebo-controlled, multicenter trial of 113 children: 60 in the probiotic and 53 in the placebo group Caries Res 2014;48:111-117 (DOI: 10.1159/000354412)

  28. Lactobacillus reuteri • Saliva and plaque similar in both groups for mutans streptococci (MS) and lactobacilli (LB) in saliva and plaque as well as salivary secretory IgA (SIgA) • Within the limitation of this study it seems that daily supplementation with L. reuteri from birth and during the first year of life is associated with reduced caries prevalence and gingivitis score in the primary dentition at 9 years of age. S. Karger AG, Basel; Caries Res 2014;48:111-117 (DOI: 10.1159/000354412)

  29. Support the microbiota Inhibit non-beneficial bacteria while having little effect on beneficial bacteria Antioxidant activity Tannins flavonoids, bioflavonoids, polyphenols, phenolic acids Fruits, berries, vegetable, herb, spices, cocoa, red wine, dark chocolate Huffnagle, G,. The Probiotic Revolution, Bantum Books, 2007 pg 274-277 Dietary Phenols

  30. Aids probiotic bacteria to adhere to the intestinal wall Discourages harmful bacteria from adhering to the intestinal wall Avoid calcium carbonate Food forms preferred Calcium and Probiotics Huffnagle, G,. The Probiotic Revolution, Bantum Books, 2007 pg 257

  31. Neem tree /Azadirachta indica • Leaves Bark, and Seed oil • Anti-microbial for many bacteria, virus, fungus, parasitic organisms, antimalarial • Immunomodulatory, antioxidant • Anti-inflammatory, antiulcer • Traditionally used in the treatment of inflammation, infections, fever, skin diseases and dental disorders

  32. Neem • Efficacious againstcaries-inducing microorganisms • Streptococcus mutans • Streptococcus salivarius • Streptococcus mitis • Streptococcussanguis • Neem extract at maximum concentrations showed the maximum zone of inhibition • Chewing neem sticks can be beneficial in preventing caries J Contemp Dent Pract (2012 Nov-Dec) 13(6):769-72

  33. CranberryVaccinium macrocarpon Several compounds isolated from cranberry juice inhibit the attachment of many oral bacteria to the surface of the tooth thus decreasing tooth decay Cranberry eaten regularly promotes both gastrointestinal and oral health.

  34. Oral health benefits of Cranberry • Polyphenols have very promising properties with respect to cariogenic bacteria • Hostinflammatory response • Enzymes that degrade the extracellularmatrix • Inhibit acid production, adhesion, and biofilm formation byStreptococcus mutans. • Glucan-binding proteins, extracellular enzymes,carbohydrate production, and bacterial hydrophobicity Crit Rev Food Sci Nutr (2008 Aug) 48(7):672-80, J Can Dent Assoc (2010) 76:a130

  35. Deglycyrrhizinated Licorice Root Extracts (DG-LRE) • Demonstrates antimicrobial activity against Streptococcus mutans. • Significantly inhibited biofilm formation by Streptococcus mutans UA159 Anaerobe (2012 Dec) 18(6):590-6

  36. Licorice Root /Glycyrrhiza glabra • Glycyrrhizol A has strong antimicrobial activity against cariogenic bacteria • Two pilot human studies indicate that a brief application of licorice lollipops (twice a day for ten days) led to a marked reduction of cariogenic bacteria in oral cavity among most human subjects tested Int J Oral Sci (2011 Jan) 3(1):13-20

  37. Licorice Root /Glycyrrhiza glabra • Licoricidin and licorisoflavan A shown to inhibit oral pathogens • Streptococcus mutans • Streptococcus sobrinus • Periodontopathogenic species • Porphyromonas gingivalis • Prevotella intermedia

  38. Anti-Cariogenic Essential Oils • Achillea ligustica-linalool, viridiflorol, beta-pinene, 1,8-cineole and terpinen-4-ol • Significant adhesion-inhibitingactivity against P. gingivalis and S. mutans. • Manuka oil • Tea Tree oil • Eucalyptus oil • Lavandula oil • Romarinus oil (Fitoterapia (2009 Sep) 80(6):313-9)

  39. Anti-Cariogenic Essential Oils • Macelignan isolated from Myristica fragrans (nutmeg)- S. mutans, S. sobrinus, S. salivarius, S. sanguis • Lippia sidoides- thymol (56.7%) and carvacrol (16.7%) • 37 children ages 6-12, • one application of .6-1% solution of EO • significant MSreduction Phytomedicine (2006 Mar) 13(4):261-6 Phytomedicine (2011 May 15) 18(7):551-6

  40. Anti-Cariogenic Essential Oils • Cinnamon oil wasfound to be more effective than clove oil exhibiting broad spectrumof antibacterial activity inhibiting all the ten test bacterialspecies involved in dental caries. • Inhibition zone of diameter of 24.0 mm against Streptococcusmutans compared to the clove oil zone of 13.0mm Acta Biomed (2011 Dec) 82(3):197-9

  41. Anti-Cariogenic Essential Oils • Other Aromatic Plants which contain thymol and carvacrol include: • Thymus vulgaris • Salvia officinalis • Rosmarinus officinalis • Zingiber officinale • Origanum vulgare

  42. Echinacea species Andrographis paniculata Astragalus membranaceus Ulmus fulva Althaea officinalis Medicinal Mushroom Species Botanicals impacting SIgA

  43. Nutrients for Intraoral Health • Folic Acid • Co Q10 • Vitamin D • Vitamin C • Vitamin B 2 • Vitamin B3 • Vitamin B12 • Beta carotene • Calcium • Phosphorus • Magnesium • Zinc • Iron • Potassium

  44. Xylitol • A sugar alcohol which has the ability to reduce S. mutansin the mouth • Chewing gum • Mints • Powder • Toothpaste

  45. Early Childhood Caries • Prevention • Mother • Child • Diet • Oral Hygiene • Improving the oral microbiome

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