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Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study.

Year 2022, Volume: 6 Issue: 1, 305 - 305, 27.01.2022
https://doi.org/10.30621/jbachs.1062367

Abstract

Objectives: Objective of this study is to determine the correlation between salivary cytokine concentrations and cariogram value high (C1) and
low (C2) experience in people. In this direction, saliva cytokines showed a significant correlation with the patient’s caries experience.
Patients and Methods: Unstimulated whole saliva samples were collected from 38 appropriate populations of patients aged between 20 to
57 years old. All patients’ DMF (decay/missing/filled) values were higher than 0. Twenty-one caries activity groups (C1) and 17 caries nonactivity
groups (C2) patients were collected for this study. Procedures of the clinical evaluation were the collection of saliva samples and oral
examination. The whole saliva from 38 patients with C1 and C2 was investigated for the existence of GM-CSF, TNFα, IFN-g, IL-2, IL-4, IL-6, IL-8,
and IL-10.
Results: The study population consisted of 38 subjects with a mean age of 34.76 14.43 years. Likewise, there was a significant interaction
between salivary flow rate, S. Mutans number, number of Lactobacillus, number of meals and IL-6, a significant difference in caries activity
groups.
Conclusion: Salivary cytokines demonstrated significant interactions to caries experience of the patient.
Keywords: Salivary, Streptococcus mutans, Pro-inflammatory cytokines, Dental caries

Erratum Reason: It has been determined there is an lack in the ACKNOWLEDGMENT section of the article ‘Pakdemirli A, Çalıbaşı Kocal G, Kılınç G, Daşkın E, Kemaloğlu H, Başbınar Y, Ellidokuz H. Salivary Pro-Inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. J Basic Clin Health Sci 2020; 1:77-81.’ published in in the first issue of the fourth volume of Journal of Basic and Clinical Health Sciences (JBACHS).

The Acknowledgments section that should be included in the relevant article is presented below.

Acknowledgements: This work was supported by Dokuz Eylul University, Scientific Research Projects (Project Number: 2014.KB.SAG.025).

References

  • Selwitz RH, Ismail AI, Pitts NB. Dental caries. Lancet 2007; 369:51-59.
  • Hicks J, Garcia-Godoy F, Flaitz C. Biological factors in dental caries: role of saliva and dental plaque in the dynamic process of demineralization and remineralization (part1). J Clin Pediatr Dent 2003; 28: 47-52.
  • Fejerskov O. Changing paradigms in concepts on dental caries: consequences for oral health care. Caries Res 2004; 38: 182-191.
  • Cogulu D, Onay H, Ozdemir Y, et al. Associations of interleukin (IL)- 1β, IL-1 receptor antagonist, and IL-10 with dental caries. J Oral Sci 2015; 57: 31-36.
  • Featherstone JD. The continuum of dental caries-evidence for a dynamic disease process. J Dent Res 2004; 83: 39-42.
  • Ribeiro CCC, Pachêco CJB, Costa EL, et al. Proinflammatory cytokines in early childhood caries: Salivary analysis in the mother/children pair. Cytokine 2018; 107: 113-117.
  • McGrady JA, Butcher WG, Beighton D, et al. Specific and charge interactions mediate collagen recognition by oral lactobacilli. J Dent Res 1995; 74: 649-657.
  • Bratthall D, Hansel Petersson G. Cariogram--a multifactorial risk assessment model for a multifactorial disease. Community Dent Oral Epidemiol 2005; 33: 256-264.
  • Petersson GH, Bratthall D. Caries risk assessment: a comparison between the computer program ‘Cariogram’, dental hygienists and dentists. Swed Dent J 2000; 24:129-137.
  • Hahn CL, Best AM, Tew JG. Cytokine induction by Streptococcus mutans and pulpal pathogenesis. Infect Immun 2000; 68: 785-6789.
  • Izumi T, Kobayashi I, Okamura K, et al. Immunohistochemical study on the immunocompetent cells of the pulp in human non-carious and carious teeth. Arch Oral Biol 1995; 40: 609-614.
  • Martin FE, Nadkarni MA, Jacques NA, et al. Quantitative Microbiological Study of Human Carious Dentine by Culture and Real-Time PCR: Association of Anaerobes with Histopathological Changes in Chronic Pulpitis. J Clin Microbiol 2002; 40: 1698–1704.
  • Reeves R, Stanley HR. The relationship of bacterial penetration and pulpal pathosis in carious teeth. Oral Surg Oral Med Oral Pathol 1966; 22: 59–65.
  • Van Nieuw Amorengen A, Bolscher JGM, Veerman ECI. Salivary proteins: protective and diagnostic value in cariology? Caries Res 2004; 38: 247-253.
  • Graves DT, Cochran D. The contribution of interleukin-1 and tumor necrosis factor to periodontal tissue destruction. J. Periodontal 2003; 74 :391-401.
  • Shang D, Liang H, Wei S, et al. Effects of antimicrobial peptide L-K6, a temporin-1CEb analog on oral pathogen growth, Streptococcus mutans biofilm formation, and anti-inflammatory activity. Appl Microbiol Biotechnol 2014; 98: 8685-8695.
  • Menon MM, Balagopol RV, Sajitha K, et al. Evaluation of salivary interleukin-6 in children with early childhood caries after treatment. Contemp Clin Dent 2016; 7: 198-202.
  • World Health Organization, Oral health surveys: basic methods. 4th ed. 1997, Geneva. Oulis CJ, Berdouses ED. Fissure sealant retention and caries development after resealing on first permanent molars of children with low, moderate and high caries risk. Eur Archs Paediatr Dent 2009; 10: 211-207.
  • Silness J, Löe H. Periodontal disease in pregnancy II Correlation between oral hygiene and periodontal condition. Acta Odonto Scand 2009; 22:121-135.
  • Laputková G, Schwartzová V, Bánovčin J, et al. Salivary protein roles in oral health and as predictors of caries risk. Open Life Sci 2018; 13: 174–200.
  • Słotwińska SM, Zaleska M. Salivary interleukin-1β and Streptococcus mutans level in oral cavity. Cent Eur J Immunol 2012;37:151-153.
  • Zhao A, Blackburn C, Chin J, et al. Soluble toll like receptor 2 (TLR-2) is increased in saliva of children with dental caries. BMC Oral Health 2014; 14: 108.
  • Sharma V, Gupta, N, Srivastava N, et al. Diagnostic potential of inflammatory biomarkers in early childhood caries ‒ A case control study. Clin Chim Acta 2017; 471: 158-163.
  • Doméjean S, White JM, Featherstone JD. Validation of the CDA CAMBRA caries risk assessment--a six-year retrospective study. J Calif Dent Assoc 2011; 39: 709-715.
  • Hansel Petersson G, Twetman S, Bratthall D. Evaluation of a computer program for caries risk assessment in schoolchildren. Caries Res 2002; 36: 327-340.
  • Hansel Petersson G, Fure S, Bratthall D. Evaluation of a computer- based caries risk assessment program in an elderly group of individuals. Acta Odontol Scand 2003; 61: 164-171.
  • Prso IB, Kocjan W, Simic H, et al. Tumor necrosis factor-alpha and interleukin 6 in human periapical lesions. Mediators of Inflammation 2007; 2007: 382-410.
  • Gornowicz A, Bielawska A, Bielawski K, et al. Pro-inflammatory cytokines in saliva of adolescents with dental caries disease. Ann Agric Environ Med 2012; 19 :711-716.
Year 2022, Volume: 6 Issue: 1, 305 - 305, 27.01.2022
https://doi.org/10.30621/jbachs.1062367

Abstract

References

  • Selwitz RH, Ismail AI, Pitts NB. Dental caries. Lancet 2007; 369:51-59.
  • Hicks J, Garcia-Godoy F, Flaitz C. Biological factors in dental caries: role of saliva and dental plaque in the dynamic process of demineralization and remineralization (part1). J Clin Pediatr Dent 2003; 28: 47-52.
  • Fejerskov O. Changing paradigms in concepts on dental caries: consequences for oral health care. Caries Res 2004; 38: 182-191.
  • Cogulu D, Onay H, Ozdemir Y, et al. Associations of interleukin (IL)- 1β, IL-1 receptor antagonist, and IL-10 with dental caries. J Oral Sci 2015; 57: 31-36.
  • Featherstone JD. The continuum of dental caries-evidence for a dynamic disease process. J Dent Res 2004; 83: 39-42.
  • Ribeiro CCC, Pachêco CJB, Costa EL, et al. Proinflammatory cytokines in early childhood caries: Salivary analysis in the mother/children pair. Cytokine 2018; 107: 113-117.
  • McGrady JA, Butcher WG, Beighton D, et al. Specific and charge interactions mediate collagen recognition by oral lactobacilli. J Dent Res 1995; 74: 649-657.
  • Bratthall D, Hansel Petersson G. Cariogram--a multifactorial risk assessment model for a multifactorial disease. Community Dent Oral Epidemiol 2005; 33: 256-264.
  • Petersson GH, Bratthall D. Caries risk assessment: a comparison between the computer program ‘Cariogram’, dental hygienists and dentists. Swed Dent J 2000; 24:129-137.
  • Hahn CL, Best AM, Tew JG. Cytokine induction by Streptococcus mutans and pulpal pathogenesis. Infect Immun 2000; 68: 785-6789.
  • Izumi T, Kobayashi I, Okamura K, et al. Immunohistochemical study on the immunocompetent cells of the pulp in human non-carious and carious teeth. Arch Oral Biol 1995; 40: 609-614.
  • Martin FE, Nadkarni MA, Jacques NA, et al. Quantitative Microbiological Study of Human Carious Dentine by Culture and Real-Time PCR: Association of Anaerobes with Histopathological Changes in Chronic Pulpitis. J Clin Microbiol 2002; 40: 1698–1704.
  • Reeves R, Stanley HR. The relationship of bacterial penetration and pulpal pathosis in carious teeth. Oral Surg Oral Med Oral Pathol 1966; 22: 59–65.
  • Van Nieuw Amorengen A, Bolscher JGM, Veerman ECI. Salivary proteins: protective and diagnostic value in cariology? Caries Res 2004; 38: 247-253.
  • Graves DT, Cochran D. The contribution of interleukin-1 and tumor necrosis factor to periodontal tissue destruction. J. Periodontal 2003; 74 :391-401.
  • Shang D, Liang H, Wei S, et al. Effects of antimicrobial peptide L-K6, a temporin-1CEb analog on oral pathogen growth, Streptococcus mutans biofilm formation, and anti-inflammatory activity. Appl Microbiol Biotechnol 2014; 98: 8685-8695.
  • Menon MM, Balagopol RV, Sajitha K, et al. Evaluation of salivary interleukin-6 in children with early childhood caries after treatment. Contemp Clin Dent 2016; 7: 198-202.
  • World Health Organization, Oral health surveys: basic methods. 4th ed. 1997, Geneva. Oulis CJ, Berdouses ED. Fissure sealant retention and caries development after resealing on first permanent molars of children with low, moderate and high caries risk. Eur Archs Paediatr Dent 2009; 10: 211-207.
  • Silness J, Löe H. Periodontal disease in pregnancy II Correlation between oral hygiene and periodontal condition. Acta Odonto Scand 2009; 22:121-135.
  • Laputková G, Schwartzová V, Bánovčin J, et al. Salivary protein roles in oral health and as predictors of caries risk. Open Life Sci 2018; 13: 174–200.
  • Słotwińska SM, Zaleska M. Salivary interleukin-1β and Streptococcus mutans level in oral cavity. Cent Eur J Immunol 2012;37:151-153.
  • Zhao A, Blackburn C, Chin J, et al. Soluble toll like receptor 2 (TLR-2) is increased in saliva of children with dental caries. BMC Oral Health 2014; 14: 108.
  • Sharma V, Gupta, N, Srivastava N, et al. Diagnostic potential of inflammatory biomarkers in early childhood caries ‒ A case control study. Clin Chim Acta 2017; 471: 158-163.
  • Doméjean S, White JM, Featherstone JD. Validation of the CDA CAMBRA caries risk assessment--a six-year retrospective study. J Calif Dent Assoc 2011; 39: 709-715.
  • Hansel Petersson G, Twetman S, Bratthall D. Evaluation of a computer program for caries risk assessment in schoolchildren. Caries Res 2002; 36: 327-340.
  • Hansel Petersson G, Fure S, Bratthall D. Evaluation of a computer- based caries risk assessment program in an elderly group of individuals. Acta Odontol Scand 2003; 61: 164-171.
  • Prso IB, Kocjan W, Simic H, et al. Tumor necrosis factor-alpha and interleukin 6 in human periapical lesions. Mediators of Inflammation 2007; 2007: 382-410.
  • Gornowicz A, Bielawska A, Bielawski K, et al. Pro-inflammatory cytokines in saliva of adolescents with dental caries disease. Ann Agric Environ Med 2012; 19 :711-716.
There are 28 citations in total.

Details

Primary Language English
Subjects Health Care Administration
Journal Section Research Article
Authors

Ahu Pakdemirli This is me

Gizem Çalıbaşı Koçal This is me

Gülser Kılınç This is me

Ezgi Daşkın This is me

Hande Kemaloğlu This is me

Yasemin Başbınar This is me

Hülya Ellidokuz This is me

Publication Date January 27, 2022
Submission Date January 14, 2020
Published in Issue Year 2022 Volume: 6 Issue: 1

Cite

APA Pakdemirli, A., Çalıbaşı Koçal, G., Kılınç, G., Daşkın, E., et al. (2022). Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. Journal of Basic and Clinical Health Sciences, 6(1), 305-305. https://doi.org/10.30621/jbachs.1062367
AMA Pakdemirli A, Çalıbaşı Koçal G, Kılınç G, Daşkın E, Kemaloğlu H, Başbınar Y, Ellidokuz H. Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. JBACHS. January 2022;6(1):305-305. doi:10.30621/jbachs.1062367
Chicago Pakdemirli, Ahu, Gizem Çalıbaşı Koçal, Gülser Kılınç, Ezgi Daşkın, Hande Kemaloğlu, Yasemin Başbınar, and Hülya Ellidokuz. “Erratum To: Salivary Pro-Inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study”. Journal of Basic and Clinical Health Sciences 6, no. 1 (January 2022): 305-5. https://doi.org/10.30621/jbachs.1062367.
EndNote Pakdemirli A, Çalıbaşı Koçal G, Kılınç G, Daşkın E, Kemaloğlu H, Başbınar Y, Ellidokuz H (January 1, 2022) Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. Journal of Basic and Clinical Health Sciences 6 1 305–305.
IEEE A. Pakdemirli, G. Çalıbaşı Koçal, G. Kılınç, E. Daşkın, H. Kemaloğlu, Y. Başbınar, and H. Ellidokuz, “Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study”., JBACHS, vol. 6, no. 1, pp. 305–305, 2022, doi: 10.30621/jbachs.1062367.
ISNAD Pakdemirli, Ahu et al. “Erratum To: Salivary Pro-Inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study”. Journal of Basic and Clinical Health Sciences 6/1 (January 2022), 305-305. https://doi.org/10.30621/jbachs.1062367.
JAMA Pakdemirli A, Çalıbaşı Koçal G, Kılınç G, Daşkın E, Kemaloğlu H, Başbınar Y, Ellidokuz H. Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. JBACHS. 2022;6:305–305.
MLA Pakdemirli, Ahu et al. “Erratum To: Salivary Pro-Inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study”. Journal of Basic and Clinical Health Sciences, vol. 6, no. 1, 2022, pp. 305-, doi:10.30621/jbachs.1062367.
Vancouver Pakdemirli A, Çalıbaşı Koçal G, Kılınç G, Daşkın E, Kemaloğlu H, Başbınar Y, Ellidokuz H. Erratum to: Salivary Pro-inflammatory Cytokines and Salivary Bacterial Challenge Effect on Dental Caries: A Clinico-Molecular Cross-Sectional Study. JBACHS. 2022;6(1):305-.