The Effect of Sodium Lauryl Sulfate on Orthodontic Elastic Latex’s & Non-Latex’s Tensile Strength

Authors

  • Indryasari Universitas Diponegoro, Indonesia
  • Budi Wibowo dr.Kariadi Hospital/Faculty of Medicine, Universitas Diponegoro, Semarang, Indonesia, Indonesia
  • Indah Lestari Vidyahayati Fakultas Kedokteran Universitas Diponegoro1Department of Dentistry, Faculty of Medicine, Universitas Diponegoro, Semarang, Indonesia, Indonesia

DOI:

https://doi.org/10.36408/mhjcm.v10i3.996

Keywords:

Tensile strength, sodium lauryl sulfate, orthodontic elastic

Abstract

Background : Orthodontic elastic is one of the tools used in orthodontic treatment. Based on the type of material, orthodontic elastics are divided into latex & non-latex. Clinically, orthodontic elastic has decreased tensile strength which can be influenced by various factors including salivary pH and the use of toothpaste. The content of SLS in toothpaste can increase the pH of saliva, causing a decrease in tensile strength.

Objective: This study aims to analyze the effect of Sodium Lauryl Sulfate on the elastic tensile strength of latex and non-latex orthodontics.

Method : This is an experimental laboratory research with post-test only control group design. The research samples consisted of 15 samples of orthodontics elastics latex and 15 samples of orthodontics elastics non-latex of AO brand with diameter ¼ inches. The samples were divided into 3 groups with latex and non-latex variations in each group, the samples was soaked for 24 hours. Tensile strength was measured using Imada Motorized Tensile Test MV 110 .The statistic used one way Anova test.

Result : One way Anova test showed that there was no significant difference between the control group, detergent toothpaste group and non-detergent toothpaste group with p = 0,757 (p > 0,05) for latex and p = 0,382 (p > 0,05) for non-latex.

Conclusion : Detergent and non-detergent toothpaste did not affect the tensile strength of orthodontic elastic latex and non-latex.

 

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Author Biographies

Budi Wibowo, dr.Kariadi Hospital/Faculty of Medicine, Universitas Diponegoro, Semarang, Indonesia

Orthodontist at Dr Kariadi Hospital/Faculty of Medicine Diponegoro University

Indah Lestari Vidyahayati, Fakultas Kedokteran Universitas Diponegoro1Department of Dentistry, Faculty of Medicine, Universitas Diponegoro, Semarang, Indonesia

Lecturer at Faculty of Medicine Diponegoro University

References

1. Carisa Ka, Yusra Y, Hardja Buntara Mj. Hubungan Antara Usia Anak Dan Kebutuhan Perawatan Ortodonti Interseptif (Kajian Pada Anak Usia 8 – 11 Tahun Di Sdn Balekambang 03 Jakarta Timur). J Kedokt Gigi Terpadu. 2019;1(1):15–21.

2. Laguhi Va, Anindita P., Gunawan Pn. Gambaran Maloklusi Dengan Menggunakan Hmar Pada Pasien Di Rumah Sakit Gigi Dan Mulut. E-Gigi. 2014;2(2).

3. Adha Mar, Wibowo D, Rasyid Ni. Gambaran Tingkat Keparahan Maloklusi Menggunakan Handicapping Malocclusion Assessment Record (Hmar) Pada Siswa Sdn Gambut 10. Dentin J Kedokt Gigi. 2019;3(1):1–9.

4. Herwanda, Arifin R, Lindawati. Pengetahuan Remaja Usia 15-17 Tahun Di Sman 4 Kota Banda Aceh Terhadap Efek Samping Pemakaian Alat Ortodonti Cekat. Syah Kuala Dent Soc. 2016;1(1):79–84.

5. Aldira C, Kornialia K, Andriansyah A. Penilaian Tingkat Keberhasilan Perawatan Ortodontik Dengan Piranti Lepasan Berdasarkan Indeks Par Di Rsgm Universitas Baiturrahmah Tahun 2012-2017. J Kesehat Andalas. 2020;8(4):27–32.

6. Krisnaini A, Maulana H, Prasetyarini S. Evaluasi Kehilangan Gaya (Force Decay) Elastik Ortodontik Akibat Perendaman Minuman Berkarbonasi [Internet]. Prosiding The 3th Dentistry Scientific Meeting Of Jember. 2017.

7. Sumekar W, Suparwitri S. Perbandingan Kekuatan Tarik Elastik Ortodontik Lateks Dan Non Lateks Dalam Saliva Buatan Dengan Ph Dan Waktu Yang Berbeda. J Kedokt Gigi. 2013;4(2):169–75.

8. De Carvalho Notaroberto Df, Martins E Martins M, De Andrade Goldner Mt, De Moraes Mendes A, Quintão Cca. Force Decay Evaluation Of Latex And Non-Latex Orthodontic Intraoral Elastics: In Vivo Study. Dental Press J Orthod. 2018;23(6):42–7.

9. Csekő K, Maróti P, Helyes Z, Told R, Riegler F, Szalma J, Et Al. The Effect Of Extrinsic Factors On The Mechanical Behavior And Structure Of Elastic Dental Ligatures And Chains. Polymers (Basel). 2022;14(1).

10. Puspitasari A, Balbeid M, Adirhesa A. Perbedaan Pasta Gigi Herbal Dan Non-Herbal Terhadap Penurunan Plaque Index Score Pada Anak. E-Prodenta J Dent. 2018;2(1):116–23.

11. Najoan Sb, Kepel Bj, Wicaksono Da. Perubahan Ph Saliva Siswa Ma Darul Istiqamah Manado Sesudah Menyikat Gigi Dengan Pasta Gigi Mengandung Xylitol. E-Gigi. 2014;2(2).

12. Putri Me, Restadiamawati R. Pengaruh Pemakaian Kontrasepsi Pil Oral Kombinasi Terhadap Ph Dan Volume Saliva Serta Angka Leukosit Cairan Sulkus Gingiva. In 2014.

13. Advani S, Sogi S, Hugar S, Indushekar Kr, Kiran K, Hallikerimath S. Remineralization Effects Of Two Pediatric Dentifrices And One Regular Dentifrice On Artificial Carious Lesion In Primary Teeth: An In Vitro Study. J Int Soc Prev Community Dent. 2014 May;4(2):96–102.

14. Emiralda Z. Perbedaan Efektivitas Penggunaan Pasta Gigi Dengan Kandungan Detergen (Sodium Lauryl Sulfate) Dan Non-Detergen Terhadap Penurunan Skor Plak. Universitas Syiah Kuala; 2016.

15. Yustika Ad. Studi Perbandingan Penggunaan Pasta Gigi Detergen Dan Non-Detergen Terhadap Derajat Keasaman (Ph) Saliva Anak Usia 10-12 Tahun Di Madrasah Ibtidaiyah Al Ma’arif Kebumen Kecamatan Banyubiru. Universitas Muhammadiyah Surakarta; 2016.

16. Pithon Mm, Macena Ja, Prado Mc, Pinto Hb. Effects Of Active Substances In Dentifrices On Force Degradation Of Elastomeric Chain Elastics. J Indian Orthod Soc. 2014;48(March):27–32.

17. Wondal Lhd, Anindita Ps, Tambunan E. Perbedaan Pelepasan Ion Nikel (Ni) Dan Kromium (Cr) Kawat Ortodonti Stainless Steel Pada Perendaman Pasta Gigi Ortodonti Dan Non-Ortodonti. E-Gigi. 2018;6(2).

18. Putra Fs, Mintjelungan Cn, Juliatri . Efektivitas Pasta Gigi Herbal Dan Non-Herbal Terhadap Penurunan Plak Gigi Anak Usia 12-14 Tahun. E-Gigi. 2017;5(2).

19. Yuwana Cp, Christnawati C, Farmasyanti C. The Effect Of Immersion Time In Three Kinds Of Carbonated Beverages On Orthodontic Elastic Latex’s Tensile Strength (In Vitro). Ui Proc Heal Med. 2017;1(1):63–7.

20. Otzen De. Protein Unfolding In Detergents: Effect Of Micelle Structure, Ionic Strength, Ph, And Temperature. Biophys J [Internet]. 2002;83(4):2219–30.

21. Kersey Ml, Glover Ke, Heo G, Raboud D, Major Pw. A Comparison Of Dynamic And Static Testing Of Latex And Nonlatex Orthodontic Elastics. Angle Orthod. 2003;73(2):181–6.

22. Article O. Comparison Of Claimed And Measured Forces Of Interarch Orthodontic Elastics – An In Vitro Study. 2015;7(2):60–5.

23. Qodcieh Sma, Al-Khateeb Sn, Jaradat Zw, Abu Alhaija Esj. Force Degradation Of Orthodontic Latex Elastics: An In-Vivo Study. Am J Orthod Dentofac Orthop [Internet]. 2017;151(3):507–12.

Additional Files

Published

2023-11-29

How to Cite

1.
Indryasari, Wibowo B, Vidyahayati IL. The Effect of Sodium Lauryl Sulfate on Orthodontic Elastic Latex’s & Non-Latex’s Tensile Strength. Medica Hospitalia J. Clin. Med. [Internet]. 2023 Nov. 29 [cited 2024 May 26];10(3):340-5. Available from: http://medicahospitalia.rskariadi.co.id/medicahospitalia/index.php/mh/article/view/996

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