Complex Variants of Congenital Cleft Palate: Surgical Attacks

1. Mitropanova MN. Features of the functioning of the immune system in children with congenital cleft lip and palate at

the stages of surgical treatment. Dentistry of Childhood and Prevention. 2017;16(61):79-83. (In Russ.). Available at:

https://www.elibrary.ru/item.asp?id=29206060

2. Nesterova IV, Mitropanova MN, Chudilova GA, Lomtatidze LV, Gaivoronskaya TV. Effect of imbalance of regulatory

cytokines and osteocalcin on osteogenesis in children with congenital cleft lip and palate in postnatal ontogenesis.

Dentistry. 2020;99(1):77-81. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=42479509

3. Rogova LN, Fomenko IV, Timoshenko AN. Immunological and microbiological characteristics of the oral mucosa in

children with congenital cleft lip and palate (literature review). Volgograd Scientific Medical Journal. 2016;3(51):19-22.

(In Russ.). Available at: https://www.elibrary.ru/item.asp?id=27249177

4. Khripach LV, Knyazeva TD, Zheleznyak EV, Makovetskaya AK, Koganova ZI, Budarina OV, Lebedeva NV, Ingel FI,

Demina NN. Adaptive changes in biochemical and immunological parameters of mixed saliva under the influence of

atmospheric air pollution on preschool children. International Journal of Applied and Basic Research. 2019;6:68-73.

(In Russ.). Available at: https://www.elibrary.ru/item.asp?id=38489006

5. Kovalevsky AM, Kovalevsky VA. Etiology and pathogenesis of inflammatory periodontal diseases (literature review).

Part 1. Institute of Dentistry. 2017;4:88-90. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=32302028

6. Dovbnya ZhA, Golovskaya GG, Galkina OP, Ter-pogosyan DA, Ablaev KD, Ablaev KD. Changes in the factors of nonspecific

protection of the oral cavity in children with gingivitis against the background of the use of essential oils and

bentonite clay. Bulletin of Modern Clinical Medicine. 2021;14(6):33-37. (In Russ.). Available at: https://www.elibrary.ru/

item.asp?id=47463336

7. Osokina AS, Maslak EE, Yakovlev AT. The level of immunoglobulin A in saliva depending on the presence and severity

of early childhood caries. Dentistry of Childhood and Prevention. 2020;20(4):304-309. (In Russ.). Available at: https://

www.elibrary.ru/item.asp?id=44583346

8. Danilova MA, Aleksandrova LI. Quality of life in children with congenital cleft lip and palate. Dentistry of Childhood and

Prevention. 2018;17(3):54-57. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=36347137

9. Shevchenko OL, Antonova AA. The composition of mixed saliva and indicators of caries in deciduous teeth and

its complications in children. Endodontics Today. 2015;4:8-11. (In Russ.). Available at: https://www.elibrary.ru/item.

asp?id=25411139

10. Kuriakose S, Sundaresan C, Mathai V, et al. A comparative study of salivary buffering capacity, flow rate, resting pH,

and salivary immunoglobulin A in children with rampant caries and caries-resistant children. J Indian Soc Pedod Prev

Dent. 2013;31(2):69-73. doi: 10.4103/0970-4388.115697

11. Skripkina GI. Clinical and laboratory parameters of the subclinical course of the carious process in childhood. Dentistry

of Childhood and Prevention. 2017;16(4):24-27. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=32389346

12. Musakhodzhaeva DA, Inoyatov ASh, Yakubov ShN. Some indicators of the immune system of children with congenital

cleft lip and palate. Problems of Biology and Medicine. 2011;4(67):33. (In Russ.)

13. Agayeva NA. The role of secretory IgA in the pathology of the maxillofacial region. Basic Research. 2010;4:11-16. (In

Russ.). Available at: https://www.elibrary.ru/item.asp?id=15107695

14. Kaur A, Kwatra KS, Kamboj P. Evaluation of nonmicrobial salivary caries activity parameters and salivary biochemical

indicators in predicting dental caries. J Indian Soc Pedod Prev Dent. 2012;30(3):212-217. doi: 10.4103/0970-

4388.105013

15. Kubala E, Strzelecka P, Grzegocka M, et al. A review of selected studies that determine the physical and chemical

properties of saliva in the field of dental treatment. BioMed Research International. 2018;ID6572381:13. doi:

10.1155/2018/6572381

16. Hemadi AS, Huang R, Zhou Y, Zou J. Salivary proteins and microbiota as biomarkers for early childhood caries risk

assessment. Int J Oral Sci. 2017;9(11):e1. doi: 10.1038/ijos.2017.35

17. Al Amoudi N, Al Shukairy H, Hanno A. A comparative study of the secretory IgA immunoglobulins (s.IgA) in mothers

and children with SECC versus a caries-free group children and their mothers. J Clin Pediatr Dent. 2007;32(1):53-56.

doi: 10.17796/jcpd.32.1.l338366jw54634q5

18. Lo Giudice G, Nicita F, Militi A, et al. Correlation of s-IgA and IL-6 salivary with caries disease and oral hygiene parameters

in children. Dent J (Basel). 2019;8(1):3. doi: 10.3390/dj8010003

19. Parisotto TM, King WF, Duque C, et al. Immunological and microbiologic changes during caries development in young

children. Caries Res. 2011;45(4):377-385. doi: 10.1159/000330230

20. Dovbnya ZhA, Kolesnik KA, Golovskaya GG. Protective reactions of the oral cavity in children with chronic catarrhal

gingivitis and its treatment. Dentistry of Childhood and Prevention. 2017;16(2):24-26. (In Russ.). Available at: https://

www.elibrary.ru/item.asp?id=29206046

21. Pukhova OS, Chernenko SV. Features of the dental status of children with congenital cleft lip and palate in permanent

occlusion. Dentistry of Childhood and Prevention. 2004;3(3-4):34-36. (In Russ.). Available at: https://www.elibrary.ru/

item.asp?id=9284441

22. Yatskevich EE, Osokina GG. Chronic gingivitis in children with hereditary and congenital somatic pathology. Dentistry

for Everyone. 2007;1:4-7. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=12516681

23. Chuikin SV, Akat’eva GG, Chuikin OS, Grin’ EA, Kuchuk KN. Dental morbidity in children with congenital cleft lip and

palate in a region with ecotoxicants. Dentistry of Childhood and Prevention. 2019;19(4):15-19. (In Russ.). Available at:

https://www.elibrary.ru/item.asp?id=42490586

24. Chuikin OS, Davletshin NA, Chuikin SV, Akat’eva GG, Kuchuk KN, Ganieva RA, Muratov AM. State of periodontal tissues

in children with congenital cleft palate and defect after uranoplasty. Actual Problems in Dentistry. 2021;17(4):105-

112. (In Russ.). Available at: https://www.elibrary.ru/item.asp?id=47871063

25. Chopra A, Lakhanpal M, Rao NC, Gupta N, Vashisth S. Oral health in 4-6 years children with cleft lip/palate: a case-control

study. N Am J Med Sci. 2014;6(6):266-269. doi: 10.4103/1947-2714.134371

26. Stelzle F, Rohde M, Oetter N, Krug K, Riemann M, Adler W. Gingival esthetics and oral health-related quality of life in

patients with cleft lip and palate. Int J Oral Maxillofacial Surgery. 2017;46(8):993-997. doi: 10.1016/j.ijom.2017.03.020

27. Funahashi K, Shiba T, Watanabe T, Nakagawa I, Moriyama K. Functional dysbiosis within dental plaque microbiota in

cleft lip and palate patients. Progress in Orthodontics. 2019;20(1):11. doi: 10.1186/s40510-019-0265-1

28. Malay KK, Ravindran V, Kumar J. Gingival health status in children with and without cleft lip and palate: a case-control

study. Indian Journal of Forensic Medicine & Toxicology. 2020;14(4):5997-6003

29. Genco RJ, Borgnakke WS. Risk factors for periodontal disease. Periodontol 2000. 2013;62:59-94. doi: 10.1111/j.1600-

0757.2012.00457.x

30. Bril EA, Zubareva EV, Yakimov KYu, Chizhov YuV, Galonsky VG. Experience in the treatment of chronic gingivitis in

adolescents with dental anomalies and deformities. Institute of Dentistry. 2021;4(93):86-87. (In Russ.). Available at:

https://www.elibrary.ru/item.asp?id=47486941