Current and future research trends in clinical pediatric dentistry

Current; Trend; Research; Clinical; Pediatric; Dentistry

[1] Shmueli A, Fux-Noy A, Davidovich E, Ram D, Moskovitz M. Comparing images from near-infrared light reflection and bitewing radiography to detect proximal caries in primary teeth. Children. 2024; 11: 1455.

[2] Zaborowicz K, Firlej M, Firlej E, Zaborowicz M, Bystrzycki K, Biedziak B. Use of computer digital techniques and modern materials in dental technology in restoration: a caries-damaged smile in a teenage patient. Journal of Clinical Medicine. 2024; 13: 5353.

[3] Lampl S, Gurunathan D, Mehta D, Krithikadatta J, Moodley D. Effective management of a fractured tooth in a child using an aesthetic pediatric crown: a case report and review of literature. Case Reports in Dentistry. 2024; 2024: 6888443.

[4] Sulimany AM, Aldowsari MK, Bin Saleh S, Alotaibi SS, Alhelal BM, Hamdan HM. An in vitro assessment of the shear bond strength of alkasite restorative material in primary molars compared with glass ionomer and resin-modified glass ionomer restorations. Materials. 2024; 17: 6230.

[5] Bani-Hani T, Al-Fodeh R, Bataineh M, Tabnjh A. Are we adequately managing the oral health needs of children: a survey of the experience of general dentists and self-assessed confidence in pediatric dentistry. Journal of Clinical Pediatric Dentistry. 2024; 48: 176–184.

[6] Tiwari S, Pradhan D, Saini N, Dhimole A, Agrawal C, Yadav R, et al. Kid-sized dentistry: a pioneering first-of-its-kind study on customizing dental tools and technology for pediatric care. Cureus. 2024; 16: e69860.

[7] Han S, Kim SJ, Lee T, Jung HI, Lee KE, Song JS. Comparison of the short time effect of an oral hygiene education in four sessions via quantitative light-induced fluorescence technology versus disclosing agents in children: a randomized, crossover clinical trial. Children. 2024; 11: 1371.

[8] Garrocho-Rangel A, Navarro-Padilla P, Guzmán-Uribe D, Torre-Delgadillo G, Ruiz-Rodríguez S, Pozos-Guillén A. Clinical interventions for caries management through minimal intervention procedures in young children: an updated evidence-based review. Journal of Clinical Pediatric Dentistry. 2023; 47: 1–10.

[9] Algarni AA, Alwusaydi RM, Alenezi RS, Alharbi NA, Alqadi SF. Knowledge and attitude of dentists toward minimally invasive caries management in Almadinah Almunawwarah province, KSA. Journal of Taibah University Medical Sciences. 2023; 19: 10–17.

[10] Velardi JP, Alquria TA, Alfirdous RA, Corazza BJM, Gomes APM, Silva EG, et al. Comparison of GentleWave system and passive ultrasonic irrigation with minimally invasive and conventional instrumentation against LPS in infected root canals. Scientific Reports. 2022; 12: 4894.

[11] Shrivastava U, Barjatya K, Ak BB, Vatsal A, Shrivastava R, Manker A, et al. Effectiveness and parental perception of silver diamine fluoride toward treatment of dental caries in primary teeth. International Journal of Clinical Pediatric Dentistry. 2021; 14: 790–794.

[12] Polacek J, Malhi N, Yang YJ, Scully AC, Soki FN, Boynton JR. Silver diamine fluoride and progression of incipient approximal caries in permanent teeth: a retrospective study. Pediatric Dentistry. 2021; 43: 475–480.

[13] Sadıkoğlu İS. Using resin infiltration technique and direct composite restorations for the treatment of carious lesions with different depths. Case Reports in Dentistry. 2023; 2023: 5908006.

[14] Almansouri N, Bakry AS, Abbassy MA, Linjawi AI, Hassan AH. Evaluation of resin infiltration, fluoride and the biomimetic mineralization of CPP-ACP in protecting enamel after orthodontic inter-proximal enamel reduction. Biomimetics. 2023; 8: 82.

[15] Yang S, Sui B, Cui Y, Liu X, Sun J, Wang J. A novel dental infiltration resin based on isosorbide-derived dimethacrylate with high biocompatibility, hydrolysis resistance, and antibacterial effect. Frontiers in Bioengineering and Biotechnology. 2022; 10: 1049894.

[16] Kateeb E, Warren J, Damiano P, Momany E, Kanellis M, Weber-Gasparoni K, et al. Atraumatic restorative treatment (ART) in pediatric dentistry residency programs: a survey of program directors. Pediatric Dentistry. 2013; 35: 500–505.

[17] Varughese A, Janakiram C, Karuveettil V, James A. Effectiveness of silver diamine fluoride application with atraumatic restorative treatment in arresting the progression of dental caries: a systematic review protocol. JBI Evidence Synthesis. 2024; 22: 1617–1625.

[18] Patel MC, Makwani DA, Bhatt RK, Raj V, Patel C, Patel F. Evaluation of silver-modified atraumatic restorative technique versus conventional pulp therapy in asymptomatic deep carious lesion of primary molars—a comparative prospective clinical study. Journal of Indian Society of Pedodontics and Preventive Dentistry. 2022; 40: 383–390.

[19] Claman D, Sezgin E. Artificial intelligence in dental education: opportunities and challenges of large language models and multimodal foundation models. JMIR Medical Education. 2024; 10: e52346.

[20] Mallineni SK, Sethi M, Punugoti D, Kotha SB, Alkhayal Z, Mubaraki S, et al. Artificial intelligence in dentistry: a descriptive review. Bioengineering. 2024; 11: 1267.

[21] Kusaka S, Akitomo T, Hamada M, Asao Y, Iwamoto Y, Tachikake M, et al. Usefulness of generative artificial intelligence (AI) tools in pediatric dentistry. Diagnostics. 2024; 14: 2818.

[22] Aktaş N, Ciftci V. Current applications of three-dimensional (3D) printing in pediatric dentistry: a literature review. Journal of Clinical Pediatric Dentistry. 2024; 48: 4–13.

[23] Aktaş N, Bankoğlu Güngör M. Evaluation of wear on primary tooth enamel and fracture resistance of esthetic pediatric crowns manufactured from different materials. Medicina. 2024; 60: 1678.

[24] Diab M, Karkoutly M, Kanout S, Nassar JA. Effect of a novel mesh design and the sandblasting technique on the bond strength of computer-designed and three-dimension laser printed resin bonded bridges: an in vitro study. Scientific Reports. 2024; 14: 8412.

[25] Oliveira MC, Silva DFB, de Oliveira Andrade A, Pita de Melo D, de Sousa YAB, da Silva LOP, et al. Effect of modified intravascular laser irradiation of blood in the oral and systemic conditions during dental treatment—a systematic review. Lasers in Medical Science. 2024; 39: 300.

[26] Perin MLC, Silva LSMD, Duarte ML, Primo LG. Efficacy of antimicrobial photodynamic therapy in endodontics of primary teeth: a scoping review. Lasers in Medical Science. 2024; 39: 292.

[27] Lohia S, Kumar G, Goswami M, Johar S, Sultan F, Narula V, et al. Comparative evaluation of healing using Er, Cr: YSGG laser treatment with conventional method after extraction of permanent teeth: an in-vivo study. Lasers in Medical Science. 2024; 39: 284.

[28] Pandiyan R, Lehl GK, Kumar R, Sharma U, Jagachandiran VV. Assessing the efficacy of Laser pulpotomy versus conventional pulpotomy in primary teeth: a systematic review and meta-analysis of clinical trials. Lasers in Medical Science. 2024; 39: 198.

[29] Scribante A, Gallo S, Pascadopoli M, Soleo R, Di Fonso F, Politi L, et al. Management of periodontal disease with adjunctive therapy with ozone and photobiomodulation (PBM): a randomized clinical trial. Photonics. 2022; 9: 138.

[30] Dhull KS, Dutta B, Soni M, Burman A, Singhal AC, Shrinivas S, et al. Prevalence of early childhood caries in Bhubaneswar, Odisha, India. Bioinformation. 2025; 21: 87–90.

[31] Sfondrini MF, Debiaggi M, Zara F, Brerra R, Comelli M, Bianchi M, et al. Influence of lingual bracket position on microbial and periodontal parameters in vivo. Journal of Applied Oral Science. 2012; 20: 357–361.

[32] Woelber JP, Vach K. Healthier smile: the role of diet and nutrition in the prevention and therapy of caries, gingivitis, and periodontitis. Nutrients. 2023; 15: 4319.

[33] Felsch M, Meyer O, Schlickenrieder A, Engels P, Schönewolf J, Zöllner F, et al. Detection and localization of caries and hypomineralization on dental photographs with a vision transformer model. NPJ Digital Medicine. 2023; 6: 198.

[34] Jeyashree T, Gurunathan D, Padmapriya S. Association of malocclusion and trauma in children: a retrospective study. Journal of Advanced Pharmaceutical Technology & Research. 2022; 13: S212–S216.

[35] Sarosi C, Muntean A, Cuc S, Petean I, Balint S, Moldovan M, et al. In vitro investigation of novel peptide hydrogels for enamel remineralization. Gels. 2024; 11: 11.

[36] Cavalcante BGN, Mlinkó É, Szabó B, Teutsch B, Hegyi P, Vág J, et al. Non-invasive strategies for remineralization and hypersensitivity management in molar-incisor hypomineralization—a systematic review and meta-analysis. Journal of Clinical Medicine. 2024; 13: 7154.

[37] Butera A, Maiorani C, Gallo S, Pascadopoli M, Quintini M, Lelli M, et al. Biomimetic action of zinc hydroxyapatite on remineralization of enamel and dentin: a review. Biomimetics. 2023; 8: 71.

[38] Meng N, Liu Q, Dong Q, Gu J, Yang Y. Effects of probiotics on preventing caries in preschool children: a systematic review and meta-analysis. Journal of Clinical Pediatric Dentistry. 2023; 47: 85–100.

[39] Banakar M, Fernandes GVO, Etemad-Moghadam S, Frankenberger R, Pourhajibagher M, Mehran M, et al. The strategic role of biotics in dental caries prevention: a scoping review. Food Science & Nutrition. 2024; 12: 8651–8674.

[40] Albar NH, Maganur PC, Alsaeedi AAH, Mahdi BHA, Almasoudi SA, Panda S, et al. Effectiveness of a needle-free local anesthetic technique compared to the traditional syringe technique for the restoration of young permanent molars: a single-blind randomized clinical trial. Journal of Clinical Pediatric Dentistry. 2024; 48: 107–116.

[41] Vitale MC, Gallo S, Pascadopoli M, Alcozer R, Ciuffreda C, Scribante A. Local anesthesia with SleeperOne S4 computerized device vs traditional syringe and perceived pain in pediatric patients: a randomized clinical trial. Journal of Clinical Pediatric Dentistry. 2023; 47: 82–90.

[42] Guinot F, Mercadé M, Oprysnyk L, Veloso A, Boj JR. Comparison of active versus passive audiovisual distraction tools on children’s behaviour, anxiety and pain in paediatric dentistry: a randomised crossover clinical trial. European Journal of Paediatric Dentistry. 2021; 22: 230–236.

[43] Hanjahanja-Phiri T, Lotto M, Oetomo A, Borger J, Butt Z, Morita PP. Ethical considerations of public health surveillance in the age of the internet of things technologies: a perspective. Digital Health. 2024; 10: 20552076241296578.