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Pediatric dental treatments with pharmacological and non-pharmacological interventions: a cross‐sectional study

BMC Oral Health volume 21, Article number: 186 (2021) Cite this article

Abstract

Objectives

Behaviour management strategies involving pharmacological or non-pharmacological interventions during dental procedures should be considered to attain safe and successful treatment outcomes. This study compared the frequencies of use and the completeness of treatment with these interventions.

Methods

A total of 1725 dental records of patients up to 18 years old, who were treated in the King Abdulaziz Medical City in Jeddah City from October 2018 to June 2019, were used in this retrospective, cross-sectional study. Inferential analysis, Chi-square test, Kruskal–Wallis test, and regression model were used in the data analysis.

Results

About two-thirds of the patients were treated with attendant non-pharmacological interventions, while one-third, with pharmacological interventions. The application of General Anesthesia (GA) was the most frequently used intervention. Restorative procedures and extractions were done in higher frequencies with pharmacological interventions. Treatments with space maintainers and orthodontic appliances were carried out in higher frequencies with non-pharmacological strategies. The choice of intervention was significantly influenced by the systemic conditions of the patients. Patients treated with non-pharmacological intervention comprised the dominant type of patients, because they required treatments with less pain. Those treated with GA needed restorative treatments and extractions, or treatments that involve pain, but these treatments had higher frequencies of being completed.

Conclusions

The treatments with pharmacological intervention through GA have higher frequencies of being completed, compared to those with non-pharmacological interventions. Factors, such as age, potential to complete the treatment, and the type of dental treatment applied, influence the choice of treatment intervention.

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Background

The specialization of pediatric dentistry provides both primary and comprehensive oral health needs of infants and children, including those with special health care needs [1]. The provision of dental care is needed in preventing and eliminating orofacial disease, restoring the form and functions of dentition, and correcting facial disfiguration. However, pediatric dentists are confronted by difficult challenges brought about by the patient’s young ages, their behavior during treatment, or their special medical needs [2, 3].

One of the major problems in pediatric dentistry relates to the management of uncooperative and anxious children during treatment. Dental fear and anxiety (DFA), which indicates strong negative emotions associated with dental treatment among children and adolescents, is the most common cause of behavioral management problems and the non-compliance of children during treatment [4]. The prevalence of DFA in children was reported to be 5–20% [5]. Pain is one of the reasons why a patient may be fearful of dental procedures, which is particularly true for pediatric dental patients [6]. Dental pain is caused by an inflammatory condition, tissue damage, infection, or invasive treatment [2]. Therefore, careful pain assessment and attendant control strategies during dental procedure can promote a better relationship between the dentist and the patient by building mutual trust, relieving fear and anxiety of the patient, and enhancing positive attitudes of the patients toward their future visits [7]. Likewise, the children’s medical conditions can cause distinctive challenges in dental treatment, because some medical diseases can influence the timing and the type of dental treatment to be administered, as well as the techniques used in pain and anxiety control [8].

Both pharmacological and non-pharmacological behavioral management are used to perform oral health care safely and efficiently. The American Academy of Pediatric Dentistry (AAPD) had established guidelines on how to conduct a successful dental treatment by reducing pain, fear, and anxiety, to establish a positive attitude toward dental treatment, and to build a trustworthy relationship between the dentist and the patient/parent [2]. The choice of the technique by a skillful practitioner must be customized after fully understanding the cognitive, social, and emotional qualities of the child [2, 8].

The non-pharmacological intervention is divided into two groups: communication and confidence-building and psychotherapeutic strategy. This strategy is based on the concept of learning by changing the unfavorable attitudes of the child in a specific situation, which includes tell-show-do technique, biofeedback, positive reinforcement, hypnosis, distraction, among others [3, 8, 9]. On the other hand, pharmacological interventions include conscious sedation, which is delivered by a variety of means and combinations and general anesthesia (GA) [3, 4]. The tell-show-do technique has shown to be the most frequently used technique, with high parental acceptance, and is the safest method among the non-pharmacological techniques. Sedation by nitrous oxide is the second most favorable method. The hand-over-mouth technique, which is used in some countries, has the lowest acceptance by the parents and by dentists. The AAPD also suggested to minimize the use of this strategy [8, 10, 11].

The use of sedatives through the oral and inhalation routes of administration is a very cost-effective alternative option to general anesthesia. Additionally, it is the most popular technique among dentists and is also preferred by patients [12, 13]. An increase in the use of nitrous oxide reflects the high demands of this sedative substance by the parents, the contemporary education in pediatric dentistry, and the changing quality of the resident’s training [14]. However, a study was done to examine the factors that influenced dentists’ sedation choice when a child presents in pain. It was found that the most important factor in dentist’s decision was dental caries, whereas age and other factors were of lesser importance [15]. Moreover, sedation was an option for patients with multiple morbidities who cannot tolerate dental treatment. Although it is sometimes a challenge for the patients, but with teamwork between the dentist and healthcare provider, a safe and successful dental treatment under sedation can be achieved [16].

Studies that describe and compare the frequencies of each treatment intervention used and the dental procedures that were done through these strategies are rarely published. The findings of a comprehensive systematic review on these strategies revealed the effectiveness of pharmacological and non-pharmacological interventions in managing DFA in children and adolescents during dental procedures. However, further assessments on the efficacy and the safety of using these interventions are needed [4]. It is essential to know about the possible differences in the frequencies of use and preferences of these dental treatment strategies, since children’s age, behavior, and medical conditions can cause distinctive challenges in dental treatment outcomes. Moreover, some medical diseases may affect the timing and the quality of dental care services as well as the strategy used. Addressing this gap is the focus of this study to help professional decisions about the use of pharmacological or non-pharmacological techniques in the dental office. This targeted specific purpose of which dwell on the frequencies of using pharmacological and non-pharmacological interventions as applied to pediatric dental patients of the King Abdulaziz Medical City (KAMC) in Jeddah City and the identification of the factors that may influence the choice, on which intervention and technique are preferred by pediatric dentists.

Methods

Study design

This retrospective, cross-sectional study was conducted at the hospital of KAMC in Jeddah, Saudi Arabia. This center is a tertiary care center that serves the employees of the Ministry of National Guard and their eligible dependents. However, eligibility exceptions can be made to non-eligible patients with medically compromised conditions through Prince Noura Oncology Center for oncologic patients and King Fahad Cardiac Center for cardiac patients. This study involved a review of the records of pediatric patients, who attended the dental clinics and operating rooms from October 2018 to June 2019. Pediatric patients were referred from primary care centers, out-patient clinics, and in-patient for dental treatment. Those referred patients were first screened and dental treatment was planned for them using either pharmacological or non-pharmacological techniques taking into consideration their age, medical condition, and cooperation.

Study sample

The sample size was calculated using the Roasoft sample size calculator [17]. Given a marginal error of 2.5%, a confidence interval of 95%, and a response rate of 50% for those patients who underwent dental treatments using pharmacological intervention, a minimum of 1428 patient records was required to produce statistically accurate results. A total of 1725 pediatric dental records were reviewed for this study, and the sample was selected from them using the non-probability consecutive sampling technique, where every consecutive patient record that met the eligibility criteria was included in the study.

Eligibility criteria

Pediatric patients of up to 18 years old and patients treated by a pediatric dentist were included in this study. Those pediatric patients with missing records were excluded.

Data collection

The data extracted from the pediatric patients’ records were entered into a self-designed data collection Excel sheet. This form consists of: (1) demographic information, which include patients’ gender, date of birth and area of residence; (2) medical status of patients whether the patient is medically free or medically compromised; (3) treatment strategies, which is divided into pharmacological and non-pharmacological; (4) treatment procedures either preventive, restorative, surgical or orthodontic procedure each in details; and (5) treatment completion. Treatment completion can be defined as providing the entire planned treatment procedures involving preventive, restorative, orthodontic treatment and extractions, in addition to the number of the visit in order to complete the case.

Ethical consideration

The ethical approval for the conduct of this study was obtained from the Institutional Review Board of King Abdullah International Medical Research Center.

Data analysis

Data analyses were done using SAS 9.4, which calculated the frequencies and percentages for the categorical variables (i.e., gender, area of residence, medical condition, treatment strategy type and procedure type, and treatment completion). While, the numerical variables were presented as mean ± SD (i.e., age, number of visits, dental procedure frequency and treatment strategies frequency). Inferential analysis was performed using a combination of parametric and non-parametric methods. The Chi-square test was used to determines whether there is an association between categorical variables such as the association between treatment strategy and gender, medical condition, area of residence, treatment completion, and type of dental treatment provided. The Kruskal–Wallis test, and the logistic regression model were used to determine the association between numerical and categorical variables such as the association between treatment strategy and age, number of treatment visit, and the number of dental treatment services provided. The significance level was set at 0.05% for all statistical tests.

Results

The ages of the dental patients ranged from 0.5 to 17 years, with a mean age of eight years. Majority of the patients were from Jeddah (97.74%) and were healthy (80.12%) at the time of presentation. About two-thirds of them (65%) were treated using the non-pharmacological methods (Npharm), while the remaining one-third (35%), with pharmacological methods (Pharm). The completed treatment summed up to 68% of the total cases (Fig. 1).

Fig. 1
figure 1

Demographic data of the pediatric dental patients treated at the KAMC-Jeddah

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At the KAMC, the average booking for a pediatric patient to complete a dental treatment ranged from 1 to 12 visits, with a mean of 2.68 (± 2.36). The maximum number of dental services provided for each patient was 36 services, and the mean was at 5.74 (± 6.92). Figure 2 lists the frequencies of the strategies used on the dental treatments of the patients. Almost half of the cases reviewed (47%) were treatments that used behavior management techniques only, followed by treatments with local anesthesia (LA), which involved 18% of the cases. Among the pharmacological interventions, the application of GA was the most frequently used method, with 23% of the total cases. The sedation techniques with both nitrous oxide and midazolam was used in approximately 3% of the cases. The combination treatment using both pharmacological and non-pharmacological interventions was applied to less than 10% of the total cases.

Fig. 2
figure 2

Frequencies of the strategies for the dental treatments used on the pediatric patients at the KAMC-Jeddah

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The frequencies of the type of dental treatment provided was significantly associated with the kind of strategy used. The Kruskal–Wallis test and Wilcoxon two-sample test showed that all types of restorative procedures were carried out in significantly higher frequencies with pharmacological treatment strategy. Also, pulp therapy, extraction, and fissure sealant were engaged also in significantly higher frequencies with the attendant pharmacological strategy. Whereas the treatments with space maintainers and orthodontic appliances were carried out in significantly higher frequencies with a non-pharmacological strategy (Fig. 3).

Fig. 3
figure 3

Type of dental treatment under pharmacological and non-pharmacological strategies. (SSC stainless steel crowns)

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In addition to the types of dental treatment, other factors that were associated with the choice of treatment preferred by the pediatric dentists are described in Table 1. The pediatric patients in the non-pharmacological group were significantly older. The pharmacological group, however, registered a higher number of completed treatments at 92% of the cases (p < 0.0001). Only 55% of the cases had completed the treatment with the non-pharmacological intervention.

Table 1 Factors that affect the strategies used in pediatric dental treatments
Full size table

The gender factor did not have any influence on the kinds of treatment strategy that were used. The medical conditions of the patients, however, were found to have an influence on the kind of treatment administered (p = 0.02). The total number of dental services tendered and the overall number of visits for the treatments were significantly related to the pharmacological strategy that was used (p < 0.0001).

The logistic regression statistical model was used to predict the suitability of the treatment strategy provided, i.e., with non-pharmacological or pharmacological strategy, based on one or more independent variables, as shown in Table 2. This model demonstrated that the factors, such as the ages of the patients, the completion of their treatments, the types of treatment applied, i.e., restorative treatment, extraction, or orthodontic treatment, showed significant associations with the treatment strategy. The probability of using the non-pharmacological technique increases with age and the application of orthodontic treatment, posting a positive and direct relationship with each other. On the other hand, the probability of using the non-pharmacological technique decreases with the number of completed treatments and the application of restorative treatment or extraction, giving an inverse relationship.

Table 2 Regression model of the significant predictors for pediatric dental treatment interventions
Full size table

Discussion

This study was carried out in a tertiary medical center that provides free dental care to patients, who are eligible based on defined criteria. The center also receives a large number of referrals from in-patient units, out-patient clinics, and primary healthcare centres, scattered all over the western province of Saudi Arabia. The reasons for these referrals point to the specific needs of young patients, who require extensive treatments and/or special attention and preparation due to their behavioral problems or their specific medical conditions. There is an increase in the demand for dental management using pharmacological methods.

Accordingly, this study determined the number of pediatric dental patients and the frequencies of their treatments using pharmacological and non-pharmacological interventions. The comparison between these strategies in managing DFA in children and adolescents has not been sufficiently addressed and studied.

In our study, only 35% of the patients were treated via the pharmacological strategy (Fig. 2). In previous studies, this low percentage was attributed to the following reasons. For example, the parental preference towards non-pharmacological methods was demonstrated by a qualitative study on the attitudes of Chinese parents toward the oral health treatment of their children with caries. This preference was driven by fear of the adverse effects of pharmacological methods and by the lack of dental education of the parents [18]. The medical condition of a patient may contraindicate the use of a pharmacological method. If this is the case, then this can lead to the consequent cancellation of the scheduled dental procedure [19]. Another important reason relates to the limited available slots in the operating room (OR) and the difficulty in scheduling patients for elective dental surgeries in comparison to other critical surgeries from other specialties, which leads to a prolonged waiting time for a dental appointment. This concern was presented and addressed in literature by using a prioritization system that improved the timeliness of treatment for urgent cases, in addition to other measures that can reduce waiting time [20].

Despite the low percentage of the cases in this study that were dealt with using the pharmacological strategies, the completion of their treatments was very high at more than 90% (Table 1). On the other hand, 65% of the cases were addressed using the non-pharmacological strategies, but the completed treatments here were only 55%. A study in Norway explored the explanatory factors that were related to the avoidance or the non-completion of treatments among adolescents, aged 12–18-year old. The canceled or missed appointments led to incomplete treatments, and eventually, caused the future dropping out of the patient from dental care. Here, the canceled or missed appointments constituted as major factors, comprising 47% and 26% of the failures in dental appointments, respectively [21]. Other reported contributing factors leading to incomplete dental treatments include forgotten dental appointments, the negative belief of the dentists, high incidence of caries, painful or unpleasant treatment experiences, and DFA [22, 23]. In our study, it could not be ascertained why the treatments remained incomplete. It was assumed, however, that canceled or missed appointments could be one of the reasons behind this. The very low financial cost and the ease of accessibility to dental care could be excluded as reasons for canceled or missed appointments, because the center provides free dental care services.

There is a growing amount of evidence that a previous painful experience from a treatment is one of the significant factors that triggers DFA in children, which may result in the losses of treatment time or failures in performing the dental procedures [24]. A Swedish study assessed the attitudes of dentists towards pain and their DFA management strategies in children and adolescents [25], and found out that majority of them preferred non-pharmacological strategies. Their results are similar to the results of our study, where the majority of the patients (65% of the cases) were treated using non-pharmacological strategies. Local anesthesia was used only in 18% of the cases (Fig. 2). It is worthwhile to emphasize that LA is an important technique used for pain control in dental treatment in children. It can be administered using alternative delivery systems that aim to reduce fear and anxiety [26]. However, it was found that ineffective pain control is usually associated with dental anxiety, presence of symptoms before treatment, and invasive operative and endodontic procedures [27]. Therefore, the use of LA is sometimes combined with pharmacological interventions to improve the outcome of the dental treatment. Combined application of LA and inhalation sedation resulted in lower levels of post-operative dental anxiety experienced by children having dental extractions [28]. Similarly, the combined use of LA during dental rehabilitation under GA has some potential benefits such as improved patient recovery by decreasing the postoperative pain and hemorrhage control [29]. However, LA use in our study (18%) was categorized under non-pharmacological intervention. This was explained by the characteristics of pediatric patients in non-pharmacological intervention group. Those patients were older in age with more simple restorative procedures and space maintainers. On the other hand, less invasive procedures such as, fissure sealant, and application of topical fluoride in periodic recall visits required only behavioral management techniques as tell-show-do technique and positive reinforcement which comprised the 47%.

Our study determined the factors associated with the choice of the technique preferred by the pediatric dentists. Restorative treatments and extractions were less used in patients, who were treated with accompanying non-pharmacological interventions. Other studies confirmed our findings that children with behavior management problem (BMP) had more carious and fewer filled teeth [24].

As shown in Table 1, the frequencies in using pharmacological techniques in our study decreased with age, i.e., the younger the age of the patient, the more likely a dentist uses sedation or GA, because younger children tend to show BMP [30, 31]. Children’s fear of injection is another reason for the infrequent use of local anesthesia during their treatments, which account for only 18% of the total cases in our study (Fig. 2. This finding agrees with those reported in other studies that children with BMP are fearful of injections. Dentists are also cautious in convincing children or their parents to use local anesthesia in their treatments. This commonly leads to the postponement of receiving dental services or to missing appointments [23, 32,33,34], which was also reflected in the results of our study.

General anesthesia was used in 23% of the cases. The treatments were completed in all of these cases, with a significantly higher number of restorations and extractions that were done, which also indicated the increased degree of severity of the carious lesions in this group. The number of completed treatments in cases under GA was more than those of the other pharmacological interventions combined. This could be due to the fact that a dental treatment under GA is usually completed during a single visit, compared to other methods, which may require several visits for a treatment to be completed, depending on the extent of cooperation of the patient [35].

The choice of treatment intervention that was used in this study was significantly influenced by the systemic condition of the patient, i.e., whether the patient is healthy or medically compromised. The treatment under GA appears to be more appropriate for children with bleeding disorders, cancers, attention deficit hyperactivity disorders, and other systemic disorders. They require specific attention, and they are more prone to develop DFA during their frequent dental visits [36,37,38].

Approximately 47% of all cases in this study were treated using behavior management techniques only LA. Based on the regression model, these techniques were associated with the increased chances for orthodontic treatment using space maintainers and orthodontic appliances, and lowered possibility for restorative treatments and extractions. This finding supports our previous finding that children treated using behavior management techniques are older in age. Therefore, most of the treatment visits were dedicated to orthodontic space management, and preventive treatment such as fissure sealants and topical fluoride application. Another explanation for this finding is the fact that since this is a cross-sectional study, some of the children treated with non-pharmacological intervention were treated originally under GA earlier. Hence, during the time of data collection, they were of an older age with less need for restorations and more need for space maintainers and preventive procedures.

The primary limitation of this cross-sectional study design is that the relationship between exposure (treatment strategy) and outcome (dental treatment type) is not time-related because the exposure and outcome are assessed simultaneously. Moreover, even if the association between an exposure and an outcome was determined, there is no evidence that the exposure caused the outcome. In addition, retrospective studies cannot assess all factors that influence the choice of treatment by the dentist. A second general challenge for our study is the external validity since the study results can’t be generalized to a more universal population [39].

Future research should explore further the causes of incomplete treatments among children using the non-pharmacological interventions and the success rates of dental treatments with pharmacological interventions. Also, history of previous dental rehabilitation under GA can be added to data collection for better interpretation of the results and identification of additional factors the influence the choice of intervention.

Conclusions

Our study documented that pediatric dentists in the KAMC-Jeddah have been commonly treating children using non-pharmacological methods, but in contrast, significantly more dental procedures were administered, and more completed cases were attained by using the pharmacological methods. Most of the allocated clinical time was consumed for preventive care and simple treatment services.

Availability of data and materials

The datasets used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Abbreviations

AAPD:

American Academy of Pediatric Dentistry

BMP:

Behavior management problem

DFA:

Dental fear and anxiety

GA:

General anesthesia

KAMC:

King Abdulaziz Medical City

LA:

Local anesthesia

NPharm:

Non-pharmacological

OR:

Operating room

Pharm:

Pharmacological

SED:

Sedation technique

SSC:

Stainless steel crowns

References

  1. American Academy of Pediatric Dentistry Council on Clinical Affairs. Policy on the role of pediatric dentists as both primary and specialty care providers. Pediatr Dent. 2005;27(7 Suppl):60.

  2. American Academy of Pediatric Dentistry. Behavior guidance for the pediatric dental patient. Pediatr. Dent. 2017;39 (6), 246–259.

  3. Oliver K, Manton DJ. Contemporary behavior management techniques in clinical pediatric dentistry: Out with the old and in with the new? J Dent Child. 2015;82(1):22–8.

    Google Scholar 

  4. Cianetti S, Paglia L, Gatto R, Montedori A, Lupatelli E. Evidence of pharmacological and non-pharmacological interventions for the management of dental fear in paediatric dentistry: a systematic review protocol. BMJ Open. 2017;7(8):e016043.

    Article  Google Scholar 

  5. Greenwood M, Meechan JG. General medicine and surgery for dental practitioners. Berlin: Springer; 2019.

    Book  Google Scholar 

  6. American Academy of Pediatric Dentistry. Pain management in infants, children, adolescents and individuals with special health care needs. Pediatr. Dent. 2018;40 (6), 321–329.

  7. Eskandarian T, Eftekharian H, Soleymanzade R. Efficacy and safety of premedication with single dose of oral pregabalin in children with dental anxiety: A randomized double-blind placebo-controlled crossover clinical trial. Dental research journal. 2015;12(6):528.

    Article  Google Scholar 

  8. Anthonappa RP, Ashley PF, Bonetti DL, Lombardo G, Riley P. Non-pharmacological interventions for managing dental anxiety in children. Cochrane Datab Syst Rev. 2017;2017:6.

    Google Scholar 

  9. Oredugba FA, Sanu OO. Behavior management techniques employed by Nigerian dentists for their child patients. Pesquisa Brasileira em Odontopediatria e Clínica Integrada. 2009;9(3):271–6.

    Article  Google Scholar 

  10. Al Daghamin S, Balharith M, Alhazmi S, AlObaidi F, Kakti A. Behavior management techniques in pediatric dentistry: How well are they accepted. Acad J Ped Neonatol. 2017;5:555722.

    Google Scholar 

  11. Vishwakarma AP, Bondarde PA, Patil SB, Dodamani AS, Vishwakarma PY, Mujawar SA. Effectiveness of two different behavioral modification techniques among 5–7-year-old children: A randomized controlled trial. J Indian Soc Pedodontics Prevent Dent. 2017;35(2):143.

    Article  Google Scholar 

  12. Shapira J, Holan G, Guelmann M, Cahan S. Evaluation of the effect of nitrous oxide and hydroxyzine in controlling the behavior of the pediatric dental patient. Pediatr Dent. 1992;14(3):167–70.

    PubMed  Google Scholar 

  13. Hosey MT, UK National Clinical Guidelines in Pediatric Dentistry. Managing anxious children: the use of conscious sedation in paediatric dentistry. Int J Paediatr Dent. 2002;12(5):359–72.

  14. Wells MH, McCarthy BA, Tseng CH, Law CS. Usage of behavior guidance techniques differs by provider and practice characteristics. Pediatr Dent. 2018;40(3):201–8.

    PubMed  Google Scholar 

  15. Carson P, Freeman R. Dental caries, age and anxiety: factors influencing sedation choice for children attending for emergency dental care. Commun Dent Oral Epidemiol. 2001;29(1):30–6.

    Article  Google Scholar 

  16. Wang YC, Lin IH, Huang CH, Fan SZ. Dental anesthesia for patients with special needs. Acta Anaesthesiol Taiwan. 2012;50(3):122–5.

    Article  Google Scholar 

  17. Sample size calculator. Raosoft, Inc. http://www.raosoft.com/samplesize.html. Accessed 17 August 2020.

  18. Wong D, Perez-Spiess S, Julliard K. Attitudes of Chinese parents toward the oral health of their children with caries: a qualitative study. Pediatr Dent. 2005;27(6):505–12.

    PubMed  Google Scholar 

  19. Forsyth AR, Seminario AL, Scott J, Berg J, Ivanova I, Lee H. General anesthesia time for pediatric dental cases. Pediatr Dent. 2012;34(5):129E-E135.

    Google Scholar 

  20. Casas MJ, Kenny DJ, Barrett EJ, Brown L. Prioritization for elective dental treatment under general anesthesia. J Can Dent Assoc. 2007;73:4.

    Google Scholar 

  21. Skaret E, Raadal M, Kvale G, Berg E. Missed and cancelled appointments among 12–18-year-olds in the Norwegian Public Dental Service. Eur J Oral Sci. 1998;106(6):1006–12.

    Article  Google Scholar 

  22. Skaret E, Raadal M, Berg E, Kvale G. Dental anxiety and dental avoidance among 12 to 18 year olds in Norway. Eur J Oral Sci. 1999;107(6):422–8.

    Article  Google Scholar 

  23. Skaret E, Raadal M, Kvale G, Berg E. Factors related to missed and cancelled dental appointments among adolescents in Norway. Eur J Oral Sci. 2000;108(3):175–83.

    Article  Google Scholar 

  24. Raadal M, Strand GV, Amarante EC, Kvale G. Relationship between caries prevalence at 5 years of age and dental anxiety at 10. Eur J Paediatr Dent. 2002;1(3):22–6.

    Google Scholar 

  25. Wondimu B, Dahllof G. Attitudes of Swedish dentists to pain and pain management during dental treatment of children and adolescents. Eur J Paediatr Dent. 2005;6(2):66.

    PubMed  Google Scholar 

  26. Angelo Z, Polyvios C. Alternative practices of achieving anaesthesia for dental procedures: a review. J Dent Anesth Pain Med. 2018;18(2):79.

    Article  Google Scholar 

  27. Nakai Y, Milgrom P, Mancl L, Coldwell SE, Domoto PK, Ramsay DS. Effectiveness of local anesthesia in pediatric dental practice. J Am Dent Assoc. 2000;131(12):1699–705.

    Article  Google Scholar 

  28. Arch LM, Humphris GM, Lee GT. Children choosing between general anaesthesia or inhalation sedation for dental extractions: the effect on dental anxiety. Int J Pediatr Dent. 2001;11(1):41–8.

    Article  Google Scholar 

  29. Townsend JA, Hagan JL, Smiley M. Use of local anesthesia during dental rehabilitation with general anesthesia: a survey of dentist anesthesiologists. Anesth Prog. 2014;61(1):11–7.

    Article  Google Scholar 

  30. Klingberg G, Löfqvist LV, Bjarnason S, Norén JG. Dental behavior management problems in Swedish children. Commun Dent Oral Epidemiol. 1994;22(3):201–5.

    Article  Google Scholar 

  31. Klingberg G. Dental fear and behavior management problems in children. A study of measurement, prevalence, concomitant factors, and clinical effects. Swedish dental journal. Supplement. 1995;103:1–78.

    Google Scholar 

  32. Poulton R, Thomson WM, Brown RH, Silva PA. Dental fear with and without blood-injection fear: implications for dental health and clinical practice. Behav Res Ther. 1998;36(6):591–7.

    Article  Google Scholar 

  33. Yamada MK, Tanabe Y, Sano T, Noda T. Cooperation during dental treatment: the Children’s Fear Survey Schedule in Japanese children. Int J Pediatr Dent. 2002;12(6):404–9.

    Article  Google Scholar 

  34. Vika M, Skaret E, Raadal M, Öst LG, Kvale G. Fear of blood, injury, and injections, and its relationship to dental anxiety and probability of avoiding dental treatment among 18-year-olds in Norway. Int J Pediatr Dent. 2008;18(3):163–9.

    Article  Google Scholar 

  35. Lee JY, Vann WF Jr, Roberts MW. A cost analysis of treating pediatric dental patients using general anesthesia versus conscious sedation. Anesth Prog. 2001;48(3):82.

    PubMed  PubMed Central  Google Scholar 

  36. Moskovitz M, Brener D, Faibis S, Peretz B. Medical considerations in dental treatment of children with Williams syndrome. Oral Surg Oral Med Oral Pathol Oral Radiol Endodontol. 2005;99(5):573–80.

    Article  Google Scholar 

  37. Blomqvist M, Holmberg K, Lindblad F, Fernell E, Ek U, Dahllöf G. Salivary cortisol levels and dental anxiety in children with attention deficit hyperactivity disorder. Eur J Oral Sci. 2007;115(1):1–6.

    Article  Google Scholar 

  38. Dogan MC, Yazicioglu I, Antmen B. Anxiety and pain during dental treatment among children with haemophilia. Eur J Paediatr Dent. 2013;14(4):284–8.

    PubMed  Google Scholar 

  39. Carlson MD, Morrison RS. Study design, precision, and validity in observational studies. J Palliat Med. 2009;12(1):77–82.

    Article  Google Scholar 

Download references

Acknowledgements

The authors would like to express their deep appreciation and thanks to Dr. Al Dosari, Dr. Ardah, Mrs. Seham Alharbi, the Research Summer School coordinators, the dental department and medical records staff for their cooperation and assistance during the study.

Funding

The study did not receive any funding from any sources.

Author information

Authors and Affiliations

  1. King Abdulaziz Medical City, National Guard Health Affairs, Jeddah, Saudi Arabia

    Rania A. Baakdah & Jihan M. Turkistani

  2. Alfarabi Dental College, Jeddah, Saudi Arabia

    Amjad M. Al-Qarni, Asuf N. Al-Abdali, Heba A. Alharbi & Zaina S. Alshehri

  3. Ibn Sina National College, Jeddah, Saudi Arabia

    Joud A. Bafaqih

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  1. Rania A. Baakdah
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RB: has a substantial contribution to the Conceptualization, Methodology, Data Curation, Writing-Review and Editing, Visualization, Supervision, Project administration. JT: has a substantial contribution to the Methodology, Data Curation, Validation, Writing-Review and Editing, Visualization, Supervision. AM: has a substantial contribution to the Investigation, Data Curation, Writing-Original Draft. AA: has a substantial contribution to the Investigation, Data Curation, Writing -Original Draft. HA: has a substantial contribution to the Investigation, Data Curation, Writing-Original Draft. JB: has a substantial contribution to the Investigation, Data Curation, Writing-Original Draft. ZA: has a substantial contribution to the Investigation, Data Curation, Writing-Original Draft. All authors read and approved the final manuscript.

Corresponding author

Correspondence to Jihan M. Turkistani.

Ethics declarations

Ethics approval and consent to participate

The ethical approval for the conduct of this study was obtained from the Institutional Review Board of King Abdullah International Medical Research Center with IRB No. RSS/19/017/J. The study protocol was carried out in accordance with the Declaration of Helsinki.

Consent for publication

Consent is “Not applicable” since the manuscript is a chart review of dental appointments and does not report on or involve the use of any animal or human data or tissue. The waiver for the informed consent of the study was obtained from the institutional review board of King Abdullah International Medical Research Center.

Competing interests

The authors declare that they have no competing financial, professional, or personal interests that might have influenced the performance or presentation of the work described in this study.

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Baakdah, R.A., Turkistani, J.M., Al-Qarni, A.M. et al. Pediatric dental treatments with pharmacological and non-pharmacological interventions: a cross‐sectional study. BMC Oral Health 21, 186 (2021). https://doi.org/10.1186/s12903-021-01555-7

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Keywords

BMC Oral Health

ISSN: 1472-6831

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