Background
Proper debridement of the root-canal system by cleaning and shaping is an essential procedure for successful root-canal treatments (RCTs) [
1]. Developing a continuously tapered funnel as well as maintaining the original shape of root-canals and the apical foramen in its original position are main objectives of good cleaning and shaping [
2]. Therefore, knowledge and understanding of techniques and instruments used for cleaning and shaping are paramount. While root-canal instruments had been first made of carbon steel, stainless steel instruments (SSIs) were dominant for few decades due to their greater ductility, which allowed greater resistance to fracture [
3]. However, these instruments lack flexibility and cannot keep the original root-canals’ shape [
4,
5]. They also may lead to mishaps and complications that may hinder cleaning and shaping of root-canal systems [
6].
In the early 1960s, the nickel-titanium (NiTi) alloy was developed by WF Buehler and then was introduced into dentistry [
7]. As a super-elastic alloy, deformations of as much as 8% strain can be fully recoverable compared to less than 1% with stainless steel [
4,
7]. Also, and unlike SSIs, which are manufactured by twisting, NiTi instruments are machined, which allows producing various instruments designs [
7]. This with the super-elasticity property are almost the main reasons for using the NiTi alloy widely in manufacturing endodontic instruments; especially rotary instruments (RIs).
Many studies have reported better performance of NiTi-RIs, in cleaning and shaping of the root-canal system, compared to SSIs [
6,
8‐
10]. A 1-year recall study comprising 40 cases, reported a significantly better success rate for teeth prepared with NiTi hand files than with SS K-files [
6]. A very recent study investigated factors affecting the status of periapical tissues of endodontically treated teeth among German urban populations [
10]. It has found that teeth instrumented with NiTi-RIs had a significantly better outcome when compared to those performed with SSIs [
10]. Unsurprisingly, NiTi instruments were recommended for safer and faster instrumentation of root-canal systems. Several studies have shown different trends in implementing NiTi instruments, especially RIs, in endodontic and general dental practice of different countries. Barbakow & Lutz found that 80% of Swiss dentists used NiTi-RIs in their practice [
11]. Parashos & Messer found that only 22% of general dentists (GDs) and 64% of endodontists, in Australia, were using NiTi-RIs [
12]. Another questionnaire showed that 93% of endodontists and 65% of GDs in United Kingdom were using NiTi-RIs [
13]. A relatively recent study found that 74% of GDs in the United States were using NiTi-RIs [
14]. More importantly, one systematic review confirmed the differences in daily general practice and academic teaching among different countries [
15]. Nevertheless, there is need for more information regarding the different usage modalities and reasons for using/not using NiTi-RIs [
12]. This is especially important as significant improvement in RIs designs and properties has been witnessed in the last decade [
16]. None of previous studies investigated some important aspects such as: preparing glide-path before using NiTi-RIs and dentists’ beliefs about measures that contribute into better implementation of NiTi-RIs in general dental practice. Such information can be obtained mainly by questionnaires studies [
13,
17], especially if they are well planned and conducted; so that results are representative and can be generalised [
17,
18].
Consequently, the aims of this questionnaire study were to establish the extent of using NiTi-RIs in Saudi dental practice, to explore usage modalities and to identify factors that may contribute to better implementation of NiTi-RIs in Saudi general dental practice.
Discussion
Cleaning and shaping of the root-canal system is one critical step towards successful RCTs. In the last 30 years, considerable improvement has been witnessed in manufacturing instruments, especially NiTi-RIs, for safer and more predictable root-canal instrumentation [
16]. Cleaning and shaping of the root-canal system using NiTi-RIs have been reported to be superior when compared SSIs [
6,
8‐
10]. One previous study reported a significantly better success rate for teeth prepared with NiTi hand files than with SS K-files [
6]. A very recent study has found that teeth instrumented with NiTi-RIs had a significantly better outcome when compared to SSIs [
10]. Moreover, clinicians, recommend NiTi instruments for safer and faster instrumentation of the root-canal systems. Although several studies investigated the implementation of NiTi-RIs in dental practice of different countries, there is still lack of information on usage modalities and factors affecting dentists’ and specialists’ preferences on using them. This is especially true as each dental community has its own characteristics and influencing factors.
The current study showed that almost 72% respondents were using NiTi-RIs. As expected, more endodontists (96.9%) were using RIs compared to GDs (60%), which was in agreement with previous studies [
12,
19]. Using of NiTi-RIs during endodontic postgraduate programmes’ training is a routine policy. In addition, endodontists are well aware of the advantages of using NiTi-RIs over SSIs such as: greater resistance to failure [
4], greater centring ability [
19,
20], less instrumentation time [
21], less complications [
9] and may lead to better outcomes [
6,
22]. By contrast, the proportion of GDs who were using NiTi-RIs (60%) was significantly less than that of endodontists. These findings, however, show significant improvement in integrating NiTi-RIs in Saudi general dental practice, considering that only 3 and 17.5% of GDs had used them as reported in two studies published in 2010 [
23] and 2014 [
24]. Nonetheless, it should be noted that while the latter study was related to RCTs performed on molar teeth, the current study concerned using NiTi-RIs in all teeth. In addition, these figures could have been greater, taking into consideration the results of previous studies which were conducted many years ago; Switzerland (58%) [
11], Australia (22%) [
12], United Kingdom (65%) [
13], Iran (50.6%) [
19] and Wales (67%) [
25]. One possible reason for this disagreement, as it will be discussed later, is the differences in undergraduate curricula. Also, postgraduate education, especially hands-on courses, could be another reason [
19,
25‐
27]. Nevertheless, other reasons were proposed as influencing factors, such as: type of practice, perceived risk of complications, clinicians’ experience and other factors [
12,
13,
19,
25,
28].
Previous studies showed significant correlation between clinicians’ experience and adoption of NiTi-RIs [
12,
19,
29,
30]. The current study was not exception and showed a significant increased trend of using NiTi-RIs within the more experienced clinicians’ groups. Moreover, most respondents (62.5%) had been using them for
More than 3 years. Also, there was a strong positive correlation between the number of weekly performed RCTs and the experience in using NiTi-RIs; with the vast majority (93.3%) of those who were doing
more than 12 cases per week had been using RIs for
more than 3 years. Unal et al referred to the high cost which discouraged young practitioners to use NiTi-RIs [
30]. Parashos & Messer admitted that it is difficult to explain this greater preference among more experienced dentists [
12]. However, they speculated that NiTi-RIs are unavailable for younger dentists who usually work as assistant dentists for more senior colleagues [
12]. They also added that younger dentists may focus on perfecting hand instrumentation before shifting to a more advanced technique [
12]. These justifications could be applied, to extent, to the current study’s results. The increased number of weekly performed RCTs within more experienced dentists could be another reason. The current results showed that using NiTi-RIs significantly increased as the number of weekly RCTs increased. It also showed that as the dentists’ experience increases, the weekly performed RCTs significantly increases. Previous studies identified the correlation between the average teeth treated per week and adoption of NiTi-RIs [
12,
13,
19,
26,
31]. Only Barbakow & Lutz did not find such a correlation, which could be attributed to the specific and solo type of NiTi-RIs (Light-Speed) which was concerned in the study [
11].
With a greater number of cases performed per week, saving time by using NiTi-RIs is paramount, as they significantly reduce instrumentation times [
21]. A very recent study found that dentists performed significantly greater number of RCTs when using NiTi-RIs compared to manual preparation [
32]. The highest proportion of respondents (45.3%), in the current study, used NiTi-RIs because of
faster root-canal preparation. Similarly, faster canal preparation was the most important reason reported by Parashos & Messer (80%) and Mozayeni et al (69%) [
12,
19]. Though faster root-canal instrumentation is one desired advantage, it should not be overemphasized. Maintaining the original shape of the root-canal system is one of the main objectives that was established long time ago [
2] and is still considered as a gold standard. This may explain the significantly greater proportion of endodontists, compared to GDs, who reported the centring ability of the root-canal system as the second most important reason for using NiTi-RIs. This was in consistent with the results reported by Parashos & Messer and Mozayeni et al; 73 and 59%, respectively [
12,
19]. It is generally accepted that with better cantering ability, less procedural errors (zipping, ledge formation or apical perforation) are expected.
By contrast, results of previous studies were inconsistent regarding the reasons behind not using NiTi-RIs. The vast majority of dentists (85%), in the current study, did not use NiTi-RIs because of high cost. Also, most dentists in Wales (62%) reported high cost for not using RIs [
32]. Such a factor may reflect the real willingness of these dentists to use NiTi-RIs. By contrast, while the cost was the third most important obstacle (20%) reported by Australian dentists,
no perceived advantages (36%) and
too fragile (24%) were the first and second most important disincentives [
12]. Mozayeni et al showed that dentists did not use NiTi-RIs due to
lack of adequate education (46.7%),
non-availability (46.7%) and
no perceived advantages (37.8%) [
19]. The time-interval between the two latter studies and the current one (15 and 8 years, respectively) may be one main reason for such discrepancy. Also, different clinics’ settings-up and environments may be additional reasons. In a more recent study, there was a clear discrepancy in reasons reported by dentists who were working in two different environments and settings [
33]. While 75% of those working in
hospital dental clinics did not use NiTi-RIs due to
no perceived benefit, 42% of those working in
community dental clinics did so due to high cost. It is very clear in this study that the different types of practice, with different setting and funds, can affect dentists’ preferences on NiTI-RIs adopting. The guidelines in England and Wales recommend a single use of NiTi-RIs to minimize the risk of Creutzfeldt-Jakob disease transmission [
34]. Such a measure, as authors explained, may pose a cost pressure on using NiTi-RIs in general dental practices of the National Health Service (NHS). Nevertheless, while this was apparent in the latter study, it may not be applied to other countries, with different regulations, environments and treatment guidelines as well as different economic circumstances. The results of our study did not find a correlation between the type of practice and dentists’ preferences on adopting NiTi-RIs. There was no significant difference between
private and
government sectors regarding the use of RIs. However, whilst most GDs (67%) worked in the
private sector, most endodontists (47.4%) worked for the
government. It is well accepted that government sector’s clinics, in Saudi Arabia, are well equipped compared to private clinics. This may be an additional reason why more endodontists (96.9%) were using NiTi-RIs compared to GDs (60%). However, this is also a justification to accept the relatively good adoption of NiTi-RIs by GDs. In the last few years, postgraduate educational courses have received significant attention among dentists in Saudi Arabia and in regional countries. This could have contributed into better awareness among dentists about the advantages of using NiTi-RIs. This was also reflected on participants’ responses regarding the measures and factors that, they believe, will significantly improve adoption of NiTi-RIs in Saudi dental practice. The highest proportion (43.3%) reported
better undergraduate education as the most important factor. Interestingly, also there was no difference in this belief between those who were using NiTi-RIs and those who were not. Reit et al addressed the importance of education on NiTi-RIs uptake in a well-designed and soundly executed study [
26]. The uptake increased from 4% before educational programmes to 73% after undergoing the programmes. Interestingly, lectures combined with hands-on training resulted in a significantly better NiTi-RIs adoption than only a lectures-based programme (94 and 43%, respectively). Another well-designed study revealed that 77% of GDs who undergone an endodontic educational programme were using NiTi-RIs compared to only 6% of those who did not enrolled in the educational programme [
27]. More importantly, a follow up study showed that the educational programmes resulted in a significantly less number of sessions to complete RCTs [
28]. Consequently, authors concluded that instrumentation performed after the educational programmes was more cost-effective [
28]. This may explain the results of the current study as participants reported the
lower cost of NiTi-RIs as the second most important measure that will increase their usage.
A glide-path preparation has been defined as a smooth passage from the orifice to the apical foramen [
35]. It is a desired negotiation and enlargement of the original canal anatomy that establish access to the apical region of the root-canal creating a path for subsequent instruments to follow. Manufacturers usually suggested creating a glide-path up to a size #15 or #20 hand file, especially SSIs, at working length before using NiTi-RIs. Unfortunately, none of previous studies addressed this important aspect. The majority of respondents (91.8%), in the current study, used to prepare a glide-path. This reflects clinicians good awareness, especially endodontists, of the advantages that glide-path can secure. Glide-path preparation can reduce torsional stresses on NiTi-RIs, hence enhance their resistance to fracture [
36,
37]. Also, it can reduce modification of the root-canal geometry after cleaning and shaping [
38,
39]. Glide-path can be prepared by SS hand files, NiTi hand files, or NiTi rotary files [
35,
40,
41]. The highest proportion of those who prepared glide-path before using NiTi-RIs (63.3%), in the current study, were doing so using SS Hand-files. The proportion of endodontists who used SS Hand-files (75%) was significantly greater than that of GDs (55.8%). Endodontists are more aware of the need of rigid files that will first negotiate root-canals that usually exhibit some micro-calcifications and constrictions. Nevertheless, different results have been reported regarding the best instruments for creating glide-path [
38].
Significantly, most respondents (57.8%) used NiTi-RIs for preparing the
Whole root-canal system. Most manufacturers of NiTi-RIs, if not all, produce NiTi-RIs as integral systems, which consists of opener shapers and files with different tapers for preparation of the whole root-canals. Nevertheless, our results are inconsistent with a previous study, in which most respondents (69.8%) used to flare the coronal part with gates-glidden (GG) drills then use NiTi-RIs for preparing the apical part [
19]. Whilst, the second highest proportion of respondents (26%), in the current study, were using GG drills for the coronal part first, then they used NiTi-RIs for the apical portion. These findings are similar to the study by Parashos & Messer [
12]. Pre-flaring of the coronal third of root-canals usually secures easier inserting of NiTi-RIs to the apical portion and reduces the incident of instruments fracture [
36]. Endodontists, in the current study, showed relatively better awareness of such advantage compared to GDs. Also, further statistics showed that the trend of using GG drills first for flaring the coronal part of the canal then complete preparing using NiTi-RIs increased significantly with less experienced participants.
The concept of
hybrid instrumentation includes the use of NiTi-RIs of different systems to manage individual clinical situations; to achieve the best biomechanical cleaning and shaping and the least procedural errors [
42]. This can contribute, especially in difficult cases, into less instruments fracture [
42], which may explain why the majority of respondents, in the current study, used this technique at least once. However, this technique usually is not needed in all cases, depending on each case, which also explains why the highest proportion of this technique users (26.4%) were doing so
Sometimes. While manufacturers claim that NiTi-RIs can be used in all cases regardless of their difficulties, clinical experience has shown that some cases can’t be prepared completely with NiTi-RIs [
43]. The main challenging cases usually include either those of severely curved canals or with strange cross-section shape. The main concerns in such cases is instruments fracture, inability to follow the severely curved canals and insufficient cleaning and shaping of root-canals [
16,
44]. This explains why the second highest proportion in the current study (34.5%) used NiTi-RIs in
straight and moderately curved canals. Also, the majority of- and most of clinicians (86 and 55%, respectively) used NiTi-RIs in
all teeth and in
all types of canal curvatures, respectively. In addition, the majority used them in all canals
sizes and
shapes (82.1 and 81.4%, respectively). These findings are inconsistent with those obtained by Mozayeni et al, in which only 49 and 45% of respondents used NiTi-RIs in anterior teeth and premolars, respectively [
19]. Also, only 61% of Australian dentists used them in anterior teeth [
12]. One possible reason is the different NiTi-RIs available in the time of conducting each study. While the latter two studies were conducted almost 8 and 14 years ago, participants of the current study took the advantages of the significant improvement in NiTi-RIs’ designs, mechanical properties, and the mode of rotation in the last 10 years [
16]. Nevertheless, the low proportion of respondents who preferred using NiTi-RIs only in specific
canal shapes and
sizes reflects the fact that the ideal NiTi rotary instrument is yet to be manufactured [
16].
Like most studies, the current one has limitations. The response rates obtained in the current study (GDs: 52.37% and endodontists: 55.74%) are lower than those reported in previous similar studies [
12,
25]. However, web-based questionnaires, like the current one, usually have lower response rates compared to self-administrative questionnaires [
45]. Also, the lowest level of non-response bias could be obtained with 43% response rate [
46]. Moreover, it is well accepted that low response rates but with good random and systematic sampling methods are better than high response rates without randomizations [
18]. The current study was conducted following two pilot studies and a systematically random sampling method. Finally, one of the most important measure to validate results of questionnaire studies is to compare, responses to questionnaires’ main questions, between those who responded after the first sent-out (early responses) and those who responded after reminders (late responses) [
12,
13]. The current study results showed no significant differences between the proportion of early respondents and that of late respondents regarding NiTi-RIs use (70 and, 75%, respectively). Another limitation could be related to some aspects that were not included in this study, such as inspecting the most common used types of NiTi-RIs, especially those systems that consist of a single file (i.e. Reciproc, Reciproc Blue, WaveOne, WaveOne Gold, OneCurve, etc). The main aims of this study were to establish the extent to which NiTi-RIs are used, to identify factors affect their adoption, to explore how they were used and how to increase their usage among practitioners. However, the current study results can be the foundation to conduct a further survey that investigates factors affect dentists’ preferences on specific type(s) or brand(s) of NiTi-RIs. This is especially true with the fast growing recent advances in producing new single file systems.