Newer Technological Advances: A Step Towards Better Dental Care

: Background: Advanced technologies have drastically impacted the practice of dentistry in order to treat patients more effectively and efficiently. Objective: : The goal of this systematic review was to give a thorough overview of the most widely applied advanced technology and its uses in dentistry


INTRODUCTION
The advent of digital human-centered automation presents a significant opportunity to revolutionize dentistry, ushering in a new era enabled by robotics, machine learning, and artificial intelligence.Our knowledge of disease aetiology will grow as a result of the use of digital technology, which will also help with risk assessment methods, diagnosis, disease prediction, and treatment outcomes [1][2][3].
The inevitable result of technological advancement is that more and more manual labour will be automated over the coming decades.Digital process redesign is being promoted by researchers and practitioners as a useful strategy to lower practice variance and raise the standard of care in general [4][5][6].
These innovative technologies are now being taught in dental schools, giving students the opportunity to get hands-on practice.As a result, students gain a more profound understanding of the subject matter, equipping them to deliver optimal treatment to their future patients [7][8][9].
By delegating tasks to robot assistants, staff members can allocate their time to activities that require human interaction, such as engaging directly with patients or fulfilling duties demanding high cognitive abilities.Robot assistants, being tireless and capable of endlessly repeating workflows, enable staff members to focus on these essential aspects of their roles.The application of robotic technology in dentistry schooling is another intriguing topic.Universities use advanced simulation, mechanical device interface, and occasionally full-body robotics individuals to train students in fundamentally crucial abilities for future dentists before they have actual patient contact [10][11][12][13].
But recently, healthcare robots have been used in several clinical settings alongside those in the practice of dentistry.Modern robotics technology has advanced quickly.Incorporating smart robotic technology into dental clinics, particularly as dental assistants, has the potential to significantly enhance the existing technical infrastructure.Human factors, such as the mental and physical strain experienced by staff assistants during prolonged shifts demanding constant attention or the lack of ergonomic work environments, are among the primary motivating factors driving this initiative [14][15][16][17].
Technological advancements have revolutionized dental care, making it more precise, safe, and patientfriendly.Examples include digital X-rays and the advent of 3D printing, which has notably impacted dental treatment.Three-dimensional printing has revolutionized the fabrication of dental prosthetic restorations like crowns and bridges.Dentists can now utilize highly accurate 3Dprinted replicas of a patient's teeth to plan and create customized dental restorations.This approach has significantly reduced the time required for fabrication, enhancing procedure efficiency and cost-effectiveness [18][19][20].
There are a number of supporting technologies, such as robotics, AI, and ML, that could help design new dental procedures.Future robotics and dentistry collaborations have a wide range of potential applications.Opportunities exist in robotics, machine learning, artificial intelligence (AI), and dentistry that should be targeted to take advantage of new technology [21][22][23].
The word machine learning (ML) encompasses several approaches for using potentially enormous quantities of data to learn from experience and improve oneself.It sets itself apart from traditional artificial intelligence (AI), which focuses mostly on logical thinking, knowledge representation, and planning and search issues [24][25][26].
Dentistry is heading further regarding the future of data-driven and robot-assisted healthcare.ML and AI are still not entirely applied to dental research.ML will advance diagnostic procedures, simplify treatment planning, lower the rate of treatment errors, and ultimately boost the efficiency of the entire healthcare system.The rationale of this review is to identify the new dental professionals who need to be conversant with technological advancements and how they can apply them to dentistry [27][28][29][30].
The goal of this systematic review is to give a thorough overview of the most widely applied modern technology and its applications in dentistry.

MATERIALS AND METHOD
An Indian institute conducted a systematic review using a rigorous, structured process that was in line with international standards.The specific steps needed to carry out a systematic review procedure are listed below.

Formulating the Research Question
The research question was formulated using the PICO (Population, Intervention, Comparison, Outcome) framework, and a preliminary search was conducted to ensure that the question had not already been addressed.(PICO Search: P-Technology in dentistry; I-Advanced digital technology; C-Standard methods; O-Applications in dentistry, widely used digital technology).

Developing a Protocol
The study protocol was registered with the International Prospective Register of Systematic Reviews (PROSPERO) on May 21, 2023, under the registration ID CRD42023425451 to ensure transparency.Initially, the methods, inclusion and exclusion criteria, data extraction, and analysis plan for conducting the systematic review were outlined.

Eligibility Criteria for Study
The current systematic review included Englishlanguage scientific articles that met the following criteria: randomized controlled trials comparing advanced digital technology in dentistry; controlled clinical trials evaluating the impact of digital technology in dentistry; and original study papers, case reports, and systematic reviews focusing on digital technology applications in dentistry.Research articles in languages other than English were excluded, as were studies that did not correspond with the review's objectives, technical notes, brief communication, editorial letters, and mini-reviews.

Literature Search
The search technique used in this systematic review sought to discover pertinent articles published between 2013 and 2023 which addressed research questions associated with the review's aims.The search was last conducted in August 2023.The search parameters were designed to focus on the utilization of advanced technology in dental healthcare and its applications in dental practice.
Three reviewers individually searched for literature papers relevant to advanced technology and its applications in dentistry.Publications relevant to the subject of this targeted systematic overview were identified using digital databases, such as PubMed, Web of Science, and Scopus.
We generated a list of keywords derived from available research publications and our understanding of the topic.The following keywords were used: "advanced technology"/"modern technology" "artificial intelligence/ machine learning"/ robotic dentistry" and "3D technology" in dental health care professions and its applications in dental practice.This set of terms was subsequently employed as a search query in databases, such as Scopus, Web of Science, and PubMed.This method facilitated the refinement of primary search criteria, focusing on identifying crucial elements associated with cutting-edge technology in oral healthcare.The Boolean operators, such as AND/OR/NOT, were used in PubMed to narrow or extend the search scope to cover every potential publication.The search terms utilized in the Scopus, Web of Science, and PubMed databases were:

Screening and Selection
Once the articles were retrieved, we meticulously selected the appropriate research papers for our systematic review.Two examiners extracted data using procedures described in public sources, such as journal papers and clinical trials, which provide vital information regarding the methods and outcomes of the articles that were analyzed.The information gathered was used to generate outlines for the figures and tables that were included in the evaluation, as well as assist in developing data-gathering forms.

Data Extraction
The two reviewers meticulously developed a pre-tested data extraction form on "Newer Technological Advances: A step towards better dental care" in order to perform a systematic review.Creating an extensive form to record study specifics such as identification, design, population, intervention, outcomes, results, and quality assessment was part of the data extraction process.The form was pretested on a few studies to make sure it successfully collected all required data.After extracting data independently, two reviewers compared it and used a consensus meeting to settle any inconsistencies.Next, a precise entry of the extracted data into a central database was made.This systematic procedure guaranteed dependability and consistency, offering a strong basis for the systematic review.

Quality Assessment
In this systematic study, the Cochrane Collaboration's Risk of Bias Tool was used to evaluate possible risks.Using this risk assessment technique allowed us to write articles of excellent quality with strong findings.These parameters were used to assess the subjective potential for bias in appropriate research and assigned to one of the three categories depending on variables, such as a series generation, distribution concealment, participants blinding, blinding result assessment, which is unfinished outcome information, and selective results reporting.The quality assessment was conducted independently by two reviewers, and in case of any discrepancies, it was resolved through discussion.
The study was analyzed using Jira TM data analysis software.The quality of the study was independently assessed using the Critical Appraisal Skills Programme (CASP) checklists.Two independent observers performed the final data extraction, and their work was properly documented.A Kappa value of 0.75 indicated strong interobserver concordance.

Data Synthesis
The distinguishing characteristics of the research papers were described and included in this systematic review, and the results from individual investigations were summarized.

Reporting
Following the guidelines of PRISMA (Preferred Reporting Items for Systematic Review and Meta-Analysis) and its extension, PRISMA-S, this systematic review focused on advanced technology and its applications in dentistry.The field of dentistry has been notably influenced by the integration of advanced technologies.Hence, this systematic review aimed to offer a comprehensive overview of the predominant advanced technologies utilized in dentistry and their effects on treatment outcomes.

RESULTS
An initial keyword search yielded a total of 527 items.Following preliminary filtering, 325 papers remained for review, aligning with the goals of the systematic review.Among these, 148 publications were deemed relevant to the review's criteria or goals.From the eligible articles, only 30 publications offering comparative and systematic reviews of cutting-edge dental technology were selected.The included research papers and reviews were categorized based on their study goal and significance.Tables 1, 2 and 3 outline the characteristics of the research publications included in this systematic review.
Following the guidelines outlined in the Critical Appraisal Skills Programme checklist (CASP), the risk of bias, including selective reporting and publication bias, can be evaluated, which may impact the overall data set.Following data extraction, a quality assessment using the checklist provided by CASP was performed to determine the advantages and disadvantages of the identified studies' procedures.The evaluation centered on the reliability, transparency, and standardization of the research examined, which was carried out separately using the CASP checklist, as shown in Table 4.The analysis suggests that artificial intelligence is predominantly employed in dentistry to assess digital diagnostic techniques, notably radiology.However, its utilization is expected to progressively extend across all domains of the profession.It has been demonstrated that using a full-body patient simulation system helps students develop a more positive attitude towards patients and emphasizes the value of taking real patients into account when providing dental care.
Dental Education  Based on the various domains considered in this systematic review, approximately 66.10% of the judgments were classified as low risk, 22.77% as ambiguous, and 11.13% as high risk (Fig. 2).

DISCUSSION
In particular, the systematic review identified relevant studies and conclusions about the widespread use of advanced technology, which has become a requirement for greater patient satisfaction levels with diagnosis, treatment plans, and treatment outcomes in the health professional professions of medicine and dentistry [31][32][33][34].
It is preferable to recognize and summarize the widespread application of advanced technology in dentistry at various levels of patient management.According to this review conclusion, many dental doctors are quite up-to-date when it comes to promoting innovative technologies in patient care.Every dental clinician and patient receiving dental care will have access to enhanced dental care thanks to the systematic review's assistance in disseminating information about newer technology to larger populations [35][36][37][38][39].
Dental care has greatly benefited from new technology, which has increased its effectiveness, safety, and accessibility [40][41][42][43].In addition, the review intends to address the secondary outcomes with a limited number of additional outcomes.The secondary outcomes are specific to only some comparisons in the review.The secondary outcomes addressed in this review are technological breakthroughs utilizing artificial intelligence, machine learning, and more invasive situations like autonomous implant implantation, which have finally been paired with complicated 3D navigation or tooth preparation processes that have been published in the literature [44][45][46].These examples range from digital X-rays to 3D printing.This change paves the way for dentists to provide better patient outcomes and more affordable dental treatment for marginalized communities [47][48][49].
The perspectives of Gracco A et al. (2023) and a systematic review by Bassyouni Z et al. (2021) showed evidence to refer to the use of advanced technology in dental practice.The advanced technology aims to provide patients with more effective and efficient treatments; in other words, advanced technology has substantially changed the profession of dentistry.
According to a study by Gracco A et al. from 2023, technological advancements have fundamentally transformed the delivery of dental treatment, enhancing precision, safety, and patient comfort.Notable examples include digital X-rays and 3D printing.This study highlights the overwhelmingly positive impact of new technology on dental care, suggesting that this trend will likely persist in the future from a public health perspective.The findings of the current study indicate that newer, more advanced technologies will influence all aspects of dental patient care [1].
In order to promote dentistry, Grischke J et al. (2020) presented the community with innovative inputs and made the case for a greater use of these recent technical advancements, known as Dentronics.The study's findings reveal the application of machine learning (ML) and artificial intelligence (AI) in dental research, employing data-driven analysis algorithms to analyze extensive datasets for aiding in dental diagnosis, prognosis, and treatment planning.These definitive results align with those of Grischke J et al., indicating that modern technologies, such as robotics, machine learning, and AI, indeed influence the outcomes of dental treatment [2].
In 2023, Mayta-Tovalino F et al. examined the dental uses and perspectives of artificial intelligence, machine learning, and "Dentronics".As per the study authors, the integration of artificial intelligence has transformed prognosis, diagnosis, and treatment management in contemporary dentistry.According to the results of the current comprehensive investigation, artificial intelligence could be used to manage future data in this area [3].
In a cross-sectional observational study, Abouzeid HL et al. (2021) gathered information from 570 participants in the Saudi Arabian population.The study assessed dentists' knowledge of how robotics (R) and artificial intelligence (AI) fit into preventive dentistry and oral health.Dentists who participated in the study were dental interns, graduates, and postgraduate dentists.The findings from both studies suggested that although dentists generally held a positive attitude towards robotics and artificial intelligence (R/AI), their utilization and application were hindered by a lack of knowledge and understanding.To enhance treatment efficiency and efficacy in dentistry, raising awareness of these concepts will be imperative in the near future [5].
In order to learn more about Turkish dental students' attitudes towards AI and their beliefs about its potential usage in dentistry, Yüzbaşolu E et al., 2021, evaluated those attitudes and perspectives.Out of the 1103 respondents, 48.40% had at least a basic understanding of artificial intelligence (AI) technology, while 10.6% said they had no sources of information on AI.AI will revolutionize dentistry, according to 85.70% of respondents, although 28.60% disagreed that it will eventually replace dentists.All of the participants expressed optimism and believed that AI would improve dentistry practice in the future, which is consistent with this systematic review's concluding observations [6].
Di Fiore A et al. (2022) investigated the precision of modern intraoral scanners (IOSs) for full-arch digitized implant impressions.The computer programme was created to locate points on each scanned body and perform a 3D position and distance analysis.The study demonstrated that all intraoral scanners (IOSs) could generate a digital full implant impression in vitro, based on the average misfit value published in the literature (150 μm).However, 3D distance analysis revealed that only Primescan and iTero had negligible systematic error sources.These are in line with the 3D technology applications listed in this systematic study [8].

STRENGTHS AND LIMITATIONS
This systematic review can help us know about advanced technology to be used in dental practice and also provide various applications of advanced technology in dentistry, often to a greater extent than the findings of a single study.This review informs clinicians, students, and patients about the availability of newly advanced technology and its applications in dentistry.Further, the governing bodies must conduct ongoing dental education programs.Moreover, quantitative analysis from multiple studies was not conducted in this systematic review.

CONCLUSION
In the twenty-first century, technological advances and practices adopted from the e-commerce and tech sectors may help the transition to a sustainable oral healthcare system that offers high-quality, value-based care to a wider variety of patients.

CLINICAL IMPLICATIONS
The governing bodies must conduct continuing dental education programmes to teach practitioners, students, and patients about the availability of newly advanced technology and its applications in dentistry.This shift paves the way for dentists to provide better patient outcomes and more affordable dental care to underserved regions.

Fig
Fig. (1).Illustrates the flow diagram of the study selection process in accordance with the PRISMA (Preferred Reporting Items for Systematic Review and Meta-analysis) guidelines.
the developmental stage, AI models designed for implant type recognition, success prediction, and design optimization have displayed significant potential.Treatment outcome Fig. (2).Assessing bias risk using the cochrane collaboration tool.

Table 4 .
Evaluation of study quality using the Critical Appraisal Skills Program (CASP) scale for the chosen studies in the systematic review.yes; N-No; N/D-Not Determined.

Table 1 . Summarizes the latest research on 3D printing and its applications in dentistry [8-10, 14, 18, 20, 21, 23, 24, 26].
Based on the average misfit value reported in the literature (150 μm), all intraoral scanners demonstrate the ability to produce a digital full implant impression in vitro.However, the 3D distance analysis indicated that only the Primescan and iTero exhibited negligible systematic error sources.preferred and utilised digital dentures on a daily basis, despite the fact that patient satisfaction or quality of life may be slightly lower with DDs than with CDs.DDs created through 3D printing may, therefore be as useful and effective as CDs.
guide and the control, implants were inserted precisely for single posterior edentulous spaces.It is necessary to conduct additional research in scenarios with numerous missing teeth that are more complex.

Table 3 . Summarizes the latest research on robotic applications in dentistry [2-5, 46-51].
The current development in digital human-centered automation, according to the authors, can significantly enhance dentistry and turn it into a new robotic, ML, and AI-enabled era. that participants are generally more eager to have a procedure done if it is half price than if it is full price and that females are less willing to have a robotic dental surgery done.