Abstract

Background

Local anesthetic puncture is often related to the experience of pain. This study aimed to systematically analyze the literature on changes in pain perception during the anesthetic puncture of dental local anesthesia after Photobiomodulation Therapy (PBMT).

Material and methods

An electronic search was performed in eight primary databases (Embase, LILACS, BBO, LIVIVO, MedLine via PubMed, SciELO, Scopus, and Web of Science) and three additional ones (EASY, Google Scholar, and OATD) to partially capture the “gray literature”. The PICO strategy was used to identify randomized clinical trials evaluating the analgesic effect of PBMT in the anesthetic puncture site of dental local anesthesia compared to placebo or control groups, without restrictions on publication language and year. Two reviewers extracted the data and assessed the individual risk of bias of the eligible studies using the Cochrane Collaboration Risk of Bias Tool version 2.0.

Results

The electronic search found 3,485 records, of which eight met the eligibility criteria and were included in the qualitative synthesis. The studies were published from 2011 to 2022. None of the included studies had a low risk of bias. PBMT groups showed no significant difference in pain scores compared to placebo and control groups of most studies.

Conclusion

Based on a low to very low certainty of evidence, PBMT seems to have no effect on pain perception during anesthetic puncture in patients undergoing dental local anesthesia.

Keywords
Dental anesthesia; Local anesthesia; Low-level light therapy; Pain perception; Photobiomodulation therapy

Highlights

Photobiomodulation therapy seems to have little or no effect on pain perception during the anesthetic puncture in patients undergoing dental local anesthesia.

Clinical trials found in the literature used different study samples, pain assessment tools, and photobiomodulation therapy protocols.

Further randomized studies should be performed with a standardized methodology to strengthen the current evidence.

Introduction

Pain is defined as “an unpleasant sensory and emotional experience associated with actual or potential tissue damage or described in terms of such damage”. Furthermore, it considers a sum of the present and past experiences of an individual ^[1][1] Raja S.N., Carr D.B., Cohen M., Finnerup N.B., Flor H., Gibson S., et al. The revised International Association for the Study of Pain definition of pain: concepts, challenges, and compromises. Pain. 2020;161(9):1976-82.. Most dental procedures require local anesthesia, including extractions, pulpotomies, root canal treatments/pulpectomies, abscess drainage, and oral surgeries ^[2][2] Kotian N., Mani G., Ramakrishnan M. Comparative evaluation of two different topical anesthetic agents in controlling pain during intraoral local anesthetic administration in children: a split-mouth triple-blinded randomized clinical trial. Int J Clin Pediatr Dent. 2021;14(2):180-2.. Local anesthetics are nevertheless associated with pain, which may be exacerbated by the fear and anxiety caused by the anesthetic puncture ^[2][2] Kotian N., Mani G., Ramakrishnan M. Comparative evaluation of two different topical anesthetic agents in controlling pain during intraoral local anesthetic administration in children: a split-mouth triple-blinded randomized clinical trial. Int J Clin Pediatr Dent. 2021;14(2):180-2.. Several factors that can influence pain perception may be hard to assess. Hence, different methods play this role [²[2] Kotian N., Mani G., Ramakrishnan M. Comparative evaluation of two different topical anesthetic agents in controlling pain during intraoral local anesthetic administration in children: a split-mouth triple-blinded randomized clinical trial. Int J Clin Pediatr Dent. 2021;14(2):180-2.

[3] Crellin D.J., Harrison D., Santamaria N., Babl F.E. Systematic review of the face, legs, activity, cry and consolability scale for assessing pain in infants and children: is it reliable, valid, and feasible for use? Pain. 2015;156(11):2132-51.

[4] Ferreira-Valente M.A., Pais-Ribeiro J.L., Jensen M.P. Validity of four pain intensity rating scales. Pain. 2011;152(10):2399-404.

[5] Garra G., Singer A.J., Taira B.R., Chohan J., Cardoz H., Chisena E., et al. Validation of the wong-baker FACES pain rating scale in pediatric emergency department patients. Acad Emerg Med. 2010;17(1):50-4.

[6] Ritter P.L., González V.M., Laurent D.D., Lorig K.R. Measurement of pain using the visual numeric scale. J Rheumatol. 2006;33(3):574-80.-⁷[7] Bijur P.E., Silver W., Gallagher E.J. Reliability of the visual analog scale for measurement of acute pain. Acad Emerg Med. 2001;8(12):1153-7.]: objective measurement tools, such as Visual Analog Scale (VAS) ^[7][7] Bijur P.E., Silver W., Gallagher E.J. Reliability of the visual analog scale for measurement of acute pain. Acad Emerg Med. 2001;8(12):1153-7., Visual Numerical Scale (VNS) ^[6][6] Ritter P.L., González V.M., Laurent D.D., Lorig K.R. Measurement of pain using the visual numeric scale. J Rheumatol. 2006;33(3):574-80., Wong-Baker Faces Pain Rating Scale (WBFPRS) ^[5][5] Garra G., Singer A.J., Taira B.R., Chohan J., Cardoz H., Chisena E., et al. Validation of the wong-baker FACES pain rating scale in pediatric emergency department patients. Acad Emerg Med. 2010;17(1):50-4., and Numerical Rating Scale (NRS) ^[4][4] Ferreira-Valente M.A., Pais-Ribeiro J.L., Jensen M.P. Validity of four pain intensity rating scales. Pain. 2011;152(10):2399-404.; and subjective assessment tools, such as Face, Legs, Activity, Cry, and Consolability (FLACC) scale ^[3][3] Crellin D.J., Harrison D., Santamaria N., Babl F.E. Systematic review of the face, legs, activity, cry and consolability scale for assessing pain in infants and children: is it reliable, valid, and feasible for use? Pain. 2015;156(11):2132-51., and Sound, Eyes, and Motor (SEM) scale ^[2][2] Kotian N., Mani G., Ramakrishnan M. Comparative evaluation of two different topical anesthetic agents in controlling pain during intraoral local anesthetic administration in children: a split-mouth triple-blinded randomized clinical trial. Int J Clin Pediatr Dent. 2021;14(2):180-2..

Generally, there are resources that can be used to modulate pain perception, such as photobiomodulation therapy (PBMT) ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. PBMT is a technology performed mainly with Light-Emitting Diodes (LEDs) and is based on the non-ionizing radiation of the photobiomodulation mechanism of red light and near-infrared ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. There are suggested pathways for this mechanism, and the primary hypothesis is that body tissues absorb light and reach cytochrome C oxidase (chromophores present in mitochondria), inducing increased ATP production and accelerating cellular metabolism ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. Depending on the PBMT device settings and application protocols, this molecular process may trigger beneficial clinical effects, such as inflammatory process modulation, improved tissue repair and regeneration, and analgesia ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43..

In Dentistry, PBMT is applied to a wide range of procedures to make them more practical and comfortable [⁹[9] Turhani D., Scheriau M., Kapral D., Benesch T., Jonke E., Bantleon H.P.. Pain relief by single low-level laser irradiation in orthodontic patients undergoing fixed appliance therapy. Am J Orthod Dentofac Orthop. 2006;130(3):371-7.

[10] Argueta-Figueroa L., Flores-Mejía L.A., Ávila-Curiel B.X., Flores-Ferreyra B.I., Torres-Rosas R. Nonpharmacological interventions for pain in patients with temporomandibular joint disorders: a systematic review. Eur J Dent. 2022;16(3):500-13.

[11] de Barros D.D., Catão J., Ferreira A.C.D., Simões T.M.S., Almeida R.A.C., Catão M. Low-level laser therapy is effective in controlling postoperative pain in lower third molar extractions: a systematic review and meta-analysis. Lasers Med Sci. 2022;37(5):2363-77.

[12] Golež A., Frangež I., Cankar K., Frangež H.B., Ovsenik M., Nemeth L. Effects of low-level light therapy on xerostomia related to hyposalivation: a systematic review and meta-analysis of clinical trials. Lasers Med Sci. 2022;37(2):745-58.

[13] Meneses-Santos D., Costa M., Inocêncio G.S.G., Almeida A.C., Vieira W.A., Lima I.F.P., et al. Effects of low-level laser therapy on reducing pain, edema, and trismus after orthognathic surgery: a systematic review. Lasers Med Sci. 2022;37(3):1471-85.

[14] Michelogiannakis D., Jabr L., Barmak A.B., Rossouw P.E., Kotsailidi E.A., Javed F. Influence of low-level-laser therapy on the stability of orthodontic mini-screw implants. A systematic review and meta-analysis. Eur J Orthod. 2022;44(1):11-21.

[15] Olmedo-Hernández O.L., Mota-Rodríguez A.N., Torres-Rosas R., Argueta-Figueroa L. Effect of the photobiomodulation for acceleration of the orthodontic tooth movement: a systematic review and meta-analysis. Lasers Med Sci. 2022;37(5):2323-41.

[16] Silva P.G.B., Filho E.L.C., Nigri F.M.N., Dantas T.S., Candeiro G.T.M., Neri J.R. Photobiomodulation reduces pain-related symptoms without interfering in the efficacy of in-office tooth bleaching: a systematic review and meta-analysis of placebo-controlled clinical trials. Photobiomodul Photomed Laser Surg. 2022;40(3):163-77.

[17] Vila-Nova T.E.L., Leão R.S., Santiago Junior J.F., Pellizzer E.P., Vasconcelos B.C.E., Moraes S.L.D.. Photodynamic therapy in the treatment of denture stomatitis: a systematic review and meta-analysis. J Prosthet Dent. 2023;130:825-32.

[18] Shamseer L., Moher D., Clarke M., Ghersi D., Liberati A., Petticrew M., et al. Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015: elaboration and explanation. BMJ. 2015;350:g7647.-¹⁹[19] Page M.J., Moher D., Bossuyt P.M., Boutron I., Hoffmann T.C., Mulrow C.D., et al. PRISMA 2020 explanation and elaboration: updated guidance and exemplars for reporting systematic reviews. BMJ. 2021;372:n160.]. On the one hand, the literature has not fully supported some expected effects of PBMT, such as chronic pain management in temporomandibular disorder patients ^[10][10] Argueta-Figueroa L., Flores-Mejía L.A., Ávila-Curiel B.X., Flores-Ferreyra B.I., Torres-Rosas R. Nonpharmacological interventions for pain in patients with temporomandibular joint disorders: a systematic review. Eur J Dent. 2022;16(3):500-13., long-term relief of xerostomia and hyposalivation ^[12][12] Golež A., Frangež I., Cankar K., Frangež H.B., Ovsenik M., Nemeth L. Effects of low-level light therapy on xerostomia related to hyposalivation: a systematic review and meta-analysis of clinical trials. Lasers Med Sci. 2022;37(2):745-58., stability of orthodontic mini-implants ^[14][14] Michelogiannakis D., Jabr L., Barmak A.B., Rossouw P.E., Kotsailidi E.A., Javed F. Influence of low-level-laser therapy on the stability of orthodontic mini-screw implants. A systematic review and meta-analysis. Eur J Orthod. 2022;44(1):11-21., orthodontic movement acceleration ^[15][15] Olmedo-Hernández O.L., Mota-Rodríguez A.N., Torres-Rosas R., Argueta-Figueroa L. Effect of the photobiomodulation for acceleration of the orthodontic tooth movement: a systematic review and meta-analysis. Lasers Med Sci. 2022;37(5):2323-41., and denture stomatitis treatment compared to conventional interventions ^[17][17] Vila-Nova T.E.L., Leão R.S., Santiago Junior J.F., Pellizzer E.P., Vasconcelos B.C.E., Moraes S.L.D.. Photodynamic therapy in the treatment of denture stomatitis: a systematic review and meta-analysis. J Prosthet Dent. 2023;130:825-32.. On the other hand, PBMT is strongly supported regarding the management of acute symptoms, such as pain related to fixed orthodontic appliances ^[9][9] Turhani D., Scheriau M., Kapral D., Benesch T., Jonke E., Bantleon H.P.. Pain relief by single low-level laser irradiation in orthodontic patients undergoing fixed appliance therapy. Am J Orthod Dentofac Orthop. 2006;130(3):371-7., postoperative pain from third molar extraction ^[14][14] Michelogiannakis D., Jabr L., Barmak A.B., Rossouw P.E., Kotsailidi E.A., Javed F. Influence of low-level-laser therapy on the stability of orthodontic mini-screw implants. A systematic review and meta-analysis. Eur J Orthod. 2022;44(1):11-21., pain and trismus from orthognathic surgery ^[13][13] Meneses-Santos D., Costa M., Inocêncio G.S.G., Almeida A.C., Vieira W.A., Lima I.F.P., et al. Effects of low-level laser therapy on reducing pain, edema, and trismus after orthognathic surgery: a systematic review. Lasers Med Sci. 2022;37(3):1471-85., and pain-related symptoms after the first weeks of tooth whitening ^[16][16] Silva P.G.B., Filho E.L.C., Nigri F.M.N., Dantas T.S., Candeiro G.T.M., Neri J.R. Photobiomodulation reduces pain-related symptoms without interfering in the efficacy of in-office tooth bleaching: a systematic review and meta-analysis of placebo-controlled clinical trials. Photobiomodul Photomed Laser Surg. 2022;40(3):163-77..

Although there are primary studies about the analgesic effect of photobiomodulation therapy on dental local anesthetic puncture, consolidating the scientific evidence is still necessary to provide a rational basis for clinical decisions. Therefore, this review aimed to systematically analyze the literature on changes in pain perception during the anesthetic puncture of dental local anesthesia after PBMT.

Material and methods

Protocol registration

The protocol was reported according to the Preferred Reporting Items for Systematic Review and Meta-Analysis Protocols (PRISMA-P) ^[18][18] Shamseer L., Moher D., Clarke M., Ghersi D., Liberati A., Petticrew M., et al. Preferred reporting items for systematic review and meta-analysis protocols (PRISMA-P) 2015: elaboration and explanation. BMJ. 2015;350:g7647. and registered in the International Prospective Register of Systematic Reviews (PROSPERO) database under number CRD42022304740 ( https://www.crd.york.ac.uk/PROSPERO/ ). This systematic review was reported following the Preferred Reporting Items for Systematic Reviews and Meta-Analyses (PRISMA) ^[19][19] Page M.J., Moher D., Bossuyt P.M., Boutron I., Hoffmann T.C., Mulrow C.D., et al. PRISMA 2020 explanation and elaboration: updated guidance and exemplars for reporting systematic reviews. BMJ. 2021;372:n160. and conducted according to the Joanna Briggs Institute (JBI) Manual.

Research question and eligibility criteria

The review was designed to answer the following question: “Is PBMT effective in reducing pain perception during anesthetic puncture in patients undergoing dental local anesthesia compared to placebo or topical anesthetic?” following the PICO framework: P (population), I (intervention), C (comparison), and O (outcome).

There were no restrictions on publication language or year.

Sources of information, search, and selection of studies

The electronic searches were performed on Noveminr 2021 in Embase, LILACS (Latin American and Caribbean Health Science Literature), BBO (Brazilian Bibliography of Odontology), LIVIVO, MedLine (via PubMed), and SciELO, and the Scopus and Web of Science citation databases. The EASY, Google Scholar, and Open Access Theses and Dissertations (OATD) databases partially captured the “gray literature”. These steps were performed to minimize the selection bias. The MedLine search was constantly updated with electronic alerts until June 2022. The search descriptors were selected according to the MeSH (Medical Subject Headings), DeCS (Health Sciences Descriptors), and Emtree (Embase Subject Headings) resources. The Boolean operators "AND" and "OR" promoted several combinations among the descriptors, respecting the syntax rules of each database. Table 1 shows more details of search strategies and databases.

The obtained results were exported to the EndNote Web™ software (Clarivate™ Analytics, Philadelphia, USA), in which duplicates were removed automatically, and the remaining ones were removed manually. The other results were exported to Rayyan QCRI (Qatar Computing Research Institute, Doha, Qatar) ^[20][20] Ouzzani M., Hammady H., Fedorowicz Z., Elmagarmid A. Rayyan ‒ a web and mobile app for systematic reviews. Syst Rev. 2016;5(1):210. for the study selection phase. The manual analysis of the gray literature occurred simultaneously and fully using Microsoft Word™ 2010 (Microsoft™ Ltd., Washington, USA).

Before selecting the studies, two reviewers performed a calibration exercise in which they discussed the eligibility criteria and applied them to a sample of 20% of the retrieved studies to determine inter-examiner agreement. The selection started after reaching an adequate level of agreement (Kappa ≥0.81) and occurred in two phases.

In the first phase, two eligibility reviewers (CMM and MBO) methodically analyzed the titles and abstracts of the studies independently. A third examiner (MDMAC) investigated and solved disagreements between the reviewers. Titles unrelated to the topic were eliminated in this phase as well as abstracts, respecting the eligibility criteria. In the second phase, the full texts of the preliminarily eligible studies were obtained and evaluated. If the full texts were not found, a bibliographic request was made to the library database (COMUT), and an e-mail was sent to the corresponding authors to obtain the texts.

Data collection

A calibration exercise was performed before data extraction to ensure consistency between the reviewers, in which the data from three eligible studies were extracted jointly. After the calibration, two reviewers (CMM and MBO) extracted the data from the eligible studies, independently and blinded. A third reviewer (MDMAC) analyzed the conflicts in cases of disagreement about data extraction.

The following data were extracted from the articles: study identification (author, year, country, location, and application of ethical criteria), sample characteristics (sample size, distribution by sex and average age, laser specifications, laser application protocol, and anesthetic technique protocol), collection and processing characteristics (pain assessment tool, time of pain assessment, and type of statistical analysis), and main results (overall pain score from each pain assessment tool applied to each group and main results of each study). In case of incomplete or insufficient data, the corresponding authors were contacted via e-mail up to three times at weekly intervals.

Risk of bias assessment

Two reviewers (WAV and CMM) independently assessed the risk of bias in the selected studies using the Cochrane Collaboration Risk of Bias tool (version 2.0) (RoB2) for RCTs ^[21][21] Sterne J.A.C., Savović J., Page M.J., Elbers R.G., Blencowe N.S., Boutron I., et al. RoB 2: a revised tool for assessing risk of bias in randomised trials. BMJ. 2019;366:l4898.. This instrument consists of five domains: bias from the randomization process, bias due to deviations from intended interventions, bias from missing outcome data, bias in outcome measurement, and bias in the selection of reported results.

The evaluation of each domain followed the algorithms proposed by the RoB2 manual ^[21][21] Sterne J.A.C., Savović J., Page M.J., Elbers R.G., Blencowe N.S., Boutron I., et al. RoB 2: a revised tool for assessing risk of bias in randomised trials. BMJ. 2019;366:l4898.. Any disagreements between the reviewers were resolved by discussing and consulting with a third reviewer (LRP).

Summary measures and synthesis of results

The data collected from the selected studies were organized in spreadsheets on Microsoft Excel™ 2019 (Microsoft™ Ltd., Washington, USA) and described narratively (qualitative synthesis). The quantitative results of pain assessment tools applied to patients after local anesthetic puncture were described for measuring pain perception. A meta-analysis was planned but not performed due to the high heterogeneity of the studies.

Certainty of evidence (GRADE approach)

Two reviewers (WAV and MBO) independently ranked the overall strength of evidence using the Grading of Recommendations, Assessment, Development, and Evaluation (GRADE) tool ^[22][22] Balshem H., Helfand M., Schünemann H.J., Oxman A.D., Kunz R., Brozek J., et al. GRADE guidelines: 3. Rating the quality of evidence. J Clin Epidemiol. 2011;64(4):401-6.. To assess the criteria in systematic reviews without meta-analyses, the authors followed the adaptations by Murad et al. ^[23][23] Murad M.H., Mustafa R.A., Schünemann H.J., Sultan S., Santesso N. Rating the certainty in evidence in the absence of a single estimate of effect. Evid Based Med. 2017;22(3):85-7..

Results

Study selection

The electronic search identified 3,485 results distributed into eight electronic databases, including the “gray literature”. After removing duplicates, 2,268 results remained for the analysis. A careful reading of the titles and abstracts excluded 2,214 results.

After reading the full texts, 46 studies were excluded, and eight [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.

[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.

[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.

[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.

[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.-³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] were included in the qualitative synthesis. Fig. 1 details the study selection process.

Study characteristics

The articles were published from 2011 to 2022 and performed in six countries: five studies in Asia [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.

[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.-³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.], one in Europe ^[27][27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7., one in South America ^[24][24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese., and one in a transcontinental Asia-Europe country - Turkey ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.. The sum of eligible study participants resulted in 540 patients. The age groups in the eligible studies ranged from six ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84. to 75-years ^[27][27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7., and male patients composed most samples in studies that sampled by sex [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.

[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.-²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.].

All studies used diode lasers with wavelengths from 660 nm to 980 nm [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.

[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.

[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.

[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.

[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.-³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.]. Regarding laser application protocols, the puncture site surface was prepared by isolating and drying the mucosa in one study ^[30][30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3. and applying topical anesthetic gel in two other studies [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] before laser application. The other studies did not specify surface preparations before laser application [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.-²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.]. The laser application time was from 20 s [²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] to three minutes ^[28][28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.. Light emission was continuous in five studies [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.-²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] and pulsed in one ^[30][30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3., and two studies did not report this specification [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.]. Only three studies specified the laser-surface distance: in contact ^[25][25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62., 1 mm away ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84., and 2 mm away ^[30][30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3..

As for anesthetic techniques, five studies performed the anesthetic puncture in the maxilla [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.

[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.-²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.,³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.], one in the mandible ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84., and one in both ^[27][27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7., and one study did not specify the injection site ^[28][28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.. Only one study did not administer a local anesthetic when performing the injection ^[26][26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4..

Regarding pain assessment tools, one study used the Visual Numerical Scale (VNS) ^[24][24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese., four used the Visual Analog Scale (VAS) [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.], one used the Numerical Rating Scale (NRS) ^[27][27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7., two used the Wong-Baker Faces Pain Rating Scale (WBFPRS) [³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.], one used the Sound, Eye, and Motor (SEM) scale ^[30][30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3., and one study used the Face, Legs, Activity, Cry, and Consolability (FLACC) scale ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84..

Table 2 presents the main characteristics of each eligible article.

Individual results of the studies

Five studies compared the application of PBMT versus placebo in adults [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.-²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.]. Among these, four articles did not find significant differences between the groups, and one ^[28][28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65. concluded that the PBMT group had lower pain scores during the anesthetic puncture. Two studies [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] evaluated PBMT associated with a topical anesthetic versus topical anesthetic application alone - one found no difference between groups and the other observed better results for the PBMT group only using the WBFPRS. Two studies [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.] also compared PBMT versus topical anesthetic, and PBMT presented similar or worse results than topical anesthetic. Table 3 shows details of the outcomes and conclusions of each eligible study.

Risk of individual bias in the studies

Among the eight studies, two [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.] were classified as a “high risk of bias” and six [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.

[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.

[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.-³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] as “some concerns”. Most studies presented biases regarding the randomization process [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.] and selection of reported results [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.

[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.

[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.-²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.], and only one ^[24][24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese. showed a high risk of bias in the “missing outcomes” domain. Fig. 2 shows the individual assessment of each included article.

Certainty of evidence

The certainty of evidence analysis considered the interventions and age of the population. The outcomes presented very low to low certainty of evidence. Table 4 shows details of the individual assessment of each outcome.

Discussion

Dental local anesthesia can reduce pain from procedures performed in patient's mouths, but local anesthetic puncture is often related to the experience of pain and anxiety. Pain perception during the anesthetic technique is usually noticed in two moments: at needle insertion and local anesthetic deposition ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.. There are numerous resources to make local anesthesia more comfortable, such as local anesthetic gels ^[32][32] Maia F.P.A., Lemos C.A.A., Andrade E.S.S., de Morais S.L.D., Vasconcelos B.C.E., Pellizzer E.P. Does the use of topical anesthetics reduce the perception of pain during needle puncture and anesthetic infiltration? Systematic review and meta-analysis of randomized controlled trials. Int J Oral Maxillofac Surg. 2022;51(3):412-25., computerized local anesthesia systems ^[33][33] Pozos-Guillén A., Loredo-Cruz E., Esparza-Villalpando V., Martínez-Rider R., Noyola-Frías M., Garrocho-Rangel A. Pain and anxiety levels using conventional versus computer-controlled local anesthetic systems in pediatric patients: a meta-analysis. J Clin Pediatr Dent. 2020;44(6):371-99., behavioral management techniques ^[34][34] Gurav K.M., Kulkarni N., Shetty V., Vinay V., Borade P., Ghadge S., et al. Effectiveness of audio and audio-visual distraction aids for management of pain and anxiety in children and adults undergoing dental treatment- a systematic review and meta-analysis. J Clin Pediatr Dent. 2022;46(2):86-106., acupuncture combined with conventional treatments ^[35][35] Abuzenada B.M., Pullishery F., Elnawawy M.S.A., Alshehri S.A., Alostath R.M.B., Bakhubira B.M., et al. Complementary and alternative medicines in oral health care: an integrative review. J Pharm Bioallied Sci. 2021;13(Suppl 2):S892-7., anesthetic puncture site pre-cooling ^[36][36] Lathwal G., Pandit I.K., Gugnani N., Gupta M. Efficacy of different precooling agents and topical anesthetics on the pain perception during intraoral injection: a comparative clinical study. Int J Clin Pediatr Dent. 2015;8(2):119-22., and some clinical trials have already been conducted to test PBMT as one of these resources. Therefore, this study aimed to analyze the effect of photobiomodulation therapy on pain perception during the anesthetic puncture of dental local anesthesia.

The studies in this review included participants from different age groups: children ^[31][31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84., children and adolescents ^[30][30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3., and adults [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.

[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.

[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.

[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.

[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.-²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.]. Studies with children and adolescents showed controversial pain scores [³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.]. That may be supported because of the challenge in assessing pain in children due to their very subjective verbal and non-verbal communication, which relates to sensory, emotional, cognitive, and social factors ^[37][37] Craig K.D., MacKenzie N.E. What is pain: are cognitive and social features core components? Paediatr Neonatal Pain. 2021;3(3):106-18.. Additionally, younger individuals may often confuse felt stimuli, such as needle pressure or touch, with pain perception. Adults had more homogeneous results in the laser groups with slightly lower pain levels [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.], except for two studies [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.]. That emphasizes the need for caution when linking subjective experiences to only a specific age group, considering that older groups may also have individual perspectives of pain and anxiety. Another discussion topic is the difference between pain perception regarding the procedure site and puncture and the anesthetic, infiltrative, or blocking techniques. Palatal anesthesia is more painful than in other regions in the mouth because the palatal tissues are relatively noncompliant and tightly bound to the periosteum [³⁸[38] Pashley E.L., Nelson R., Pashley D.H. Pressures created by dental injections. J Dent Res. 1981;60(10):1742-8.,³⁹[39] Crump B., Reader A., Nusstein J., Drum M., Fowler S., Draper J.. Prospective study on PDL anesthesia as an aide to decrease palatal infiltration pain. Anesth Prog. 2022;69(1):10-17.], potentially benefiting more from PBMT. However, there were conflicting results between the two studies evaluating palatal anesthesia [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.]. Anesthetic techniques with higher needle penetration and bone touch as a reference for needle penetration depth, such as block anesthesia, would tend to cause more pain, which the studies did not confirm [²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.].

The studies also used different laser application protocols. The wavelengths varied among the studies but were all within the visible red and near-infrared spectrum (390‒1600 nm), agreeing with the therapeutic window for the clinical benefits of PBMT described in the literature ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. There is no agreement on surface preparation, as only two studies reported drying and applying a topical anesthetic gel before laser application [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.]. Furthermore, the results of the association of topical anesthetic gels with PBMT were controversial between these two studies [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.]. Therefore, no standardized protocol can be defined, but removing surface residues may be the minimum operators must do to maintain a clean operative field before laser application. Research studies may also recommend against using local anesthetic gels before laser application because it can represent a confounding factor in analgesic effect evaluations. Topical anesthesia is a proven adjunct to pain control in local anesthetic delivery ^[40][40] Mundiya J., Woodbine E. Updates on topical and local anesthesia agents. Oral Maxillofac Surg Clin N Am. 2022;34(1):147-155., potentially masking the actual effect of PBMT at the puncture site. However, the controversial results regarding the previous application of topical anesthesia may be due to heating and increased local metabolism from PBMT, which could cause a loss of effectiveness of the local anesthetic.

The results of eligible studies showed an interesting analgesic effect curve related to the time of photobiomodulation application. Application times of around 30 s [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] showed lower pain perception than placebo and control groups but without significant differences. After one minute of application [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,²⁷[27] Tuk J.G.C., van Wijk A.J., Mertens I.C., Keleş Z., Lindeboom J.A.H., Milstein D.M.J. Analgesic effects of preinjection low-level laser/light therapy (LLLT) before third molar surgery: a double-blind randomized controlled trial. Oral Surg Oral Med Oral Pathol Oral Radiol. 2017;124(3):240-7.,³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.]. The comparators overcame this effect. Interestingly, the laser groups returned to show better results than other study groups after two to three minutes of continuous application [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁸[28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65.]. That can be partially explained by the Arndt-Schulz law, which recognizes a biostimulation threshold that, when reached, can inhibit the effect ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. However, the return of the positive analgesic outcome after a longer application time remains a compelling finding that future studies should explore.

Although there is no consensus on the light-emitting mode for PBMT, the literature highlights the pulsed one, as it generates less heat to tissues ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. However, eligible studies did not provide sufficient evidence to assert the superiority of any light-emitting mode for analgesic effect. The reports of laser-surface contact in three studies [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.] allow inferring us that better analgesic results of PBMT may be associated with a closer contact distance between the PBMT device tip and the irradiated surface. Further studies are required to provide more evidence regarding the light-emitting and laser-surface contact modes.

Regarding the location of PBMT application, the irradiation sites slightly differed between the studies, and all were intraoral and close to the anesthetic puncture site. Choosing these sites of application is logically consistent with the theory of photobiomodulation therapy mechanism via tissue biomodulation by triggering molecular processes, and generating local analgesia in other clinical situations ^[8][8] Mussttaf R.A., Jenkins D.F.L., Jha A.N. Assessing the impact of low-level laser therapy (LLLT) on biological systems: a review. Int J Radiat Biol. 2019;95(2):120-43.. Interestingly, the literature describes the irradiation of the LI4 acupuncture point on the hand, showing an analgesic outcome during dental local anesthetic puncture ^[41][41] Sandhyarani B., Pawar R.R., Patil A.T., Kevadia M.V. Effect of low-level laser on LI4 acupoint in pain reduction during local anesthesia in children. Int J Clin Pediatr Dent. 2021;14(4):462-6.. Acupuncture can control procedure pain in pediatric patients, and practitioners have been increasingly interested in alternative techniques. Acupuncture combined with conventional methods can help achieve better patient experience and procedure outcomes ^[42][42] Lin Y.C., Perez S., Tung C. Acupuncture for pediatric pain: the trend of evidence-based research. J Tradit Complement Med. 2020;10(4):315-9..

There are insufficient current data to confirm an association between local anesthetic techniques and PBMT regarding the pain perception from dental local anesthetic puncture. The studies applied procedures in the maxilla and the mandible and did not show solid evidence of the superiority of the analgesic effect of PBMT for a specific technique. That might be due to an actual absence of effect superiority or insufficient study homogeneity to establish a comparison. For instance, local anesthetic gels have proven superior in relieving pain during anesthetic techniques performed in the maxilla compared to those in the mandible ^[32][32] Maia F.P.A., Lemos C.A.A., Andrade E.S.S., de Morais S.L.D., Vasconcelos B.C.E., Pellizzer E.P. Does the use of topical anesthetics reduce the perception of pain during needle puncture and anesthetic infiltration? Systematic review and meta-analysis of randomized controlled trials. Int J Oral Maxillofac Surg. 2022;51(3):412-25.. Therefore, further standardized studies are needed comparing different anesthetic techniques after photobiomodulation.

Pain assessment tools from eligible studies highly differed. There were VAS variations: 100 mm VAS [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.], 10-score VAS ^[28][28] Jagtap B., Bhate K., Magoo S., Santhoshkumar N.S., Gajendragadkar K.S., Joshi S. Painless injections-a possibility with low level laser therapy. J Dent Anesth Pain Med. 2019;19(3):159-65., and 170 mm VAS ^[29][29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.. Studies with the same scales, such as 100 mm VAS [²⁵[25] Sattayut S. Low intensity laser for reducing pain from anesthetic palatal injection. Photomed Laser Surg. 2014;32(12):658-62.,²⁹[29] Ghabraei S., Bolhari B., Nashtaie H.M., Noruzian M., Niavarzi S., Chiniforush N. Effect of photobiomodulation on pain level during local anesthesia injection: a randomized clinical trial. J Cosmet Laser Ther. 2020;22(4-5):180-4.] and WBFPRS [³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.], had other relevant methodological differences, such as using topical anesthetic gels [²⁶[26] Ghaderi F., Ghaderi R., Davarmanesh M., Bayani M., Moghadam S.A. Pain management during needle insertion with low level laser. Eur J Paediatr Dent. 2016;17(2):151-4.,³¹[31] Uçar G., Elbay Ü.Ş., Elbay M. Effects of low-level laser therapy on injection pain and anesthesia efficacy during local anesthesia in children: a randomized clinical trial. Int J Paediatr Dent. 2022;32(4):576-84.]. Even so, the literature describes all scales used in eligible studies as reliable pain assessment tools objectively (VNS, VAS, NRS, and WBFPRS) and subjectively (FLACC and SEM scales) [²[2] Kotian N., Mani G., Ramakrishnan M. Comparative evaluation of two different topical anesthetic agents in controlling pain during intraoral local anesthetic administration in children: a split-mouth triple-blinded randomized clinical trial. Int J Clin Pediatr Dent. 2021;14(2):180-2.

[3] Crellin D.J., Harrison D., Santamaria N., Babl F.E. Systematic review of the face, legs, activity, cry and consolability scale for assessing pain in infants and children: is it reliable, valid, and feasible for use? Pain. 2015;156(11):2132-51.

[4] Ferreira-Valente M.A., Pais-Ribeiro J.L., Jensen M.P. Validity of four pain intensity rating scales. Pain. 2011;152(10):2399-404.

[5] Garra G., Singer A.J., Taira B.R., Chohan J., Cardoz H., Chisena E., et al. Validation of the wong-baker FACES pain rating scale in pediatric emergency department patients. Acad Emerg Med. 2010;17(1):50-4.

[6] Ritter P.L., González V.M., Laurent D.D., Lorig K.R. Measurement of pain using the visual numeric scale. J Rheumatol. 2006;33(3):574-80.-⁷[7] Bijur P.E., Silver W., Gallagher E.J. Reliability of the visual analog scale for measurement of acute pain. Acad Emerg Med. 2001;8(12):1153-7.].

Regarding the risk of individual bias in the eligible studies, the most frequent were methodological biases of the randomization and selection of reported results. Randomization should be present to reduce the risk of known participant characteristics affecting study group allocation, as it can distort comparability between groups. Thus, the lack of a clear description of the used randomization technique configures a bias due to the uncertainty that the study followed this principle. Additionally, two studies [²⁴[24] Dantas E.M., de Carvalho C.M., Batista S.H.B., de Menezes M.R.A., Dantas W.R.M. Efeito antiálgico do laser AsGaAl na punção anestésica. [Analgesic Effect of GaAlAs Laser on Anesthetic Action]. Rev Cir Traumatol Buco-Maxilo-Fac. 2011;11(2):75-82. Portuguese.,³⁰[30] AmruthaVarshini I., Vinay C., Uloopi K.S., RojaRamya K.S., Chandrasekhar R., Penmatsa C. Effectiveness of pre-cooling the injection site, laser biostimulation, and topical local anesthetic gel in reduction of local anesthesia injection pain in children. Int J Clin Pediatr Dent. 2021;14(1):81-3.] raised concerns about participant blinding during the trial. As pain is a subjective experience, blinding participants is crucial to avoid overestimating the results due to the awareness of an intervention.

This study has limitations that must be acknowledged. The included studies presented characteristics that limited the performance of a meta-analysis, such as different pain assessment tools, laser application protocols, and age groups. There was at least one heterogeneity factor between the two studies. Hence, a meta-analysis could not be performed. Furthermore, the lack of a homogeneous methodology and the presence of a confounding bias hindered the consensus of a completely standardized protocol for the analgesic effect of PBMT. That highlights the need for further randomized controlled trials with standardization of methodological execution and reporting protocols to allow a deeper interpretation of findings.

Conclusion

Based on a low to very low certainty of evidence, PBMT seems to have no effect on pain perception during the anesthetic puncture in patients undergoing dental local anesthesia. Therefore, further randomized studies with a low risk of bias should be performed with a standardized methodology regarding the execution and reporting of photobiomodulation therapy specifications.

Ethics

Not applicable.

References

Publication Dates

History