Dental implant therapy has been a revolution in dentistry. Today, oral rehabilitation of single or multiple edentulism with dental implants is a very common procedure, and its use has steadily increased in recent decades (Buser et al., 2017). While intraoperative pain can be effectively controlled with anesthetic agents (Haas, 2002; Bahammam et al., 2017), postoperative pain remains a possible side effect of dental surgery (Wang et al., 2019).

After dental implant placement surgery, patients may present different degrees of postoperative discomfort. Pain and swelling are common consequences of the surgical trauma, induced by the release of inflammatory mediators (Bryce et al, 2014). This could be influenced by various intervention-related factors (such as type of surgery, duration, and extension) and patient characteristics (such as stress level, blood pressure, heart rate, and anxiety) (Scott and Hirschman, 1982).

Pain is usually mild or moderate, although some patients may experience severe pain (Wang et al., 2019). Several drugs (including analgesics, anti-inflammatories, and anesthetics) and different protocols for the management of postoperative pain have been investigated so far, but the literature offers a heterogeneous and undefined picture about effectiveness and treatment-associated adverse events (Bryce et al., 2014).

This systematic review aims to summarize available evidence on analgesics in the management of postoperative pain after dental implant placement.

Overall, this review suggested that analgesic use in dental implant placement could be associated with improved postoperative outcomes (including pain, patient’s satisfaction, and need for rescue medication), whereas indications about the best analgesics could not be provided.

To our knowledge, this is the first systematic review about analgesics in dental implant surgery.

Postoperative pain and patient’s discomfort are common consequences of such surgical procedures, and their postoperative management has gathered the attention of several researchers (White and Kehlet, 2010). The literature includes the investigation of different classes of drug, such as NSAID (ibuprofen, piroxicam, meloxicam, lornoxicam, teloxicam, ketorolac, dexketoprofen trometamol, diclofenac diethylamine), corticosteroids (dexamethasone and betamethasone), opioids (codeine and fentanyl), local anesthetics (liposomal bupivacaine), and Alpha2 adrenergic receptor agonists (dexmedetomidine), benzodiazepine (midazolam) (Pereira et al., 2020; Bhutani et al., 2019; Iero et al., 2018; Sánchez-Pérez et al., 2018; Bahammam et al., 2017; Meta et al., 2017; Samieirad et al., 2017; Raja Rajeswari et al., 2017; Li et al., 2015; Bölükbasi et al., 2012; Karabouda et al., 2007). Unfortunately, such heterogeneity—alongside the different timing of assessment—provides an inconclusive picture about effectiveness and safety of these options.

Overall, several analgesics (ibuprofen, piroxicam, dexketoprofen trometamol, dexamethasone, and lornoxicam) were superior in reducing postoperative pain when compared to placebo. (Pereira et al., 2020; Bhutani et al., 2019; Sánchez-Pérez et al., 2018; Bahammam et al., 2017; Bölükbasi et al., 2012). In addition, liposomal bupivacaine showed better analgesic effect when associated with an opioid-sparing postoperative pain management protocol [#3]. These findings are in broad agreement with the literature on postoperative pain relief after third molar extraction surgery, a wider used pain model in dentistry (Filho et al., 2020), o (Weil et al., 2007; Bailey et al., 2013). On the other hand, the comparisons of different analgesics often failed to provide suggestions about the best option for reducing postoperative pain (Bahammam et al., 2017; Meta et al., 2017; Karabouda et al., 2007). Samiera et al. found codeine superior to caffeine in postoperative pain relief, but caffeine was associated with reduced swelling (Samieirad et al., 2017). Li et al. reported lower postoperative pain with dexmedetomidine than midazolam, both in association with fentanyl (Li et al., 2015).

However, NSAIDs have a well-known effect in reducing pain (Bryce et al., 2014). The literature offers controversial findings about its influence on bone regeneration around implants. Gomes et al. found no impairment in osseointegration with COX-1 inhibitors (both in short- and long-term administration), but their safe use during the postoperative period has not been demonstrated (Gomes et al., 2015).

Corticosteroids are usually administered to reduce the inflammatory response after oral surgery (Bryce et al., 2014). While their effectiveness in reducing swelling and trismus after third molar extraction is well accepted, controversial results remain on their direct analgesic properties (Filho et al., 2008; Dionne et al., 2003). Further research on different molecules at different dosages needs to be performed to shed light on this aspect. In our review, dexamethasone 4 mg 1 h before surgery plus 4 mg 6 h after resulted in higher pain reduction than placebo, with no significant difference compared to ibuprofen 600 mg administered at the same time (Bahammam et al., 2017). On the other hand, betamethasone 3 mg EV administered in association with ketorolac did not influence the relief of post-implant pain (Meta et al., 2017). Glucocorticosteroids administered for systemic diseases seem to have no impact on the osseointegration and survival of dental implants placed without bone grafting (Petsinis et al., 2017).

Opioids (such as codeine and fentanyl) have well-known analgesic effects, but other aspects (side effects, abuse, and dependency) should be considered when administered for postsurgical pain. They should be prescribed only when an alternative therapy is not possible or effective, and only for a short period of time (Moore et al., 2015; Eliav, 2017).

Liposomal bupivacaine is a local anesthetic formulation consisting of bupivacaine hydrochloride encapsulated within multiple nonconcentric lipid bilayers, in order to offer sustained-release analgesia (Hamilton et al., 2017). Hamilton et al. suggested that its infiltration at the surgical site may reduce postoperative pain when compared to placebo but could not demonstrate superiority to bupivacaine hydrochloride (low-quality evidence) (Hamilton et al., 2017).

Dexmedetomidine is an α₂-adrenoreceptor agonist with sedative, anxiolytic, sympatholytic, and analgesic-sparing effects, and minimal depression of respiratory function. Analgesic effects of α₂-agonists are thought to be mediated by α₂-receptor binding on central and spinal cord α₂-receptors. Pain transmission is suppressed by hyperpolarization of interneurons and reduction of the release of pronociceptive transmitters such as substance P and glutamate (Weerink et al., 2017). The mechanisms underlying the analgesic effects of dexmedetomidine are still incompletely understood and may partly be owing to an altered perception and reduced anxiety, although an opioid-sparing effect is described, and there may be an effect when used with locoregional anesthesia techniques (Weerink et al., 2017).

Midazolam is a benzodiazepine characterized by rapid onset of clinical effects and short duration of action; like other benzodiazepines, its pharmacological action includes sedation, sleep induction, anxiolysis, and amnesia (Nordt and Richard Clark, 1997). Its antinociceptive effect is still unclear; some authors report significant results in animal models (Chiba et al., 2009; Guo and Yuan, 2008; Kyles et al., 1995), while other studies report no influence on pain reduction when associated with other sedatives or analgesics (Auffret et al., 2014; Li et al., 2015; Cai et al., 2017).

The use of caffeine (>100 mg) as an adjunct to common analgesics has been reported to provide a small but important increase (5–10%) in the proportion of patients who experience pain relief (Derry et al., 2014). Our review found it effective in the reduction of swelling when compared to codeine, a result also observed with piroxicam when compared to placebo (Buthani et al., 2019; Samieirad et al., 2017).

Patients usually report high satisfaction about dental implants, with some influence of pre-operatory anxiety and prosthetic complications over time (Al-Radha, 2019; Canallatos et al., 2020). Improved patient’s satisfaction was associated with some analgesics (liposomal bupivacaine, ibuprofen, dexamethasone, and lornoxicam) compared to placebo (Iero et al., 2018; Bahammam et al., 2017; Bölükbasi et al., 2012), while ibuprofen and dexamethasone achieved comparable results (Bahammam et al., 2017). In one split-mouth study (Raja Rajeswari et al., 2017), participants preferred transdermal diclofenac diethylamine over oral diclofenac sodium, but the findings could have been biased due to the randomization process and the deviations from the intended interventions. Within the limitations of this review, the administration of analgesics appears to improve overall patient’s satisfaction about dental implant surgery.

Rescue medication includes drugs that may be administered to the patient when the efficacy of the investigational medical product is not satisfactory (Nahle, 2009). Reduced need for rescue medication was achieved with ibuprofen (Pereira et al., 2020; Bahammam et al., 2017), dexamethasone (Bahammam et al., 2017), and lornoxicam (Bölükbasi et al., 2012) compared to placebo. Analgesics may have a wide variety of adverse effects, from mild to severe, that should be taken into account when analgesic therapy is prescribed (Kim and Seo, 2020).

No adverse events occurred when using ibuprofen, dexamethasone, and lornoxicam (Pereira et al., 2020; Bahammam et al., 2017; Bölükbasi et al., 2012); side effects reported with liposomal bupivacaine were comparable to the standard of care (Iero et al., 2018); and a higher incidence of bleeding was reported in patients receiving dexketoprofen trometamol than in those receiving placebo (Sánchez-Pérez et al., 2018). When analgesics are prescribed, evaluating a patient’s medical history, severity of patient’s expected pain, pharmacological properties of the drugs, and potential interactions with concurrent medications become crucial in order to reduce the occurrence of adverse events.

The findings of this review should be interpreted within its limitations. First, the heterogeneity in analgesic drugs and timing of assessment precluded the pooling of the results, thus limiting the summary of the findings to a narrative synthesis. Second, the mixed quality of the included studies and the small number of studies investigating each outcome prevented from drawing strong conclusions.

Nonetheless, this review suggests that the administration of analgesics may provide some advantages in the management of postoperative pain after dental implant placement, but further research is warranted. While the available literature offers some analgesic protocols for dental pain based on anticipated postprocedural pain level (ADA 2020; Kim and Seo, 2020), specific evidence-based analgesic schemes for dental implant surgery remain undefined. Unfortunately, the wide surgical variability of the implantology practice and the large quantity of molecules and protocols available in the literature prevent from providing indications about the best treatment for postoperative pain control. Further research including studies with adequate sample size comparing standardized implant approaches is needed to inform best practices in this domain.

The original contributions presented in the study are included in the article/Supplementary Material, and further inquiries can be directed to the corresponding author.

Conception or design of the work: all authors. Acquisition of data: MM, AF, and GZ. Analysis and interpretation of data: FC and MP. Draft of the work: MM, AF, and FC. Revision of the manuscript for important intellectual content: MP and GZ. All authors approved the submitted version and agreed to be accountable for the submitted work.

The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.