Fragment rehydration, splinting, and autotransplantation: A journey to better treatment for traumatized teeth

IF 2.3 3区 医学 Q2 DENTISTRY, ORAL SURGERY & MEDICINE
Lea Budak, Simran Kaur Sarao, Liran Levin
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The results have shown the possibilities of reducing the cost of fragment reattachment procedures and using different bonding materials for reattachment.</p><p>Severe TDIs can lead to tooth loss, but timely and appropriate treatment provided to traumatized teeth can significantly impact their prognosis.<span><sup>6-8</sup></span> The limited number of referral centers for TDIs, as well as their distance to other facilities may cause a delay in treating TDIs.<span><sup>9</sup></span> In this issue, an 8-year retrospective study was conducted at the Department of Pediatric Dentistry at the University Dental Clinic in Zagreb, Croatia. Šimunović et al. assessed the arrival time of TDIs according to the urgency of treatment, as well as place of residence.<span><sup>10</sup></span> The results of this study offer valuable insight that may help establish educational and preventive programs for TDIs in children and adolescents.</p><p>Early tooth loss in the anterior maxilla leads to the collapse of the alveolar bone along with changes in craniofacial growth.<span><sup>11, 12</sup></span> The replacement of the missing tooth is difficult and costly once the patient is fully grown, due to the extent of the defect.<span><sup>13</sup></span> Autotransplantation of premolars to the anterior maxilla might be a suitable solution especially when orthodontic indication for extraction exists.<span><sup>11, 14-17</sup></span> An observational retrospective analysis of 910 cases with autotransplanted premolars was carried out in a Periodontology Clinic in Rotterdam, Netherlands. In this issue, Louropoulou et al. evaluated the survival, success, and possible complications of transplanted premolars to the anterior region, depending on the development stage and the patient's age.<span><sup>18</sup></span> This article highlights the predictability of premolar autotransplantation to the anterior region over a 10-year follow-up period.</p><p>Interpersonal violence (IPV) is a public health concern, and the number of reported injuries is increasing.<span><sup>19-22</sup></span> Patient analysis in a hospital environment is crucial to help aid victims of violence, as well as devising violence prevention strategies to decrease the number of cases of maxillofacial injuries.<span><sup>23</sup></span> A retrospective study was conducted at a maxillofacial and oral surgery clinic at a trauma center hospital in Sao Paolo, Brazil. In this issue, Benassi et al. assessed the profile of patients with maxillofacial trauma due to IPV.<span><sup>24</sup></span> The findings of this study can help dental professionals be more cognizant of the possibility of IPV cases. In the next few months, a special issue dedicated to domestic violence will be published in <i>Dental Traumatology</i>.</p><p>Luxation injuries compose 18%–33% of TDIs and usually require dental splinting.<span><sup>25</sup></span> The IADT recommends a 2-week regime of flexible or semi-rigid splinting for luxation injuries, to allow for functional movement and promote periodontal regeneration.<span><sup>1, 26</sup></span> A randomized controlled trial was carried out to investigate splinting in luxation injuries. In this issue, Raza et al. compared conventional composite-wire splints to bulk-fill composite-wire splints in adults.<span><sup>27</sup></span> Factors evaluated included retention, adhesive point dimension, splint application and removal time, and tooth mobility reduction. The results of this research may help clinicians choose materials for composite-wire splinting of tooth luxation.</p><p>Intrusion is an uncommon yet serious TDI, accounting for 0.3%–1.9% of all TDIs in the permanent dentition.<span><sup>28-30</sup></span> The current IADT guidelines recommend spontaneous eruption, orthodontic extrusion, and surgical repositioning as three treatment options for repositioning intruded teeth.<span><sup>1, 26</sup></span> Orthodontic repositioning of traumatically intruded teeth might result in clinical complications such as root resorption and pulp necrosis.<span><sup>31</sup></span> In this issue, a retrospective study of the effects of extrusion of traumatically intruded teeth was conducted. Shalish et al. compared adverse effects after orthodontic extrusion of traumatically intruded teeth to the treatment of non-traumatized teeth.<span><sup>32</sup></span> Determining the appropriate timing and duration of eruptive force requires careful consideration of possible complications of traumatized teeth. Orthodontic treatment should be carried out with caution and mild force to prevent complications, especially keeping in mind the patients' dental trauma history.</p><p>Traditionally, treatment options following TDIs aimed to create a hard tissue bridge at the open apex, through apexification with mineral trioxide aggregate application.<span><sup>33, 34</sup></span> More biologically based techniques are used to try and restore lost pulp tissues with regenerative endodontic procedures using platelet concentrates.<span><sup>35</sup></span> A randomized clinical trial compared the regenerative potential of injectable platelet-rich fibrin (i-PRF) and platelet-rich plasma (PRP) scaffolds in traumatized immature maxillary anterior teeth. In this issue, Abo-Heikal et al. compared the completion of root formation and the restoration of pulp sensitivity in traumatized necrotic immature maxillary anterior teeth following i-PRF versus PRP regenerative scaffolds.<span><sup>36</sup></span> Maintaining pulp vitality is highly important for the long-term survival of teeth following TDIs.</p><p>Stand-up scooters have gained popularity as electrically operated personal mobility devices.<span><sup>37</sup></span> With the increase in the use of stand-up scooters, accidents caused by them, including the prevalence of maxillofacial trauma, have increased as well.<span><sup>38, 39</sup></span> In this issue, Lee et al. investigated the trauma pattern associated with the use of stand-up electric scooters compared with that related to the use of bicycles.<span><sup>40</sup></span> Medical records were collected at the Wonju Christian Hospital over a 5-year period. Maxillofacial trauma caused by stand-up scooters and bicycles were analyzed. The findings of this study emphasize the necessity of safety regulations with the development of personal transportation.</p><p>Restrictions during the recent COVID-19 pandemic led to the closure of playgrounds, schools, and sports centers, and decreased vehicle traffic affecting the incidence of orofacial injuries and hospitalizations.<span><sup>37, 41</sup></span> In this issue, Aminian et al. investigated the effect of Covid-19 lockdowns on the rates of orofacial trauma hospitalizations in children in Australia and the United Kingdom.<span><sup>42</sup></span> As the lockdowns limited physical activities and travel, dental trauma rates during that time helped explore the effect of physical activity as a factor in orofacial injuries in children.</p><p>The etiology of TDI in the general population has been linked to a variety of factors, including oral, environmental, and human behaviors.<span><sup>43</sup></span> Conditions affecting neural and/or muscular coordination such as epilepsy, cerebral palsy (CP), autism, and attention deficit hyperactivity disorders (ADHD) are known to increase the susceptibility to injuries. Individuals with special healthcare needs (SHCN), especially ADHD and CP, have a higher chance of TDI than the general population.<span><sup>44-48</sup></span> The prevalence of TDI in individuals with SHCN has been reported, but the associated risk factors are less understood than in the general population. In this issue, Devi et al. assessed various risk factors associated with TDIs in individuals with SHCN.<span><sup>49</sup></span> This systematic review highlighted a large number of facets of TDIs in SHCN patients, including open bite, the extent of CP, seizures, bruxism, non-nutritive sucking habits, severe malocclusion, disabling conditions, and previous TDI history.</p><p>CP reduces defensive reflexes, which makes individuals with CP more susceptible to orofacial injuries.<span><sup>50, 51</sup></span> The greater the brain damage, the greater the risk of trauma.<span><sup>44</sup></span> In this issue, Heiden et al. evaluated the prevalence of orofacial injuries resulting from trauma in patients with CP.<span><sup>52</sup></span> Interdisciplinary collaboration with other healthcare professionals is essential for providing integrated and holistic care for patients with CP. This systematic review emphasizes the implementation of preventive measures by adapting guidance and instructions according to the patient's communication needs and abilities, as well as those of their caregivers.</p><p>Intentional replantation of a tooth is a technique that involves atraumatic tooth extraction, extraoral repair, and tooth reinsertion into the extraction socket.<span><sup>53</sup></span> It is a treatment option for inaccessible endodontic or resorptive lesions, and might allow minimally invasive treatment with the retention of natural teeth.<span><sup>54, 55</sup></span> In this issue, Huang et al. performed a bibliometric analysis of articles related to intentional replantation.<span><sup>56</sup></span> The analysis evaluated the global annual publication trends, geographical distribution of publications, institutions and authors. 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引用次数: 0

Abstract

Uncomplicated crown fractures make up 18%–22% of all traumatic dental injuries (TDIs).1 The recommended treatment is rehydration and reattachment of the tooth fragment.1, 2 Humidification is an alternative method for rehydration that has previously been shown to increase the force required for tooth fracture.2-4 In this issue, Jhunjhunwala et al. compared and evaluated three materials for bonding after the rehydration of bovine teeth with reattached uncomplicated crown fractures in a humidification chamber.5 The materials used for fragment reattachment after rehydration were light-cured glass ionomer cement, nano-hybrid composite, and micro-hybrid composite, with the control group being the non-rehydrated reattachments. The results have shown the possibilities of reducing the cost of fragment reattachment procedures and using different bonding materials for reattachment.

Severe TDIs can lead to tooth loss, but timely and appropriate treatment provided to traumatized teeth can significantly impact their prognosis.6-8 The limited number of referral centers for TDIs, as well as their distance to other facilities may cause a delay in treating TDIs.9 In this issue, an 8-year retrospective study was conducted at the Department of Pediatric Dentistry at the University Dental Clinic in Zagreb, Croatia. Šimunović et al. assessed the arrival time of TDIs according to the urgency of treatment, as well as place of residence.10 The results of this study offer valuable insight that may help establish educational and preventive programs for TDIs in children and adolescents.

Early tooth loss in the anterior maxilla leads to the collapse of the alveolar bone along with changes in craniofacial growth.11, 12 The replacement of the missing tooth is difficult and costly once the patient is fully grown, due to the extent of the defect.13 Autotransplantation of premolars to the anterior maxilla might be a suitable solution especially when orthodontic indication for extraction exists.11, 14-17 An observational retrospective analysis of 910 cases with autotransplanted premolars was carried out in a Periodontology Clinic in Rotterdam, Netherlands. In this issue, Louropoulou et al. evaluated the survival, success, and possible complications of transplanted premolars to the anterior region, depending on the development stage and the patient's age.18 This article highlights the predictability of premolar autotransplantation to the anterior region over a 10-year follow-up period.

Interpersonal violence (IPV) is a public health concern, and the number of reported injuries is increasing.19-22 Patient analysis in a hospital environment is crucial to help aid victims of violence, as well as devising violence prevention strategies to decrease the number of cases of maxillofacial injuries.23 A retrospective study was conducted at a maxillofacial and oral surgery clinic at a trauma center hospital in Sao Paolo, Brazil. In this issue, Benassi et al. assessed the profile of patients with maxillofacial trauma due to IPV.24 The findings of this study can help dental professionals be more cognizant of the possibility of IPV cases. In the next few months, a special issue dedicated to domestic violence will be published in Dental Traumatology.

Luxation injuries compose 18%–33% of TDIs and usually require dental splinting.25 The IADT recommends a 2-week regime of flexible or semi-rigid splinting for luxation injuries, to allow for functional movement and promote periodontal regeneration.1, 26 A randomized controlled trial was carried out to investigate splinting in luxation injuries. In this issue, Raza et al. compared conventional composite-wire splints to bulk-fill composite-wire splints in adults.27 Factors evaluated included retention, adhesive point dimension, splint application and removal time, and tooth mobility reduction. The results of this research may help clinicians choose materials for composite-wire splinting of tooth luxation.

Intrusion is an uncommon yet serious TDI, accounting for 0.3%–1.9% of all TDIs in the permanent dentition.28-30 The current IADT guidelines recommend spontaneous eruption, orthodontic extrusion, and surgical repositioning as three treatment options for repositioning intruded teeth.1, 26 Orthodontic repositioning of traumatically intruded teeth might result in clinical complications such as root resorption and pulp necrosis.31 In this issue, a retrospective study of the effects of extrusion of traumatically intruded teeth was conducted. Shalish et al. compared adverse effects after orthodontic extrusion of traumatically intruded teeth to the treatment of non-traumatized teeth.32 Determining the appropriate timing and duration of eruptive force requires careful consideration of possible complications of traumatized teeth. Orthodontic treatment should be carried out with caution and mild force to prevent complications, especially keeping in mind the patients' dental trauma history.

Traditionally, treatment options following TDIs aimed to create a hard tissue bridge at the open apex, through apexification with mineral trioxide aggregate application.33, 34 More biologically based techniques are used to try and restore lost pulp tissues with regenerative endodontic procedures using platelet concentrates.35 A randomized clinical trial compared the regenerative potential of injectable platelet-rich fibrin (i-PRF) and platelet-rich plasma (PRP) scaffolds in traumatized immature maxillary anterior teeth. In this issue, Abo-Heikal et al. compared the completion of root formation and the restoration of pulp sensitivity in traumatized necrotic immature maxillary anterior teeth following i-PRF versus PRP regenerative scaffolds.36 Maintaining pulp vitality is highly important for the long-term survival of teeth following TDIs.

Stand-up scooters have gained popularity as electrically operated personal mobility devices.37 With the increase in the use of stand-up scooters, accidents caused by them, including the prevalence of maxillofacial trauma, have increased as well.38, 39 In this issue, Lee et al. investigated the trauma pattern associated with the use of stand-up electric scooters compared with that related to the use of bicycles.40 Medical records were collected at the Wonju Christian Hospital over a 5-year period. Maxillofacial trauma caused by stand-up scooters and bicycles were analyzed. The findings of this study emphasize the necessity of safety regulations with the development of personal transportation.

Restrictions during the recent COVID-19 pandemic led to the closure of playgrounds, schools, and sports centers, and decreased vehicle traffic affecting the incidence of orofacial injuries and hospitalizations.37, 41 In this issue, Aminian et al. investigated the effect of Covid-19 lockdowns on the rates of orofacial trauma hospitalizations in children in Australia and the United Kingdom.42 As the lockdowns limited physical activities and travel, dental trauma rates during that time helped explore the effect of physical activity as a factor in orofacial injuries in children.

The etiology of TDI in the general population has been linked to a variety of factors, including oral, environmental, and human behaviors.43 Conditions affecting neural and/or muscular coordination such as epilepsy, cerebral palsy (CP), autism, and attention deficit hyperactivity disorders (ADHD) are known to increase the susceptibility to injuries. Individuals with special healthcare needs (SHCN), especially ADHD and CP, have a higher chance of TDI than the general population.44-48 The prevalence of TDI in individuals with SHCN has been reported, but the associated risk factors are less understood than in the general population. In this issue, Devi et al. assessed various risk factors associated with TDIs in individuals with SHCN.49 This systematic review highlighted a large number of facets of TDIs in SHCN patients, including open bite, the extent of CP, seizures, bruxism, non-nutritive sucking habits, severe malocclusion, disabling conditions, and previous TDI history.

CP reduces defensive reflexes, which makes individuals with CP more susceptible to orofacial injuries.50, 51 The greater the brain damage, the greater the risk of trauma.44 In this issue, Heiden et al. evaluated the prevalence of orofacial injuries resulting from trauma in patients with CP.52 Interdisciplinary collaboration with other healthcare professionals is essential for providing integrated and holistic care for patients with CP. This systematic review emphasizes the implementation of preventive measures by adapting guidance and instructions according to the patient's communication needs and abilities, as well as those of their caregivers.

Intentional replantation of a tooth is a technique that involves atraumatic tooth extraction, extraoral repair, and tooth reinsertion into the extraction socket.53 It is a treatment option for inaccessible endodontic or resorptive lesions, and might allow minimally invasive treatment with the retention of natural teeth.54, 55 In this issue, Huang et al. performed a bibliometric analysis of articles related to intentional replantation.56 The analysis evaluated the global annual publication trends, geographical distribution of publications, institutions and authors. This bibliometric analysis provides comprehensive and valuable insight into the vast body of literature related to the developments of the intentional replantation technique.

碎片补水、夹板和自体移植:更好地治疗创伤牙的旅程。
35 一项随机临床试验比较了可注射富血小板纤维蛋白 (i-PRF) 和富血小板血浆 (PRP) 支架在创伤性未成熟上颌前牙中的再生潜力。在本期中,Abo-Heikal 等人比较了使用 i-PRF 和 PRP 再生支架后创伤坏死的未成熟上颌前牙牙根形成的完成情况和牙髓敏感性的恢复情况36。随着站立式电动代步车使用率的提高,由其引发的事故(包括颌面部创伤的发生率)也随之增加。38, 39 在本期中,Lee 等人调查了与使用自行车相比,与使用站立式电动代步车相关的创伤模式。40 研究人员在原州基督教医院收集了 5 年来的医疗记录,分析了站立式电动滑板车和自行车造成的颌面部创伤。37, 41 在本期中,Aminian 等人调查了 Covid-19 封锁对澳大利亚和英国儿童口面部外伤住院率的影响。43 众所周知,影响神经和/或肌肉协调的疾病,如癫痫、脑瘫 (CP)、自闭症和注意力缺陷多动障碍 (ADHD) 会增加受伤的易感性。有特殊医疗保健需求(SHCN)的人,尤其是多动症(ADHD)和注意力缺陷多动障碍(CP)患者,发生 TDI 的几率高于普通人群44-48。有报道称,SHCN 患者的 TDI 发生率较高,但与普通人群相比,人们对相关风险因素的了解较少。49 这篇系统性综述强调了 SHCN 患者发生 TDI 的诸多方面,包括开放性咬合、CP 的程度、癫痫发作、磨牙症、无营养吸吮习惯、严重错颌、致残情况和既往 TDI 病史。CP 降低了防御性反射,这使得 CP 患者更容易受到口面部损伤、51 脑损伤越严重,外伤风险越大。44 在本期中,Heiden 等人评估了 CP 患者因外伤导致口面部损伤的发生率。52 与其他医护人员的跨学科合作对于为 CP 患者提供综合全面的护理至关重要。本系统综述强调根据患者及其护理人员的沟通需求和能力调整指导和说明,从而实施预防措施。有意再植牙是一种涉及创伤性拔牙、口外修复和将牙齿重新植入拔牙窝的技术。它是一种治疗无法进入的牙髓病变或吸收性病变的方法,可以在保留天然牙齿的同时进行微创治疗。54, 55 在本期中,Huang 等人对与有意再植相关的文章进行了文献计量分析。该文献计量分析为了解与有意再植技术发展相关的大量文献提供了全面而有价值的信息。
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来源期刊
Dental Traumatology
Dental Traumatology 医学-牙科与口腔外科
CiteScore
6.40
自引率
32.00%
发文量
85
审稿时长
6-12 weeks
期刊介绍: Dental Traumatology is an international journal that aims to convey scientific and clinical progress in all areas related to adult and pediatric dental traumatology. This includes the following topics: - Epidemiology, Social Aspects, Education, Diagnostics - Esthetics / Prosthetics/ Restorative - Evidence Based Traumatology & Study Design - Oral & Maxillofacial Surgery/Transplant/Implant - Pediatrics and Orthodontics - Prevention and Sports Dentistry - Endodontics and Periodontal Aspects The journal"s aim is to promote communication among clinicians, educators, researchers, and others interested in the field of dental traumatology.
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