Quintessence International, 9/2024
DOI: 10.3290/j.qi.b5751220, ID de PubMed (PMID): 39287091Páginas 686-691, Idioma: InglésMcNeil, Rotem / Haviv, Yaron / Benoliel, Rafael / Sharav, YairTwo cases of pain evoked by cold food ingestion, following root canal therapy, are presented. The source of pain was detected when cold application to the vestibular, periapical area corresponding to the teeth involved evoked strong pain of about 30-second durations. In the first case, the patient suffered from strong pain in the mandibular right area over the last 4 months. After successive root canal therapy of three mandibular right teeth, the spontaneous pain eased significantly, but strong pain evoked by cold food ingestion persisted. Cold application to the vestibular periapical area of teeth involved identified the source of pain, which was abolished by 80 mg/day of slow-release propranolol. In the second case, cold allodynia developed after root canal therapy. The root canal therapy was performed for prosthetic reasons with no prior pain. Pain could be duplicated by cold application to the vestibular area of the treated tooth. The patient preferred no treatment when the source of pain was explained. In both cases cold application did not produce any pain in other intraoral locations, including the contralateral vestibular area or the mid soft or hard palate. Pain mechanisms, neurovascular and neuropathic, which differ for each case are discussed.
Palabras clave: cold allodynia, ice-cream headache, neuropathic oral pain, neurovascular orofacial pain
Journal of Oral & Facial Pain and Headache, 4/2023
Acceso libreDOI: 10.11607/ofph.3488Páginas 219-268, Idioma: InglésHuff, Kevin D. / Benoliel, RafaelJournal of Oral & Facial Pain and Headache, 2/2022
DOI: 10.11607/ofph.3027Páginas 165-186, Idioma: InglésAnanthan, Sowmya / Patil, Amey G / Jaiswal, Deepika / Nasri-Heir, Cibele / Heir, Gary M / Benoliel, RafaelAims: To perform a scoping review of the literature to elucidate the occurrence of nerve damage related to dental implant placement and the factors causing the sensory changes.
Methods: An extensive electronic search was conducted using the Cochrane Library, Medline via Ovid, PubMed, Wiley Online, Science Direct, CINAHL, and the Google Scholar databases from the year 1950 to 2020.
Results: The search resulted in 1,067 articles, out of which 76 were selected for this review. The articles were categorized as literature review articles, retrospective studies, prospective studies, and case series/case reports. Altogether, 2,526 subjects were assessed retrospectively, with 5.27% transient and 1.39% persistent sensory changes, and a cohort of 2,750 subjects were followed prospectively, with 6.22% transient and 1.31% persistent sensory changes. A total of 336 subjects were enrolled in various case reports and case series, with 5.95% transient sensory changes and 84.52% persistent neurosensory changes. The articles included were not of high quality and have variations in their study designs and reporting procedures, with limited sensory change data to include in this study.
Conclusion: After surgical placement of dental implants in 5,612 patients, the incidence of transient sensory changes was 5.63%, and the incidence of persistent sensory changes was 6.33%. Factors affecting the incidence were: mandibular location of the implant, with the inferior alveolar nerve as the most commonly affected nerve. The common symptoms reported were paresthesia and dysesthesia. Age and gender were among other factors, for which data were not available in all the articles.
Palabras clave: dental implants, sensory changes, transient and permanent, trigeminal neuropathy
Quintessence International, 5/2021
DOI: 10.3290/j.qi.b1044039, ID de PubMed (PMID): 33688715Páginas 384-392, Idioma: InglésKohli, Divya / Falcon, Carla / Katzmann, Giannina / Benoliel, Rafael / Khan, Junad / Korczeniewska, Olga A.Objectives: Endodontic treatment is a routine procedure performed by general dental practitioners and endodontists on a daily basis. Fortunately, most patients undergoing endodontic therapy show a favorable outcome with uneventful healing. However, some patients develop pain following endodontic therapy. A majority of these patients develop acute, nociceptive pain (“flare-up”) that resolves with appropriate treatment and subsequent healing. The dental profession is very adept at successfully managing the acute pain that occurs early following endodontic treatment. A minority of patients, however, develop ongoing pain following root canal therapy, termed chronic if persisting for 3 months or more. The diagnosis and management of chronic postendodontic pain are often challenging. This article aims to review pain following endodontic therapy, ranging from acute to chronic pain and its management, with specific emphasis on chronic pain, its pathophysiology, clinical features, diagnostic criteria, and management modalities.
Conclusion: Endodontic treatment rarely leads to chronic neuropathic pain; however, when the nerve injury occurs and results in posttraumatic trigeminal neuropathic pain (PTNP), treatment options are very limited and rarely successful. Therefore, all steps should be taken to avoid nerve injury. Prevention of endodontic treatment related PTNP is crucial and achieved through early recognition, and prompt management.
Palabras clave: acute pain, chronic pain, endodontics, neuropathic pain, postendodontic therapy, traumatic nerve injury, trigeminal nerve
Journal of Oral & Facial Pain and Headache, 4/2021
DOI: 10.11607/ofph.2021.4.ePáginas 267-269, Idioma: InglésBenoliel, RafaelJournal of Oral & Facial Pain and Headache, 5/2020
SuplementoPáginas s11, Idioma: InglésBenoliel, RafaelCommentary 4Journal of Oral & Facial Pain and Headache, 4/2020
Páginas 301-302, Idioma: InglésBenoliel, Rafael / Ohrbach, RichardJournal of Oral & Facial Pain and Headache, 2/2020
Páginas 121-128, Idioma: InglésHaviv, Yaron / Zini, Avraham / Keshet, Naama / Almoznino, Galit / Benoliel, Rafael / Sharav, YairAims: To test and re-examine the diagnostic criteria for neurovascular orofacial pain (NVOP) compared to posttraumatic trigeminal neuropathy (PTTN).
Methods: Pain and patient characteristics were compared in patients with NVOP, PTTN, and NVOP initiated by trauma (PT-NVOP). NVOP criteria were based on prior studies, and PTTN was defined according to the International Classification of Headache Disorders, version 3 beta.
Results: Of the 170 patients in the cohort, 90 had PTTN, 51 had NVOP, and 29 had PT-NVOP. None of the tested parameters in the NVOP and PT-NVOP patients were significantly different, and therefore these patients were combined into one group (T-NVOP). T-NVOP differed significantly from PTTN (P .001) in periodic pain patterns, presence of autonomic and systemic signs, throbbing pain quality, and frequency of bilaterality. Pain quality in PTTN was more burning/stabbing than in NVOP (P = .003). Pain severity, waking from sleep, muscle sensitivity to palpation, and demographics were comparable.
Conclusion: NVOP differs from PTTN in parameters essential to diagnosis: periodicity of pain, presence of autonomic and systemic accompanying signs, throbbing pain quality, and bilateral presentation. NVOP is amenable to abortive and prophylactic antimigraine therapies, distinguishing NVOP from PTTN in clinical features, treatment, and prognosis.
Palabras clave: migraine, neurovascular orofacial pain, persistent idiopathic facial pain, post traumatic trigeminal neuropathy
Journal of Oral & Facial Pain and Headache, 1/2020
Páginas 67-76, Idioma: InglésAlmoznino, Galit / Zini, Avraham / Zakuto, Avraham / Zlutzky, Hulio / Bekker, Stav / Shay, Boaz / Haviv, Yaron / Sharav, Yair / Benoliel, RafaelAims: To analyze cervical tenderness scores (CTS) in patients with various temporomandibular disorders (TMD) and in controls and to examine associations of CTS with demographic and clinical parameters.
Methods: This case-control study included 192 TMD patients and 99 controls diagnosed based on a questionnaire and a clinical examination following the Research Diagnostic Criteria for Temporomandibular Disorders (RDC/TMD) guidelines. CTS, adapted from the widely used total tenderness score, was the mean sum of the palpation scores from the suboccipital, sternocleidomastoid, and trapezius muscles. Depending on the variables, data were analyzed using Pearson chi-square, analysis of variance, t test, Bonferroni post hoc adjustment, and/or multivariate linear regression analyses.
Results: CTS was higher in TMD patients compared to controls (P .001). Across TMD subgroups, CTS was notable only in those with a myogenous TMD diagnosis, but not in arthrogenous TMD (P = .014). CTS was positively associated with: female sex (P = .03), whiplash history, higher verbal pain scores, comorbid headaches, body pain, increased pain on mouth opening, and higher masticatory muscles tenderness scores (MTS) (P .001 for all). Sex (P .001), MTS (P .001), comorbid headache (P = .042), and pain on opening (mild: P = .031; moderate: P = .022) retained significant associations with CTS in the multivariate analysis, and these main effects were influenced by interactions with whiplash history and comorbid body pain.
Conclusion: CTS differentiated between TMD patients and controls and between TMD diagnoses. Specific patient and pain characteristics associated with poor outcome in terms of CTS included effects of interactions between myogenous TMD, female sex, whiplash history, comorbid body pain and headaches, and pain on opening. It can therefore be concluded that routine clinical examination of TMD patients should include assessment of the cervical region.
Palabras clave: cervical muscle tenderness, masticatory muscle disorders, muscle tenderness score, temporomandibular disorders
Journal of Oral & Facial Pain and Headache, 3/2019
Páginas 245-246, Idioma: InglésBenoliel, Rafael