To review published data on oral manifestations of multiple myeloma.
MethodsAn electronic database search was performed of articles published from 1971 to November 2016 in order to identify studies that reported oral manifestations of patients with multiple myeloma. Case reports and case series with oral manifestations of multiple myeloma in English were included in the study. An additional search was performed of the references of the selected articles.
ResultsThirty-seven articles that reported 81 patients with oral manifestations of multiple myeloma were selected: 30 case reports (82%) and seven case series (18%). The most common clinical features in the dental cavity were swelling (65.4%), bone pain (33.3%), paresthesia (27.1%) and amyloidosis lesions (11.1%). Osteolytic lesions detected on imaging exams were reported in the majority of the patients (90.1%) as plasmacytomas or ‘punched-out’ lesions.
ConclusionsSwelling and osteolytic lesions represent the most common clinical and radiographic signs of the jaws relating to multiple myeloma, respectively.
Multiple myeloma (MM) is a common bone malignancy of unknown etiology that affects mainly older age groups.1 Nearly 80% of diagnosed MM is preceded by an asymptomatic premalignant stage termed monoclonal gammopathy of undetermined significance (MGUS).2 The classical form of MM is characterized by signs such as hyperCalcemia, Renal insufficiency, Anemia, and Bone lesions (CRAB).3 The main clinical signs and symptoms of MM are bone pain (accompanied or not by pathologic fractures), fatigue, infections and secondary amyloidosis.4 Commonly, bone lesions may be represented by diffuse or localized osteolytic lesions, named plasmacytomas, or by a ‘punched-out’ pattern.1 The maxillary and mandibular bones may be affected by these lesions,1,5–27 and nearly 35% of patients diagnosed with symptomatic MM present lesions in the jaws.28
It is important that clinical manifestations of MM are recognized at early stages.5 Some features of MM may manifest in the oral structures and dentists should be able to detect lesions that may represent oral manifestations of MM during the routine oral clinical and imaging exams that are periodically performed for dental treatment.
The oral signs and symptoms of patients presenting MM are characterized by pain, bleeding, dysphagia, paresthesia and osteolytic lesions.23 However, literature on the oral manifestations of MM is poor and mainly restricted to cases reports. The aim of this study was to perform a search of the literature on the oral manifestations of MM, highlighting the most common clinical and imaging findings of the oral cavity and related conditions.
MethodAn electronic database search of the literature was performed in order to identify studies published from January 1971 to November 2016 that reported oral manifestations in patients with MM. The Pubmed/Medline database was used employing the mesh terms “oral manifestations” (and associated entry terms “manifestation, oral” and “manifestations, oral”) AND “multiple myeloma”. Study criteria were applied and duplicated articles were eliminated. Clinical and epidemiological studies reporting oral manifestations of MM in English were eligible for the study. Reviews, letters to the editors, papers written in languages other than English, and those not available in the full version were excluded. An additional manual search was made of the references of the primary selection using the same criteria.
ResultsSixty-six different abstracts were found in the electronic database search. Twenty articles were selected after the elimination of articles published in languages other than English (n=8), articles published before 1971 (n=5), articles that did not address the topic (n=20), articles that were not found (n=2), and literature reviews (n=11). Three hundred and 63 articles were found in the manual search of the references of the selected articles. After applying study criteria to these references, 346 articles were excluded. Thus, 37 studies were selected for this review: 30 case reports (82%), and seven case series (18%). No epidemiological or intervention studies were found in the search. Figure 1 shows the flowchart for the study selection process.
The main clinical and radiographic features found in the 37 selected studies are shown on Table 1. In more than half of the studies (20 studies), these characteristics were presented as the first sign of MM, and contributed to the diagnosis of the disease. The other studies showed oral signs or symptoms affecting individuals already diagnosed with MM. Eighty-one patients were reported with oral manifestations of MM. The most common clinical characteristics were swelling (65.4%), bone pain (33.3%), paresthesia (27.1%), amyloidosis lesions (11.1%), bleeding gums (9.8%), tooth mobility (6.1%), root resorption (3.7%), gingival swelling (1.2%) and candidiasis (1.2%) (Figure 2).
Characteristics of studies, population, oral clinical signs and imaging aspects of patients with multiple myeloma reported in the 37 studies.a
Author | Study type | Sample size/number of patients with oral manifestations | Symptom | Clinical sign | Imaging aspects of lesions | Type of image | First detected sign of MM |
---|---|---|---|---|---|---|---|
Barret al.8 | Case report | 1/1 | Pain | Swelling | Multiple diffuse lytic | Non specified | No |
Yoshimura et al.9 | Case report | 2/2 | Pain | Swelling | Multiple diffuse lyticPunch-out | Skull and periapical radiographCT | Yes |
Kraut et al.10 | Case report | 1/1 | Difficulty chewing | Amyloidosis in upper lip | Multiple diffuse lytic | Skull radiograph | No |
Flick et al.40 | Case report | 1/1 | None | Amyloidosis in the tongue | – | – | Yes |
Salisbury et al.44 | Case report | 1/1 | PainBleeding on the buccal mucosa | Amyloidosis in the tongue | – | – | No |
Epstein et al.11 | Case report | 1/1 | PainTrismus | None | Punch-out lytic with root resorption | Pantomographic radiograph | No |
Babajews et al.41 | Case report | 1/1 | None | Amyloidosis in the tongue | – | – | Yes |
Raubenheimer et al.42 | Case report | 1/1 | PainDysphagia | Amyloidosis in the tongue,Parotid gland and gumHyposalivation | – | – | Yes |
Jacobs et al.45 | Case report | 1/1 | DyslaliaDysphagia | Amyloidosis in the tongue | – | – | No |
Lambertenghi et al.12 | Case series | 193/10 | PainParesthesia | Swelling in the mandible (2 cases) | Multiple lytic(9 cases)Single (1 case)Diffuse (8 cases) | Skull radiographLateral skull tomogram | No |
Tamir et al.13 | Case report | 3/3 | None | Swelling in the mandibleAmyloidosis | Multiple lytic | Panoramic radiographCT | Yes |
Reinish et al.37 | Case report | 1/1 | DysphagiaPainXerostomia | Amyloidosis | – | – | Yes |
Furutani et al.14 | Case series | 38/5 | Pain | Pathological fracture in the mandible (1 case) | Multiple lytic (4 cases) single (1 case) | Skull and panoramic radiographs | No |
Lee et al.5 | Case report | 2/2 | PainParesthesia in the lower lip | Bleeding gumTooth mobility | Multiple lyticPunch-out | Panoramic radiograph | Yes |
Witt et al.7 | Case series | 77/12 | Paresthesia in the mandible | Bleeding gum | Single lytic (1 case) multiple (11 cases) | Skull, panoramic and periapical radiographs | No |
Gray et al.31 | Case report | 1/1 | PainParesthesia | Swelling in the left maxilla | Single lytic | Panoramic and periapical radiographs | No |
Ho et al.15 | Case report | 1/1 | None | Swelling in the mandible | Single lytic | CT | No |
Mozaffari et al.16 | Case report | 1/1 | None | SwellingGum bleeding | Multiple lyticPunch-out | Skull and panoramic radiographs | Yes |
Anacak et al.17 | Case report | 1/1 | None | Swelling in the mandible | Single lyticRoot resorption | Panoramic radiograph | No |
Lae et al.18 | Case series | 12/12 | None | SwellingPathological fracture amyloidosis | Multiple lytic | Panoramic radiograph | No |
Vucicevic-Boras et al.43 | Case report | 1/1 | None | Candidiasis | – | – | Yes |
Baykul et al.19 | Case report | 1/1 | Paresthesia in the mandible | None | Multiple diffuse lytic punch-out | Panoramic and periapical radiographCT | Yes |
Owotadeet al.20 | Case series | 30/3 | None | Bleeding gumSwelling (3 cases) | Multiple lytic | CT | No |
Pinto et al.21 | Case report | 1/1 | Pain | Swelling in the maxilla bleeding gum | Single lytic | Periapical radiograph | Yes |
Segundo et al.22 | Case report | 1/1 | Paresthesia in the lower lip | Swelling | Multiple lytic | Panoramic radiographCT | Yes |
Talamo et al.6 | Case series | 170/1 | None | Amyloidosis in the tongue | – | – | No |
Shah et al.22 | Case report | 1/1 | None | Swelling in the maxilla tooth mobility | Single lytic | Panoramic radiograph | Yes |
Ghosh et al.24 | Case report | 1/1 | None | Swelling | Lytic | Skull and panoramic radiographs | Yes |
Vinayachandran and Sankarapandian25 | Case report | 1/1 | None | Swelling | Single lytic | Occlusal and panoramic radiographCT | Yes |
Cardoso et al.26 | Case series | 5/5 | PainDisphagiaParesthesiaLip anesthesia | Swelling | Multiple lytic (1 case)Single (4 cases) | Panoramic, CBCT, periapical radiographs and MRI | No |
Troeltzsch et al.27 | Case report | 1/1 | None | Tooth mobility in the mandible | Single lyticRoot resorption | Non specified | No |
Zhao et al.6 | Case report | 1/1 | Pain | Ulcerated lesionSwellingTrismus | Single lytic | CTMRI | Yes |
Ramaiah et al.1 | Case report | 1/1 | Pain | Swelling in the maxilla tooth mobility | Punch-out | Panoramic radiographCT | Yes |
Jain et al.4 | Case report | 1/1 | None | Gingival swelling and tooth mobility | None | Skull radiograph | Yes |
Kasamatsu et al.33 | Case report | 1/1 | None | Swelling in the maxillaTooth mobility | Single lytic with resorption of the floor of the maxillarySinus | Panoramic radiograph CT MRI | Yes |
Sreeja et al.32 | Case report | 1/1 | Pain | Swelling in the mandibleAmyloidosis | Multiple lesionspunch-out | Skull radiograph | No |
Fregnani et al.34 | Case report | 1/1 | TrismusParesthesia | Swelling in the mandible | Single lytic in the right mandibular ramus | Panoramic radiograph | Yes |
The majority of the patients (n=73–90.1%) exhibited bone lesions in the imaging exams of the jaws. From these, 53 cases were associated with clinical swelling. Table 1 shows the type of image used in each study and the reported findings. The typical pattern of reported lesions were plasmacytomas in 65 cases (80.2%) and “punched-out” lesions in eight cases (9.8%).
DiscussionThe present study is a literature review focused on the oral manifestations of patients with MM with swelling being the most common. Osteolytic lesions of plasmacytomas were the most frequently reported radiographic signs of MM of the jaws.
Bone lesions are important features in the diagnosis of MM, and the most common radiographic manifestation (90.1%) reported in the papers that make up this review. Osteolytic bone lesions are the hallmark of MM and occur in the bone marrow microenvironment due to an interaction between tumor cells and stromal cells mainly related to an imbalance between osteoclasts, osteoblasts and soluble factors such as cytokines (e.g. interleukin 6), the receptor activator of NF-B ligand (RANKL) and its antagonist osteoprotegerin (OPG).29 Recent data support the pathogenesis of MM lytic lesions as the result of increased cellular osteoclast activity (in number and function), and also the inhibition of new bone formation by the lack of osteoblast activity.29
The majority of the studies reported bone lesions represented by plasmacytomas, but there were reports of “punched-out” lesions in seven cases.1,5,9,11,16,19 The bone lesions were more frequently reported in the mandible than in the maxilla, even though there is less hematopoietic bone marrow in the mandible.1 These lesions were associated to bone pain in almost half of the reported cases. Many other conditions may result in complaints of bone pain, such as osteomyelitis, osteoporosis, osteochondroma and bone metastasis of solid organ neoplasms. In the jaws, the most common cause for pain in the general population is odontogenic infection and thus, the differential diagnosis with this condition is of extreme importance. Moreover, oral pain, root resorption, and tooth mobility are conditions that may be eventually observed in association with other important bone diseases of the jaws.30
Panoramic radiography is the imaging exam used in most of the papers included in this review, but other imaging exams such as computed tomography, intraoral radiographs, conventional craniofacial radiographs and magnetic resonance imaging were also reported. The panoramic radiograph is a common method for screening bone alterations of the jaws, but computed tomography has some advantages over radiographic examinations because of its tri-dimensional aspect and more accurate differentiation of tissue types, without superimposed overlying anatomy and no secondary and diffuse radiation degradation.
Most of the reported bone lesions were associated to clinical sweeling,1,8,9,12,13,15–26,31–34 which may be explained by tumor expansion with neoplastic plasma cell activity in the bone.15 It may be assumed that swelling is a late stage of jaw lesions, after the tumor has expanded. Since more cone beam computed tomography images are being performed for dental treatment nowadays, it is possible that early lesions of MM will be detected.
Hemorrhagic episodes are observed in 15–30% of MM patients.35 In the present review, bleeding gums were reported in nearly 10% of the reported cases. Thrombocytopenia can cause major bleeding, but there may also be local causes for bleeding such as periodontal disease.
MM is a hematologic malignancy characterized by the proliferation of clonal plasma cells in the bone marrow and secretion of a monoclonal protein (M-ptn) in the serum and/or urine.4 Commonly, tumoral cells secrete intact monoclonal immunoglobulin (heavy and light chains) with the most common isotypes involved in MM being immunoglobulin (Ig)G, IgA and light chains kappa or lambda.7 Besides myeloma, other monoclonal gammopathies and intermediary pre-malignant states, such as MGUS, smoldering myeloma (SMM), light chain amyloidosis and Waldenstrom macroglobulinemia, represent distinct entities with diagnostic criteria defined by the International Myeloma Working Group (IMWG).2 The most prevalent of the gammopathies is MGUS, affecting about 3% of the over 50-year-old population. In spite of this, long-term follow up studies have shown that only one-third of the patients will progress to MM, amyloidosis, Waldenstrom macroglobulinemia or other lymphoproliferative disorders in 30 years.36
Primary amyloidosis is a distinct entity characterized by a fibrillar ultrastructure deposit in target tissues (e.g. heart, kidney, nerves, liver, mucosa and gut) which may represent a single entity or, in nearly 10% of the cases, it may be part of a syndrome, overlapping MM.1 Oral manifestations have been reported to affect one third of the patients with amyloidosis.3 In the cases reported by the studies of this review, amyloidosis was present in 11.1% of the MM cases. When an amyloid deposit is in the tongue it may result in macroglossia.37 The enlarged tongue caused by amyloid deposits may put pressure on the teeth, resulting in indentations on the borders of the tongue and open bite marks. If the tongue becomes too big to fit inside the mouth, it may become dehydrated, and present ulcerations with secondary infection. In cases of severe macroglossia, airway obstruction may occur.30 Neurological complications may also occur due to amyloid infiltration of the nerves.37–39
Most of the oral conditions found in patients with MM are not specific, so the differential diagnosis with other oral conditions and with manifestations of systemic diseases is important. Other oral conditions that have been reported in these patients are less frequently described and may not be directly associated to MM. Once the diagnoses of oral lesions are clarified, patients are referred to the proper specialist for further investigation and management of the condition.
In many studies, oral conditions were the first detected sign of MM.1,4–6,13,14,16,19,21–25,33,34,40–43 In others studies, oral manifestations of MM were detected during the patient's follow up and dentists were able to participate in the diagnosis of the oral condition.3,7,10,11,17,18,20,26,27,31,32,37,44,45 These patients need to be followed by a multidisciplinary team, who may improve their quality of life. Besides contributing to the diagnosis, dentists in the team need to take care of the dental health to prevent further complications, especially in patients who are candidates for antiresorptive therapy.
Some limitations were found during the review process. After applying study criteria, there were only case reports and case series in this review. Thus the incidence and prevalence of the oral manifestation could not be estimated. The absence of longitudinal and epidemiological studies on oral features of MM hampers the development of a meta-analysis. Future cross-sectional and longitudinal studies should be carried out to observe the prevalence and incidence of oral manifestations of MM, as well as the relationship of these findings with the prognosis of the condition.
The second limitation of this study is related to the imaging exams. Imaging was poorly described in many studies, and no description was available in some. Another difficulty was to compare the different types of imaging exams used, as recent studies used computed tomography scans, while in the past only radiographic examinations were used.
MM develops mainly in individuals aged 50–80 years.21 Thus, it is important that dentists are aware of clinical and imaging changes suggestive of MM lesions in patients of this age group. Dentists should be encouraged to detect oral manifestations of MM in routine examinations early. In this way, they will be contributing to increased survival and better prognosis.5
ConclusionsSwelling was the most common oral manifestation of MM and osteolytic lesions of the jaws were the most common radiographic sign. Dentists should be aware of the clinical and imaging signs of MM in the jaws, so that early diagnosis of oral lesions can be reached and patients referred for treatment.
This research was supported by Fundação de Amparo à Pesquisa do Estado do Rio de Janeiro (FAPERJ) JCNE E-26/103.046/2012, grants to Dr. Sandra R. Torres.