|Year : 2019 | Volume
| Issue : 1 | Page : 3-7
Heterogeneous conceptualization of etiopathogenesis: Oral pyogenic granuloma
Supriya Sharma1, Shaleen Chandra1, Shalini Gupta1, Saurabh Srivastava2
1 Department of Oral Pathology and Microbiology, Faculty of Dental Sciences, King George's Medical University, Greater Noida, Uttar Pradesh, India
2 Department of Pharmacy School of Medical and Allied Sciences, Galgotias University, Greater Noida, Uttar Pradesh, India
|Date of Submission||28-Jun-2018|
|Date of Acceptance||28-Jun-2018|
|Date of Web Publication||07-Jun-2019|
Dr. Supriya Sharma
Department of Oral Pathology and Microbiology, Faculty of Dental Sciences, King George's Medical University, Lucknow, Uttar Pradesh
Source of Support: None, Conflict of Interest: None
| Abstract|| |
Oral pyogenic granuloma or granuloma pyogenicum is a conspicuous lesion. The word pyogenic granuloma is a misterm since the situation is not related with pus and histologically does not exemplify a granuloma. An oral pyogenic granuloma is obvious to involve the gingiva generally. Extragingivally, it can present on the buccal mucosa, lips, tongue, and palate. A report of trauma is prevalent in such sites. The pathogenesis of the lesion is still unclear, although it was initially supposed to be a botryomycosis infection. It is suggested that etiology of pyogenic granuloma was the reaction of tissues to minor injury or chronic irritation, thus open a pathway for the entrance of nonspecific microorganisms, although microorganisms are not often expressed within the lesion. Hence, this review recapitulates all diverse concepts of pathogenesis associated with this most often and most mysterious lesion of the oral cavity.
Keywords: Etiopathogenesis, oral cavity, oral pyogenic granuloma, pathology
|How to cite this article:|
Sharma S, Chandra S, Gupta S, Srivastava S. Heterogeneous conceptualization of etiopathogenesis: Oral pyogenic granuloma. Natl J Maxillofac Surg 2019;10:3-7
|How to cite this URL:|
Sharma S, Chandra S, Gupta S, Srivastava S. Heterogeneous conceptualization of etiopathogenesis: Oral pyogenic granuloma. Natl J Maxillofac Surg [serial online] 2019 [cited 2020 Jan 29];10:3-7. Available from: http://www.njms.in/text.asp?2019/10/1/3/259836
| Introduction|| |
Pyogenic granuloma or granuloma pyogenicum is benign, soft, usually solitary, the nonneoplastic vascular proliferation of the skin and oral cavity. Pyogenic granuloma has been pertaining by a diversity of another name such as granuloma pediculatum benignum, pregnancy tumor, vascular epulis, and Crocker and Hartzell's disease. The present name was given by Crocker in 1903. The term “pyogenic granuloma” or “granuloma pyogenicum” stated by Hartzell in 1904.
It is a kind of hyperplasia which commonly present in the mouth; histologically, the proliferation of granulation tissue with inflammatory infiltrate chiefly lymphocytes and significant angiogenic capacity; for this basis, the new formation of a vascular channel of different measurement are ordinarily present, these developments show instantaneous inception and completion inside the tissue. From the histological standpoint, this lesion classified into two groups: capillary lobular hemangioma when the organization of capillary vessels is present into granulomatous tissue lobes enveloped by a thin bands of collagen, such development is called as capillary lobular hemangioma, whereas when the formation of vascular channels is intervolved in the tissue without evident order, called as an lobular capillary hemangioma.
| Epidemiology|| |
Some authors observed higher pervasiveness in females (1:1.5) and the existence of local etiologic factors in 16% of complete cases. It is mostly present in the gums (75% of all cases).
| Etiopathogenesis|| |
Certain authors considered pyogenic granuloma as an “infectious” establishment. Kerr has suggested botryomycosis, staphylococci, foreign particles, and accumulation of infection inlining of the blood vessel as conducive factors in the advancement of the lesion. The bacterial stains have indicated the immediacy of Gram-positive and Gram-negative bacilli in the lesion reported by Bhaskar and Jacoway. However, they also suggested that this microorganism may have been contaminants from oral microflora as they were more common in ulcerated than in nonulcerated lesions and mostly near the surface than in deeper aspects.
As reported by Shafer et al., oral pyogenic granuloma appears as a consequence of infection by either bacteria streptococcus or staphylococci, relatively because it was depicted that these microorganisms could develop colonies with the fungus-like diagnostic. They also observed that the lesion could arise as a reaction of some minor trauma to the tissues that impart a pathway for the intrusion of nonspecific varieties of microorganisms. The characteristic tissues response takes place to these organisms of low virulence with the passionate proliferation of a vascular kind of connective tissue. They also explained that any irritant actionable to the living tissue may exploit either as a stimulus or destructive agent or combination of both.
The assiduousness of the stimulating substance will be high, and development will be stimulated if numerous cells are present in a minor volume of tissue and there is a relative depletion of blood flow through the area as in inflammation. As maturation and differentiation are accomplished, the cells become broadly separated, and the concentration of the substance reduces, and compact growth occurs. In this kind of inflammatory reaction, that results in the establishment of oral pyogenic granuloma, destruction of cells of fixed tissue is little, but the impetus to the proliferation of vascular endothelium persists and employs its effect over a long period. Reichart and Philipsen reported that the granulation tissue of oral pyogenic granuloma may become perverted by oral microflora and its surface may frequently become covered by fibrin which may resemble pus. However, quiet suppuration is not attributed feature of oral pyogenic granuloma to assist infectious origin.
Few investigators examined pyogenic granuloma appears as a “reactive” or “reparative” tumor process. Regezi et al. stated that pyogenic granuloma an exuberant proliferation of connective tissue to a notable stimulus or injury like foreign particles or calculus within the gingival crevice. Various “etiologic factors” such as trauma, chronic irritation, drugs, hormones, gingivitis, chronic irritation related with exfoliation of deciduous teeth, eruption of permanent teeth, faulty filling, food impaction, complete periodontitis, and trauma due to a toothbrush have been proposed as etiological factors where patients dispensed with these findings.
Murata et al. reviewed in their study that after any kind of trauma, the essential to wound healing is the development of granulation tissue and this incorporates the emigration of inflammatory cells, exodus, and proliferation of vascular endothelial cells and fibroblasts cells and formation of extracellular matrix. The processes of wound healing appear to be controlled by diverse kinds of cytokines. The role of growth factors, extremely basic fibroblast growth factor (bFGF)-a heparin-binding angiogenic protein, has been established to be particularly mitogenic for cells of capillary endothelium and induces angiogenesis. They observed an immunolocalization of bFGF in oral pyogenic granuloma and gingiva at its different stages of progression. They stated that extreme quantity of bFGF is produced and released from some mast cells and defence cells such as macrophages into the extracellular matrix during neovascularization of the granulation tissue. Trauma has also been incriminating in an etiopathogenesis of numerous and planetoid oral pyogenic granuloma, although obvious etiopathogenesis that whether it arises after treatment or de novo, is not distinctly apprehend.
There are various theories contemplated, Ainamo reported that the tumor cells release various endogenous substances along with angiogenic factor due to trauma and it often also result in distraction in the vascular system of the ostentatious area. Some authors have suggested that habit of tooth brushing often also be contemplated as a remarkable cause of irritation and microtrauma to the gingival as there is a site preference for labial gingiva in the front region of the oral vestibule. Yung, Richardson, and Kratochvil stated the role of a hormone associated with pregnancy tumor that present in the pregnant women also emerges from the gingiva and has similar microscopic features.
Hosseini et al. stated that the gingiva may be accreted during pregnancy and often atrophy during menopause clinically. They also observed that gingiva can be proposed as another “target organ” for the direct action of estrogen and progesterone hormone. Whitaker et al. in their study reported that the quantity of progesterone and estrogen receptors is not the regulating factor in its pathogenesis of. Preferably, such a role could be assigned to the elevation of circulating hormones. The quantity of progesterone and estrogen are remarkably increased in pregnancy and could consequently employ a greater impact on the endothelium of this lesion. Ojanotak-Harri et al. stated that it has been shown that pregnancy inhibits the migration of inflammatory cells and fibroblasts.
It has been shown that pregnancy modulates both the metabolism of progesterone and also effect relocation of inflammatory cells within the tissue. The standard level of active form of progesterone and “dysfunction” of the inflammatory cells may have a role in the establishment of pregnancy gingivitis and formation of granuloma. The concurrence of the two factors inhibit an acute type of tissue reaction to plaque but permit an enhanced chronic reaction resulting clinically in an overestimated impression of inflammation. Bhaskar and Jacoway reported that pyogenic granuloma mostly occurs in males than females; for this point of view, the role of the hormone may an etiological factor is doubtful.
Histologically, Regezi et al. examined prominent proliferation in hyperplastic granulation tissue suggesting a strong enterprise of angiogenesis. Kuo, Ying, and Ming reported two angiogenesis enhancers, such as vascular endothelial growth factor (VEGF) and bFGF, and two angiogenesis inhibitors, that is, thrombospondin-1 and angiostatin in an implement for angiogenesis. Vascular morphogenesis factors, that are, angiopoietin-1, angiopoietin-2, ephrinB2, and ephrinB4, were upregulated in comparison to healthy gingival. Some investigators have been proved that the significance of bFGF, VEGF, or connective tissue growth factor, especially in angiogenesis related with a profound inflammation.
According to Kelley and Bernard, pyogenic granuloma is a “Benign, Acquired, Vascular, Neoplasm”. Cawson et al. stated pyogenic granuloma as vascular proliferation and do not exemplify a stage in the establishment of fibrous nodules or entirely inflamed fibrous nodules. They observed that like pyogenic granulomas in nonpregnant women, pregnancy tumor may exhibit lowest or no inflammation, but the proliferation of vascular tissue is sometimes very active so as to recommend a neoplasm. However, nature is benign. Davies et al. observed inclusion bodies in the fibroblasts reminiscent of disarranged protein metabolism.
The roles of angiogenic factors in pathogenesis of pyogenic granuloma in pregnancy are regulated by female sex hormones
Histologically, the prominent feature of pyogenic granuloma is angiogenesis within the connective tissue, which has been premeditated a hormone-associated lesion depends on clinical observations. Although inflammatory cytokines and angiogenic factors have been suggested to play roles in the pathogenesis of the lesion, their relationship to steroid hormones of female still remains to be expounded. The process of apoptosis is principal in limiting inflammation; it has been also suggested that steroid hormones could protect granuloma cells from apoptosis and consequently, lead to an overzealous inflammatory response.
In pregnancy, female steroid hormones may have binary effects on the pathogenesis of pyogenic granuloma. In inflamed tissue, the concentration of angiogenic factors increases by hormones with a reduction in apoptosis of granuloma cells to expand angiogenic effect.
| Clinical Features|| |
Oral pyogenic granuloma generally arises in the range of 4.5–93 years with the preeminent incidence in second and fifth decades and females are commonly affected than males.
Extraorally, the most common site was gingiva followed by lips, tongue, buccal mucosa, and hard plate, mucobuccal fold, and frenum. Intraorally, it appears from a sessile lesion to an elevated mass. Pyogenic granulomas mostly are soft in consistency, painless, and deep red to reddish-purple in color.
| Radiographic Features|| |
No significant radiographic features are seen. Although some author observed localized alveolar bone resumption in rare case of enormous long-standing gingival tumors.
| Microscopic Features|| |
The epithelium is parakeratotic or non-keratinized stratified squamous epithelium overlying the connective tissue stroma is seen. The chief bulk is formed by a lobulated or a non-lobulated bundle of angiomatous tissue. The lobulated lesions are imperturbable of solid endothelial proliferation or proliferation of endothelial-lined blood vessels. The quantity of bundle of collagen in the connective tissue of pyogenic granuloma is generally scanty. The surface ulceration can be seen, and in such ulcerated lesions, edema was a principal feature, and the lesion is infiltrated by lymphocytes plasma cells, and neutrophils.
| Immunohistochemical Investigations|| |
Sangueza and Requena et al. in their study observed that pyogenic granuloma lesions manifest antigen positivity related with factor VIII in the endothelial cells lining substantial vessels, but demonstrate negativity in the cellular areas, whereas Ulex europaeus I lectin combines to endothelial cells in both cellular cumulativeness and large vessels. Increased proclamation of the vascular morphogenesis factors such as angiopoietin-1, angiopoietin-2, ephrinB2, and ephrinB4 and bFGF, Tie-2, anti-CD34, and anti-alpha smooth muscle actin antibodies. There is also a manifestation of analytical nitric oxide synthase, an enhanced indication of vascular endothelial growth factor, minimal apoptotic rate declaration of Bax/Bcl-2 proteins, and maximum assertion of phosphorylated mitogen-activated protein kinase. Polymerase chain reaction examinations for human herpesvirus and human papillomavirus have provided negative results.
| Differential Diagnosis|| |
The differential diagnosis of pyogenic granuloma includes fibroma, peripheral odontogenic fibroma, hemangioma, angiomatosis, angiosarcoma, non-Hodgkin's lymphoma conventional granulation tissue, hyperplastic gingival inflammation, peripheral giant cell granuloma, peripheral ossifying fibroma, and Kaposi's sarcoma.,
| Treatment|| |
Surgical excision is the therapeutics of choice. The following surgery of gingival lesions, curettage of underlying tissue is advocated. Clinically, surgical excision should be given with 2 mm margins at its periphery and to a distance inward to the periosteum or the etiologic agent. Any calculus, foreign body, or impaired restoration should be removed as embodied of the excision.
| Recurrence Rate|| |
The recurrence rate is 15.8% after conservative excision reported by Bhaskar and Jacoway. Vilmann et al. stated that the cases of gingiva show a much greater recurrence rate than lesions from other mucosal sites of the oral cavity. The lesion lacks infiltrative or potential of malignancy. According to Sapp et al. pyogenic granuloma have a considerably high rate of recurrence after normal surgical excision. In case of pregnancy, recurrence is common. In extragenital sites recurrence following surgery is uncommon.
| Discussion|| |
In the oral cavity, the pyogenic granuloma is kind of an inflammatory hyperplasia. The histopathological examination should be done properly of all submitted excised lesion to rule out more significant diseases in view of primary or metastatic malignancies may present as pyogenic granulomas. The injection of intralesional corticosteroids for frequently recurrences appears questionable since substantial documentation considering this option is lacking. The laser 15 is very critical, commonly requires no anesthesia, and fabricates excellent cosmetic results. Consequently, laser therapy may provide more assurance in recurrent/multiple lesions but needs further clinical trials. The higher occurrence of pyogenic granuloma in a pregnant woman (Granular gravidarum) permits a thorough examination of the oral cavity.
| Conclusion|| |
Pyogenic granuloma or granuloma pyogenicum is a well-known benign, nonneoplastic vascular lesion of the oral cavity. The maxillary gingival is the most affected site, and in case of pregnancy proper diagnosis, prevention, management, and treatment of the lesion is predominant. Despite various treatment options, recurrence is frequent, and in few cases, re-excision may be compulsory. The adoption of deterrent methods during pregnancy, such as use of soft tissue brush, maintenance of better oral hygiene will reduce the risk of pregnancy tumor. The patient follow-up is important in preventing the recurrence of pyogenic granuloma.
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| References|| |
Kamal R, Dahiya P, Puri A. Oral pyogenic granuloma: Various concepts of etiopathogenesis. J Oral Maxillofac Pathol 2012;16:79-82. [Full text]
Jafarzadeh H, Sanatkhani M, Mohtasham N. Oral pyogenic granuloma: A review. J Oral Sci 2006;48:167-75.
Amirchaghmaghi M, Falaki F, Mohtasham N, Mozafari PM. Extragingival pyogenic granuloma: A case report. Cases J 2008;1:371.
Rosa CG, Lay AC, Torre AC. Oral pyogenic granuloma diagnosis and treatment: A series of cases. Rev Odontol Mex 2017;21:244-52.
Kerr DA. Granuloma pyogenicum. Oral Surg 1951;4:158.
Bhaskar SN, Jacoway JR. Pyogenic granuloma – Clinical features, incidence, histology, and result of treatment: Report of 242 cases. J Oral Surg 1966;24:391-8.
Shafer WG, Hine MK, Levy BM. Shafer's Textbook of Oral Pathology. 5th ed. Amsterdam: Elsevier Health Sciences; 2006. p. 459-61.
Reichart PA, Philipsen HP. Color Atlas of Dental Medicine Oral Pathology. Stuttgart: Thieme; 2000. p. 163.
Regezi JA, Sciubba JJ, Jordan RC. Oral Pathology: Clinical Pathologic Considerations. 4th
ed. Philadelphia: WB Saunders; 2003. p. 115-6.
Murata M, Hara K, Saku T. Dynamic distribution of basic fibroblast growth factor during epulis formation: An immunohistochemical study in an enhanced healing process of the gingiva. J Oral Pathol Med 1997;26:224-32.
Ainamo J. The effect of habitual toothcleansing on the occurrence of periodontal disease and dental caries. Suom Hammaslaak Toim 1971;67:63-70.
Yih WY, Richardson L, Kratochvil FJ, Avera SP, Zieper MB. Expression of estrogen receptors in desquamative gingivitis. J Periodontol 2000;71:482-7.
Hosseini FH, Tirgari F, Shaigan S. Immunohistochemical analysis of estrogen and progesterone receptor expression in gingival lesions. Iran J Public Health 2006;35:38-41.
Whitaker SB, Bouquot JE, Alimario AE, Whitaker TJ Jr. Identification and semiquantification of estrogen and progesterone receptors in pyogenic granulomas of pregnancy. Oral Surg Oral Med Oral Pathol 1994;78:755-60.
Ojanotak-Harri AO, Harri MP, Hurttia HM, Sewon LA. Altered tissue metabolism of progesterone in pregnancy gingivitis and granuloma. J Clin Periodontol 1991;18:262-6.
Yuan K, Jin YT, Lin MT. Expression of tie-2, angiopoietin-1, angiopoietin-2, ephrinB2 and ephB4 in pyogenic granuloma of human gingiva implicates their roles in inflammatory angiogenesis. J Periodontal Res 2000;35:165-71.
Pagliai KA, Cohen BA. Pyogenic granuloma in children. Pediatr Dermatol 2004;21:10-3.
Cawson RA, Binnie WH, Speight PM, Barrett AW, Wright JM. Lucas Pathology of tumors of oral tissues. 5th ed. Missouri: Mosby; 1998. p. 252-4.
Davies MG, Barton SP, Atai F, Marks R. The abnormal dermis in pyogenic granuloma. Histochemical and ultrastructural observations. J Am Acad Dermatol 1980;2:132-42.
Yuan K, Wing LC, Lin MT. Pathogenetic roles of angiogenic factors in pyogenic granulornas in pregnancy are modulated by female sex hormones. J Periodontol 2002;73:701-8.
Sato H, Takeda Y, Satoh M. Expression of the endothelial receptor tyrosine kinase tie2 in lobular capillary hemangioma of the oral mucosa: An immunohistochemical study. J Oral Pathol Med 2002;31:432-8.
Patil K, Mahima VG, Lahari K. Extragingival pyogenic granuloma. Indian J Dent Res 2006;17:199-202.
] [Full text]
Marx RE, Stern D. Oral and Maxillofacial Pathology: A rationale for diagnosis and treatment. Chicago: Quintessence Publishing Co.; 2003. p. 21-3.
Vilmann A, Vilmann P, Vilmann H. Pyogenic granuloma: Evaluation of oral conditions. Br J Oral Maxillofac Surg 1986;24:376-82.
Sapp JP, Eversole LR, Wyoscki GP. Contemporary Oral and Maxillofacial Pathology. 2nd
ed. Missouri: Mosby; 1997. p. 318-22.
Mohapatra S, Arora KS, Negi LS, Chandan PK. Oral pyogenic granuloma: A review. JODA 2014;3:5-9.