Book contents
- Modern Soft Tissue Pathology
- Modern Soft Tissue Pathology
- Copyright page
- Contents
- Contributors
- Preface and Acknowledgements
- Chapter 1 Overview of soft tissue tumors
- Chapter 2 Radiologic evaluation of soft tissue tumors
- Chapter 3 Immunohistochemistry of soft tissue tumors
- Chapter 4 Genetics of soft tissue tumors
- Chapter 5 Molecular genetics of soft tissue tumors
- Chapter 6 Fibroblast biology, fasciitis, retroperitoneal fibrosis, and keloids
- Chapter 7 Fibromas and benign fibrous histiocytomas
- Chapter 8 Fibromatoses
- Chapter 9 Benign fibroblastic and myofibroblastic proliferations in children
- Chapter 10 Childhood fibroblastic and myofibroblastic proliferations of variable biologic potential
- Chapter 11 Myxomas and ossifying fibromyxoid tumor
- Chapter 12 Solitary fibrous tumor, hemangiopericytoma, and related tumors
- Chapter 13 Fibroblastic and myofibroblastic neoplasms with malignant potential
- Chapter 14 Lipoma variants and conditions simulating lipomatous tumors
- Chapter 15 Atypical lipomatous tumors and liposarcomas
- Chapter 16 Smooth muscle tumors
- Chapter 17 Gastrointestinal stromal tumor (GIST)
- Chapter 18 Stromal tumors and tumor-like lesions of the female genital tract
- Chapter 19 Angiomyolipoma and other perivascular epithelioid cell tumors (PEComas)
- Chapter 20 Rhabdomyomas and rhabdomyosarcomas
- Chapter 21 Hemangiomas, lymphangiomas, and reactive vascular proliferations
- Chapter 22 Hemangioendotheliomas, angiosarcomas, and Kaposi’s sarcoma
- Chapter 23 Glomus tumor, glomangiopericytoma, myopericytoma, and juxtaglomerular tumor
- Chapter 24 Nerve sheath tumors
- Chapter 25 Neuroectodermal tumors: melanocytic, glial, and meningeal neoplasms
- Chapter 26 Paragangliomas
- Chapter 27 Primary soft tissue tumors with epithelial differentiation
- Chapter 28 Malignant mesothelioma and other mesothelial proliferations
- Chapter 29 Merkel cell carcinoma and metastatic and sarcomatoid carcinomas involving soft tissue
- Chapter 30 Cartilage- and bone-forming tumors
- Chapter 31 Small round cell tumors
- Chapter 32 Alveolar soft part sarcoma
- Chapter 33 Pathology of synovia and tendons
- Chapter 34 Miscellaneous tumor-like lesions, and histiocytic and foreign body reactions
- Chapter 35 Lymphoid, myeloid, histiocytic, and dendritic cell proliferations in soft tissues
- Chapter 36 Cytology of soft tissue lesions
- Chapter 37 Surgical management of soft tissue sarcoma: histologic type and grade guide surgical planning and integration of multimodality therapy
- Chapter 38 Medical oncology of soft tissue sarcomas
- Index
- References
Chapter 6 - Fibroblast biology, fasciitis, retroperitoneal fibrosis, and keloids
Published online by Cambridge University Press: 19 October 2016
Edited by
Book contents
- Modern Soft Tissue Pathology
- Modern Soft Tissue Pathology
- Copyright page
- Contents
- Contributors
- Preface and Acknowledgements
- Chapter 1 Overview of soft tissue tumors
- Chapter 2 Radiologic evaluation of soft tissue tumors
- Chapter 3 Immunohistochemistry of soft tissue tumors
- Chapter 4 Genetics of soft tissue tumors
- Chapter 5 Molecular genetics of soft tissue tumors
- Chapter 6 Fibroblast biology, fasciitis, retroperitoneal fibrosis, and keloids
- Chapter 7 Fibromas and benign fibrous histiocytomas
- Chapter 8 Fibromatoses
- Chapter 9 Benign fibroblastic and myofibroblastic proliferations in children
- Chapter 10 Childhood fibroblastic and myofibroblastic proliferations of variable biologic potential
- Chapter 11 Myxomas and ossifying fibromyxoid tumor
- Chapter 12 Solitary fibrous tumor, hemangiopericytoma, and related tumors
- Chapter 13 Fibroblastic and myofibroblastic neoplasms with malignant potential
- Chapter 14 Lipoma variants and conditions simulating lipomatous tumors
- Chapter 15 Atypical lipomatous tumors and liposarcomas
- Chapter 16 Smooth muscle tumors
- Chapter 17 Gastrointestinal stromal tumor (GIST)
- Chapter 18 Stromal tumors and tumor-like lesions of the female genital tract
- Chapter 19 Angiomyolipoma and other perivascular epithelioid cell tumors (PEComas)
- Chapter 20 Rhabdomyomas and rhabdomyosarcomas
- Chapter 21 Hemangiomas, lymphangiomas, and reactive vascular proliferations
- Chapter 22 Hemangioendotheliomas, angiosarcomas, and Kaposi’s sarcoma
- Chapter 23 Glomus tumor, glomangiopericytoma, myopericytoma, and juxtaglomerular tumor
- Chapter 24 Nerve sheath tumors
- Chapter 25 Neuroectodermal tumors: melanocytic, glial, and meningeal neoplasms
- Chapter 26 Paragangliomas
- Chapter 27 Primary soft tissue tumors with epithelial differentiation
- Chapter 28 Malignant mesothelioma and other mesothelial proliferations
- Chapter 29 Merkel cell carcinoma and metastatic and sarcomatoid carcinomas involving soft tissue
- Chapter 30 Cartilage- and bone-forming tumors
- Chapter 31 Small round cell tumors
- Chapter 32 Alveolar soft part sarcoma
- Chapter 33 Pathology of synovia and tendons
- Chapter 34 Miscellaneous tumor-like lesions, and histiocytic and foreign body reactions
- Chapter 35 Lymphoid, myeloid, histiocytic, and dendritic cell proliferations in soft tissues
- Chapter 36 Cytology of soft tissue lesions
- Chapter 37 Surgical management of soft tissue sarcoma: histologic type and grade guide surgical planning and integration of multimodality therapy
- Chapter 38 Medical oncology of soft tissue sarcomas
- Index
- References
- Type
- Chapter
- Information
- Modern Soft Tissue PathologyTumors and Non-Neoplastic Conditions, pp. 181 - 203Publisher: Cambridge University PressPrint publication year: 2016
References
Primary Sources
McKeehan, WL, Wang, F, Kan, M. The heparan sulfate-fibroblast growth factor family: diversity of structure and function. Prog Nucleic Acid Res Mol Biol 1998;59:135–176.Google Scholar
Eckes, B, Kessler, D, Aumailley, M, Krieg, T. Interactions of fibroblasts with the extracellular matrix: implications for the understanding of fibrosis. Springer Semin Immunopathol 1999;21:415–429.Google Scholar
Schurch, W, Seemayer, TA, Gabbiani, G. The myofibroblast: a quarter century after its discovery. Am J Surg Pathol 1998;22:141–147.CrossRefGoogle ScholarPubMed
Skalli, O, Schurch, W, Seemayer, T, et al. Myofibroblasts from diverse pathologic settings are heterogeneous in their content of actin isoforms and intermediate filament proteins. Lab Invest 1989;60:275–285.Google Scholar
Nickoloff, BJ. CD34. The human progenitor cell antigen (CD34) is localized on endothelial cells, dermal dendritic cells, and perifollicular cells in formalin-fixed normal skin, and on proliferating endothelial cells and stromal spindle-shaped cells in Kaposi’s sarcoma. Arch Dermatol 1991;127:523–529.CrossRefGoogle ScholarPubMed
Burgeson, RE, Nimni, ME. Collagen types: Molecular structure and tissue distribution. Clin Orthop Relat Res 1992;282:250–272.CrossRefGoogle Scholar
Shaw, LM, Oslen, BR. FACIT collagens: diverse molecular bridges in extracellular matrices. Trends Biochem Sci 1991;16:191–194.Google Scholar
Kuivaniemi, H, Tromp, G, Prockop, DJ. Mutations in fibrillar collagens (types I, II, III, and XI), fibril-associated collagen (type IX), and network-forming collagen (type X) cause a spectrum of diseases of bone, cartilage, and blood vessels. Hum Mutat 1997;9:300–315.3.0.CO;2-9>CrossRefGoogle Scholar
Eswarakumar, VP, Lax, I, Schlesinger, J. Cellular signaling by fibroblast growth factor receptors. Cytokine Growth Factor Rev 2005;16:139–149.Google Scholar
Secondary Sources
Konwaler, BE, Keasbey, L, Kaplan, L. Subcutaneous pseudosarcomatous fibromatosis (fasciitis). Am J Clin Pathol 1955;25:241–252.Google Scholar
Culberson, JD, Enterline, HT. Pseudosarcomatous fasciitis: a distinctive clinical-pathologic entity: report of five cases. Ann Surg 1960;151:235–240.CrossRefGoogle ScholarPubMed
Price, EB Jr, Silliphant, WM, Shuman, R. Nodular fasciitis: a clinicopathologic analysis of 65 cases. Am J Clin Pathol 1961;35:122–136.Google Scholar
Dahl, I, Jarlstedt, J. Nodular fasciitis in the head and neck: a clinicopathological study on 18 cases. Acta Otolaryngol 1980;90:152–159.CrossRefGoogle Scholar
Bernstein, KE, Lattes, R. Nodular (pseudosarcomatous) fasciitis, a nonrecurrent lesion: clinicopathologic study of 134 cases. Cancer 1982;49:1668–1678.Google Scholar
Shimizu, S, Hashimoto, H, Enjoji, M. Nodular fasciitis: an analysis of 250 patients. Pathology 1984;16:161–166.CrossRefGoogle ScholarPubMed
Kwittken, J, Branche, M. Fasciitis ossificans. Am J Clin Pathol 1969;51:251–255.CrossRefGoogle ScholarPubMed
Wirman, JA. Nodular fasciitis, a lesion of myofibroblasts: an ultrastructural study. Cancer 1976;38:2378–2389.Google Scholar
Montgomery, EA, Meis, JM. Nodular fasciitis: its morphologic spectrum and immunohistochemical profile. Am J Surg Pathol 1991;15:942–948.Google Scholar
Perez-Montiel, MD, Plaza, JA, Dominguez-Malagon, H, Suster, S. Differential expression of smooth muscle myosin, smooth muscle actin, h-caldesmon, and calponin in the diagnosis of myofibroblastic and smooth muscle lesions of skin and soft tissue. Am J Dermatopathol 2006;28:105–111.Google Scholar
Chan, JK, Carcangiu, ML, Rosai, J. Papillary carcinoma of thyroid with exuberant nodular fasciitis-like stroma: report of three cases. Am J Clin Pathol 1991;95:309–314.CrossRefGoogle ScholarPubMed
Erickson-Johnson, MR, Chou, MM, Evers, BR, et al. Nodular fasciitis: a novel model of transient neoplasia induced by MYH9-USP6 gene fusion. Lab Invest 2011;91:1427–1433.Google Scholar
Sawyer, JR, Sammartino, G, Baker, GF, Bell, JM. Clonal chromosome aberrations in a case of nodular fasciitis. Cancer Genet Cytogenet 1994;76:154–156.Google Scholar
Weibolt, VM, Buresh, CJ, Roberts, CA, et al. Involvement of 3q21 in nodular fasciitis. Cancer Genet Gytogenet 1998;106:177–179.Google Scholar
Donner, LR, Silva, T, Dobin, SM. Clonal rearrangement of 15p11.2, 16p11.2, 16p13.3 in a case of nodular fasctiitis: additional evidence favoring nodular fasciitis as a benign neoplasm and not a reactive tumefaction. Cancer Genet Cytogenet 2002;139:138–140.Google Scholar
Velagaleti, GV, Tapper, JK, Panova, NE, Miettinen, M, Gatalica, Z. Cytogenetic findings in a case of nodular fasciitis of subclavicular region. Cancer Genet Cytogenet 2003;141:160–163.CrossRefGoogle Scholar
Patchefsky, AS, Enzinger, FM. Intravascular fasciitis: a report of 17 cases. Am J Surg Pathol 1981;5:29–36.Google Scholar
Fetsch, JF, Brinsko, RW, Davis, CJ, Mostofi, FK, Sesterhenn, IA. A distinctive myointimal proliferation (“myointimoma”) involving the corpus spongiosum of the glans penis: a clinicopathologic and immunohistochemical analysis of 10 cases. Am J Surg Pathol 2000;24:1524–1530.Google Scholar
McKenney, JK, Collins, MH, Carretero, AP, et al. Penile myointimoma in children and adolescents: a clinicopathologic study of 5 cases supporting a distinct entity. Am J Surg Pathol 2007;31:1622–1626.CrossRefGoogle ScholarPubMed
Kern, WH. Proliferative myositis: a pseudosarcomatous reaction to injury. Arch Pathol 1960;69:209–216.Google Scholar
Enzinger, FM, Dulcey, F. Proliferative myositis: report of 33 cases. Cancer 1967;20:2213–2223.Google Scholar
Kitano, M, Iwasaki, H, Enjoji, M. Proliferative fasciitis: a variant of nodular fasciitis. Acta Pathol Jpn 1977;27:485–493.Google Scholar
Meis, JM, Enzinger, FM. Proliferative fasciitis and myositis in childhood. Am J Surg Pathol 1992;16:364–372.CrossRefGoogle Scholar
Barak, S, Wang, Z, Miettinen, M. Imunoreactivity for calretinin and keratins in desmoid fibromatosis and other myofibroblastic tumors: a diagnostic pitfall. Am J Surg Pathol 2012;36:1404–1409.Google Scholar
Lundgren, L, Kindblom, LG, Willems, J, Falkmer, U, Angervall, L. Proliferative myositis and fasciitis: a light and electron microscopic, cytologic, DNA-cytometric and immunohistochemical study. APMIS 1992;100:437–448.Google Scholar
Rose, AG. An electron microscopic study of the giant cells in proliferative myositis. Cancer 1974;33:1543–1547.3.0.CO;2-3>CrossRefGoogle ScholarPubMed
Dembinski, A, Bridge, JA, Neff, JR, Berger, C, Sandberg, AA. Trisomy 2 in proliferative fasciitis. Cancer Genet Cytogenet 1992;60:27–30.Google Scholar
McComb, EN, Neff, JR, Johansson, SL, Nelon, M, Bridge, JA. Chromosomal anomalies in a case of proliferative myositis. Cancer Genet Cytogenet 1997;98:142–144.Google Scholar
Montgomery, EA, Meis, JM, Mitchell, MS, Enzinger, FM. Atypical decubital fibroplasia: a distinctive fibroblastic pseudotumor occurring in debilitated patients. Am J Surg Pathol 1992;16:708–715.Google Scholar
Perosio, PM, Weiss, SW. Ischemic fasciitis: a juxtaskeletal fibroblastic proliferation with a predilection for elderly patients. Mod Pathol 1993;6:69–72.Google ScholarPubMed
Yamamoto, M, Ishida, T, Machinami, R. Atypical decubital fibroplasia in a young patient with melorheostosis. Pathol Int 198; 48:160–163.Google Scholar
Shulman, LE. Diffuse fasciitis with eosinophilia: a new syndrome? Trans Am Assoc Physicians 1975;88:70–86.Google ScholarPubMed
Barnes, L, Rodnan, GP, Medsker, TA, Short, D. Eosinophilic fasciitis: a pathologic study of twenty cases. Am J Pathol 1979;96:493–517.Google Scholar
Shulman, LE. Diffuse fasciitis with hypergammaglobulinemia and eosinophilia: a new syndrome. J Rheumatol 1984;11:569–570.Google Scholar
Varga, J, Kahari, VM. Eosinophilia-myalgia syndrome, eosinophilic fasciitis, and related fibrosing disorders. Curr Opin Rheumatol 1997;9:562–570.Google Scholar
Young, MH, Aronoff, DM, Engleberg, NC. Necrotizing fasciitis: pathogenesis and treatment. Expert Rev Anti Infect Ther 2005;3:279–294.Google Scholar
Mitchinson, MJ. Retroperitoneal fibrosis revisited. Arch Pathol Lab Med 1986;110:784–786.Google Scholar
Gilkeson, GL, Allen, NB. Retroperitoneal fibrosis: a true connective tissue disease. Rheum Dis Clin North Am 1996;22:23–38.Google Scholar
Miller, OF, Smith, LJ, Ferrara, EX, McAleer, IM, Kaplan, GW. Presentation of idiopathic retroperitoneal fibrosis in the pediatric population. J Pediatr Surg 2003;38:1685–1688.Google Scholar
Flieder, DB, Suster, S, Moran, CA. Idiopathic fibroinflammatory (fibrosing/sclerosing) lesions of the mediastinum: a study of 30 cases with emphasis on morphologic heterogeneity. Mod Pathol 1999;12:257–264.Google Scholar
Dehner, LP, Coffin, CM. Idiopathic fibrosclerotic disorders and other inflammatory pseudotumors. Semin Diagn Pathol 1998;15:161–173.Google Scholar
Hughes, D, Buckley, PJ. Idiopathic retroperitoneal fibrosis is a macrophage-rich process. Implications for its pathogenesis and treatment. Am J Surg Pathol 1993;17:482–490.Google Scholar
Yachoui, R, Sehgal, R, Carmichael, B. Idiopathic retroperitoneal fibrosis: clinicopathologic features and outcome analysis. Clin Rheumatol 2016;35: 401–407.CrossRefGoogle ScholarPubMed
Niessen, FB, Spauwen, PH, Shalkwijk J, Kon M. On the nature of hypertrophic scars and keloids: a review. Plast Reconstr Surg 1999;104:1435–1458.Google Scholar
Tuan, TL, Nichter, LS. The molecular basis of keloid and hypertrophic scar formation. Mol Med Today 1998;4:19–24.Google Scholar