Next Article in Journal
Multifocal Osteonecrosis in the Foot and Ankle After Extracorporeal Membrane Oxygenation: A Case Report
Previous Article in Journal
Letter to the Editor
 
 
Search for Articles:
Title / Keyword
Author / Affiliation / Email
Journal
Article Type
 
 
Advanced Search
 
Section
Special Issue
Volume
Issue
Number
Page
 
Journals
JAPMA
Volume 112
Issue 5
10.7547/21-019
japma-logo
Submit to this Journal Review for this Journal Propose a Special Issue
Article Menu

Article Menu

share Share announcement Help format_quote Cite question_answer Discuss in SciProfiles
Journal of the American Podiatric Medical Association is published by MDPI from Volume 116 Issue 1 (2026). Previous articles were published by another publisher in Open Access under a CC-BY (or CC-BY-NC-ND) licence, and they are hosted by MDPI on mdpi.com as a courtesy and upon agreement with American Podiatric Medical Association.
first_page
settings
Order Article Reprints
Font Type:
Arial Georgia Verdana
Font Size:
Aa Aa Aa
Line Spacing:
Column Width:
Background:
Article

A 30-Year-Old Man with an Unusually Large Untreated Plantar Fibrolipoma That Disrupted Ambulation and Required Operative Excision

by
Rock Cjay Positano
1,*,
Michael J. Trepal
2,
Michael Ciaramella
1 and
Rock G. Positano
3,4
1
Hospital for Special Surgery, Non-surgical Foot and Ankle Service, 519 E 72nd St, New York, NY 10021
2
New York College of Podiatric Medicine, New York, NY
3
Non-Surgical Foot and Ankle Service, Joe DiMaggio Heel Pain Center, Hospital for Special Surgery, NY, NY
4
Yale School of Public Health, New Haven CT
*
Author to whom correspondence should be addressed.
J. Am. Podiatr. Med. Assoc. 2022, 112(5), 21019; https://doi.org/10.7547/21-019
Published: 1 September 2022
Browse Figures
Versions Notes

Abstract

A 30-year-old man working as a waiter presented with a progressively enlarging and symptomatic soft-tissue mass on the plantar medial aspect of his left foot. The mass was painful and disrupting ambulation, despite footwear modifications. He ultimately underwent excision of what was a determined to be a fibrolipoma, returning to his regular shoes and all activities. Plantar neoplasms, even when benign, can grow to sizes that can result in significant disability. If left untreated, particularly in individuals engaged in occupations requiring frequent standing or walking, excision of the mass will often require a more aggressive operative approach.

A fibrolipoma is an atypical lipomatous tumor in which adipocyte proliferation is accompanied by extensive fibrous proliferation [1]. Lipomatous lesions account for between 3% and 4% of tumors arising in the foot [2,3], with only 9% of these presenting on the plantar aspect [4]. There have been very few accounts of the fibrolipoma variant within the foot. Documented occurrences have been within the medial longitudinal arch [5,6], the heel [7], and the forefoot [8,9]. Each of these occurrences arose from superficial soft tissues. Superficial lipomatous tumors are typically less than 5 cm in diameter and are generally painless [1]. Some suggest that fibrolipomas arise more frequently in labor-intensive occupations [10,11], citing a proposed etiology of inflammation generated by chronic trauma caused by manual labor [11].
Presented here is the case of a large plantar fibrolipoma in a 30-year-old man working in the hospitality industry that required operative excision. This case is notable because of the size of the fibrolipoma and because occupational conditions and delay of treatment likely contributed to the necessity for surgery. Earlier intervention could have been useful in limiting the size of this fibrolipoma and limiting the ultimate aggressiveness of the excisional surgery. Informed consent for this case report was obtained through discussion with the patient, and the patient was assured that all materials would be used anonymously.

Case Report

A 30-year-old man presented with a chief complaint of a painful mass on the bottom of his left foot impairing his ability to ambulate and work as a waiter. He first noticed the mass 3 years before seeking medical attention. He reported that, initially, it was small and only occasionally painful. The mass grew over time, causing the patient to toe walk with an antalgic gait. The patient presented once footwear modifications were unable to accommodate for the painful mass and change in his foot type. He denied constitutional symptoms, including fevers, chills, night sweats, and unexpected weight loss.
On evaluation, a large soft-tissue mass with well-demarcated boundaries was observed on the plantar medial surface of the left foot within the medial longitudinal arch, measuring roughly 7.5 × 7.5 × 3.5 cm (Fig. 1). The skin on the mass was xerotic but negative for signs of edema, erythema, or open lesions. The surrounding tissue was normal in appearance. The patient was otherwise grossly neurovascularly intact, with a forefoot-driven cavovarus foot deformity. Inguinal and popliteal nodes were clinically negative. Magnetic resonance imaging scans were obtained to better evaluate the mass.
Japma 112 21019 g001
Figure 1. Clinical image of the fibrolipoma showing well-demarcated boundaries and xerotic skin but no signs of edema, erythema, or open lesions.
Figure 1. Clinical image of the fibrolipoma showing well-demarcated boundaries and xerotic skin but no signs of edema, erythema, or open lesions.
Japma 112 21019 g001
T1-weighted magnetic resonance imaging confirmed the presence of a soft-tissue neoplasm arising from the plantar aponeurosis (Fig. 2). A large portion of the mass exhibited hyperintensity, which indicated the involvement of water-dense adipose tissue. This was surrounded by hypointense regions, indicating fibrous tissue. Biopsy with frozen section was subsequently recommended to rule out malignancy.
Japma 112 21019 g002
Figure 2. T1-weighted magnetic resonance imaging scan of the fibrolipoma showing water-dense adipose tissue and hypointense fibrous tissue arising from the plantar aponeurosis.
Figure 2. T1-weighted magnetic resonance imaging scan of the fibrolipoma showing water-dense adipose tissue and hypointense fibrous tissue arising from the plantar aponeurosis.
Japma 112 21019 g002
A triangle-shaped incision was made on the medial plantar aspect of the foot originating at the distal aspect of the soft-tissue mass, with the apex facing proximally toward the heel (Fig. 3). A biopsy with frozen section was performed, and the specimen was sent for intraoperative pathologic analysis, which confirmed a benign lesion. Excision of the mass was then performed. The incision was then closed, along with placement of a Jackson-Pratt drain. The pathologic findings were consistent with a fibrolipoma (Fig. 4).
Japma 112 21019 g003
Figure 3. Intraoperative image of the fibrolipoma in which the high proportion of adipose tissue can be appreciated.
Figure 3. Intraoperative image of the fibrolipoma in which the high proportion of adipose tissue can be appreciated.
Japma 112 21019 g003
Japma 112 21019 g004
Figure 4. Histologic slides revealed the lesion to be primarily composed of adipose tissue, with fibrous tissue strands extending throughout the mass. A, Cross-section of the lesion’s surface along the plantar aspect of the foot. B, Cross-section of the lesion magnified at 40×. C, Cross-section of the lesion magnified at 100×.
Figure 4. Histologic slides revealed the lesion to be primarily composed of adipose tissue, with fibrous tissue strands extending throughout the mass. A, Cross-section of the lesion’s surface along the plantar aspect of the foot. B, Cross-section of the lesion magnified at 40×. C, Cross-section of the lesion magnified at 100×.
Japma 112 21019 g004
The patient progressed well in his postoperative course, with no complications (Fig. 5). At his 1-year follow-up visit, he was asymptomatic, had returned to all activities, including work as a waiter, and was wearing his regular footwear again.
Japma 112 21019 g005
Figure 5. Image obtained 8 weeks postoperatively shows complete recession of the mass, with no signs of recurrence, and proper healing of the incision site.
Figure 5. Image obtained 8 weeks postoperatively shows complete recession of the mass, with no signs of recurrence, and proper healing of the incision site.
Japma 112 21019 g005

Discussion

A fibrolipoma is an atypical lipomatous tumor in which adipocyte proliferation is accompanied by extensive fibrous proliferation. Lipoma and its variants are responsible for 3% to 4% of all soft-tissue neoplasms arising in the foot [2,3,11]. To our knowledge, this case is the largest documented occurrence of a fibrolipoma in this location. We believe the size of this fibrolipoma can be attributed to the patient’s occupation and the delay between the time at which the mass was first recognized and when he sought treatment. The significant delay between the onset of symptoms and the time at which this patient presented to the clinic posed two potentially significant problems. First, it is fortunate that the lesion turned out to be benign. Had it been otherwise, there may have been a much more severe adverse outcome. Second, the size to which the lesion grew necessitated a much more extensive surgical approach with increased risk to the surrounding soft tissue and neurovascular structures. Had this patient presented earlier for evaluation, the benign nature of the lesion would have been confirmed and a less aggressive operation required. Although nonsurgical management of plantar neoplasms involving fibrosis have been described, given the progressive enlargement of this lesion, it is highly unlikely that any nonsurgical management would have been effective. Such treatments include accommodative orthotics and modalities such as extracorporeal shockwave therapy. Such interventions can be effective, as they help to dissipate the inflammatory process that leads to mass enlargement and therefore influence the surgical approach but would not alleviate the ultimate necessity for surgery.
Plantar neoplasms are a frequently undiagnosed source of recalcitrant heel pain [12–14]. Hafner et al [14] studied 100 pathologic specimens following fasciectomy and found that, in 25% of cases, the origin of heel pain was neoplastic in nature. Taweel and Raikin [7] also recently described a plantar lipoma within the heel mimicking plantar fasciitis. In addition, Argerakis et al [13] retrospectively examined medical records and ultrasound reports from 143 people with heel pain and found that plantar fibromas were documented in 51% of cases. Thirty-six percent of these cases showed concomitant plantar fascia thickening and fibroma, whereas 15% showed only fibroma. The authors also highlighted the value of diagnostic ultrasound for evaluation of heel pain, as it is a cost-effective modality with high spatial resolution and the added value of real-time, dynamic evaluation focusing on the site of pain. In the present case, diagnostic ultrasound could have been valuable in discerning the origin of the patient’s occasional heel pain, had he presented at the onset of his symptoms.
Early diagnosis of the neoplasm is particularly important in this case because of the patient’s occupation within the hospitality industry. Waiters’ feet are subject to high levels of chronic stress because of the many hours they spend on their feet per day. It is known that inflammation plays a key role in both fibrosis and adipogenesis [3,11,15–18]. Therefore, chronic inflammation around the plantar fascia from the patient’s occupation may have encouraged hyperproliferation of fibrous and adipose tissue. In addition, research has demonstrated that a mechanical stimulus influences cellular proliferation by altering cell-matrix and cell-cell interactions [11,18–20]. Once fibrosis has begun, mechanical changes to the plantar fascia while walking may become more pronounced because of the added matrix perturbation from the mass, further accelerating proliferation. Finally, fibrosis is affected by a process known as durotaxis, in which cellular migration is influenced by matrix stiffness. Cells are encouraged to migrate to stiffer regions of a given medium [18,21–24]. Therefore, once fibrosis begins, the stiff collagen matrix surrounding the fibroblasts may encourage cellular migration toward the fibrous region, exacerbating its size. By allowing the fibrolipoma to remain untreated for 3 years while working in the hospitality industry, it was given an optimal environment of chronic inflammation and frequent mechanical stress that allowed it to grow to its ultimate size.
Extracorporeal shockwave therapy has received attention recently as a potentially effective treatment option for fibrous abnormalities [25–28]. The mechanism behind this treatment involves delivering targeted shockwaves to the hyperproliferated region to disrupt the extracellular matrix and prevent further tissue proliferation. Recently, extracorporeal shockwave therapy has shown promising preliminary results in softening nodules from plantar fibromatosis and reducing pain [26]. Extracorporeal shockwave therapy may have been useful in breaking down the fibrous strands within the lesion, thereby softening it and limiting further enlargement. In addition, custom foot orthoses may be useful in reducing mechanical strain on the soft-tissue structures of the medial longitudinal arch during ambulation. The use of an extrinsic heel modification has been shown quantitatively through ultrasound to alter plantar soft-tissue responses to loading, therefore indicating a change in the transmission of force on plantar soft-tissue structures during ambulation [29]. In addition, orthotic support for the medial longitudinal arch may reduce stretching of the plantar fascia during ambulation, therefore reducing the shearing forces between the plantar soft-tissue structures. Each of these modifications would likely reduce chronic inflammation and mechanical stress generated from prolonged walking, therefore hindering proliferation and helping with management of the existing lesion.

Conclusions

Because of the delay between the onset of the lesion and the time at which the patient sought medical attention, in conjunction with his occupation as a waiter, this fibrolipoma was given a favorable environment to grow to its ultimate size. Had the neoplasm been diagnosed earlier, potentially through diagnostic ultrasound, conservative management strategies could have been initiated to limit its size and ultimately require a less aggressive operative approach.

Financial Disclosure

None reported.

Conflicts of Interest

None reported.

References

  1. Kleihues PS, Leslie H: World Health Organization Classification of Tumors, IARC Press, Lyon, France, 2002.
  2. Kirby EJ, Shereff MJ, Lewis MM: Soft-tissue tumors and tumor-like lesions of the foot. An analysis of eighty-three cases. J Bone Joint Surg Am 71: 621, 1989.
  3. Vasconcelos JS, Gharaibeh F, Nittinger H-C: Trauma as pathogenesis of a plantar forefoot fibrolipoma: first case and review of the literature. Case Rep Surg 2013: 691276, 2013.
  4. Bakotic BW, Borkowski P: Primary soft-tissue neoplasms of the foot: the clinicopathologic features of 401 cases. J Foot Ankle Surg 40: 28, 2001.
  5. Cozzani EC, Javor S, Odetti P, et al: A calcified lipoma of the foot in a 100-year-old Italian woman. JAPMA 105: 371, 2015.
  6. Satish C: A rare case of dumb-bell lipoma of the sole. J Plast Reconstr Aesthet Surg 64: e329, 2011.
  7. Taweel NR, Raikin SM: Heel lipoma mimicking plantar fasciitis in a ballroom dancer. J Foot Ankle Surg 54: 251, 2015.
  8. Olaoye IO, Adesina MD: Solitary massive lipoma in the planter aspect of great toe presenting as two masses. SAGE Open Med Case Rep 5: 2050313x17730265, 2017.
  9. Lui TH: Fibrolipoma of the toe. Foot Ankle Spec 3: 33, 2010.
  10. Coban YK, Uzel M, Gumus N: Lipoma due to chronic intermittent compression as an occupational disease. Ann Plast Surg 57: 275, 2006.
  11. Galea LA, Penington AJ, Morrison WA: Post-traumatic pseudolipomas—a review and postulated mechanisms of their development. J Plast Reconstr Aesthet Surg 62: 737, 2009.
  12. Adib O, Noizet E, Croue A, et al: Ledderhose’s disease: radiologic/pathologic correlation of superficial plantar fibromatosis. Diagn Interv Imaging 95: 893, 2014.
  13. Argerakis NG, Positano RG, Positano RCJ, et al: Ultrasound diagnosis and evaluation of plantar heel pain. JAPMA 105: 135, 2015.
  14. Hafner S, Han N, Pressman MM, et al: Proximal plantar fibroma as an etiology of recalcitrant plantar heel pain. J Foot Ankle Surg 50: 153, 2011.
  15. Liener UC, Brückner UB, Knöferl MW, et al: Chemokine activation within 24 hours after blunt accident trauma. Shock 17: 169, 2002.
  16. Thomas GPL, Hemmrich K, Abberton KM, et al: Zymosan-induced inflammation stimulates neo-adipogenesis. Int J Obes (Lond) 32: 239, 2008.
  17. Verjee LS, Verhoekx JSN, Chan JKK, et al: Unraveling the signaling pathways promoting fibrosis in Dupuytren’s disease reveals TNF as a therapeutic target. Proc Natl Acad Sci USA 110: E928, 2013.
  18. Wynn TA, Ramalingam TR: Mechanisms of fibrosis: therapeutic translation for fibrotic disease. Nat Med 18: 1028, 2012.
  19. De Jesús AM: Effects of Mechanical Stimulation on Fibroblast-Guided Microstructural and Compositional Remodeling, University of Iowa, Iowa City, Iowa, 2016.
  20. Wong VW, Rustad KC, Akaishi S, et al: Focal adhesion kinase links mechanical force to skin fibrosis via inflammatory signaling. Nat Med 18: 148, 2012.
  21. Discher DE, Janmey P, Wang Y-L: Tissue cells feel and respond to the stiffness of their substrate. Science 310: 1139, 2005.
  22. Lazopoulos KA, Stamenović D: Durotaxis as an elastic stability phenomenon. J Biomech 41: 1289, 2008.
  23. Lo CM, Wang HB, Dembo M, et al: Cell movement is guided by the rigidity of the substrate. Biophys J 79: 144, 2000.
  24. Sunyer R, Conte V, Escribano J, et al: Collective cell durotaxis emerges from long-range intercellular force transmission. Science 353: 1157, 2016.
  25. Ball C, Izadi D, Verjee LS, et al: Systematic review of non-surgical treatments for early Dupuytren’s disease. BMC Musculoskelet Disord 17: 345, 2016.
  26. Frizziero A, Barazzuol M, Vittadini F, et al: Plantar fascial fibromatosis: two cases treated with low-energy focused shock waves. J Clin Rheumatol 23: 63, 2017.
  27. Veith NT, Tschernig T, Histing T, et al: Plantar fibromatosis—topical review. Foot Ankle Int 34: 1742, 2013.
  28. Palmieri A, Imbimbo C, Creta M, et al: Tadalafil once daily and extracorporeal shock wave therapy in the management of patients with Peyronie’s disease and erectile dysfunction: results from a prospective randomized trial. Int J Androl 35: 190, 2012.
  29. Sweeney D, Nester C, Preece S, et al: Effect of antipronation foot orthosis geometry on compression of heel and arch soft tissues. J Rehabil Res Dev 52: 543, 2015.

Share and Cite

MDPI and ACS Style

Positano, R.C.; Trepal, M.J.; Ciaramella, M.; Positano, R.G. A 30-Year-Old Man with an Unusually Large Untreated Plantar Fibrolipoma That Disrupted Ambulation and Required Operative Excision. J. Am. Podiatr. Med. Assoc. 2022, 112, 21019. https://doi.org/10.7547/21-019

AMA Style

Positano RC, Trepal MJ, Ciaramella M, Positano RG. A 30-Year-Old Man with an Unusually Large Untreated Plantar Fibrolipoma That Disrupted Ambulation and Required Operative Excision. Journal of the American Podiatric Medical Association. 2022; 112(5):21019. https://doi.org/10.7547/21-019

Chicago/Turabian Style

Positano, Rock Cjay, Michael J. Trepal, Michael Ciaramella, and Rock G. Positano. 2022. "A 30-Year-Old Man with an Unusually Large Untreated Plantar Fibrolipoma That Disrupted Ambulation and Required Operative Excision" Journal of the American Podiatric Medical Association 112, no. 5: 21019. https://doi.org/10.7547/21-019

APA Style

Positano, R. C., Trepal, M. J., Ciaramella, M., & Positano, R. G. (2022). A 30-Year-Old Man with an Unusually Large Untreated Plantar Fibrolipoma That Disrupted Ambulation and Required Operative Excision. Journal of the American Podiatric Medical Association, 112(5), 21019. https://doi.org/10.7547/21-019

Article Metrics

Back to TopTop