Unicentric Castleman disease

Unicentric Castleman disease is a subtype of Castleman disease (also known as giant lymph node hyperplasia, lymphoid hamartoma, or angiofollicular lymph node hyperplasia), a group of lymphoproliferative disorders characterized by lymph node enlargement, characteristic features on microscopic analysis of enlarged lymph node tissue, and a range of symptoms and clinical findings.

Unicentric Castleman disease
Other names	Giant lymph node hyperplasia, lymphoid hamartoma, angiofollicular lymph node hyperplasia
Micrograph of lymph node biopsy demonstrating hyaline vascular features consistent with Castleman disease
Specialty	Hematology, immunology, rheumatology, pathology
Diagnostic method	Based on patient history, physical exam, laboratory testing, medical imaging, histopathology
Frequency	Approximately 5000-6000 new cases per year in the United States

People with unicentric Castleman disease (UCD) have an enlarged lymph node or multiple enlarged lymph nodes in a single lymph node region. It is the most common subtype of Castleman disease, symptoms are typically mild, abnormalities on blood tests are uncommon, organ dysfunction is uncommon, and surgical treatment is curative in the majority of patients. The cause of UCD is not known.

Castleman disease is named after Benjamin Castleman, who first described the disease in 1956. The Castleman Disease Collaborative Network is the largest organization focused on the disease and is involved in research, awareness, and patient support.

Signs and symptoms

In approximately half of patients, UCD presents without symptoms; however, people with the disease may experience enlarged lymph nodes in a single lymph node region or report symptoms related to compression of neighboring structures by enlarged lymph nodes, such as difficulty breathing and pain or pressure in the abdomen or chest.^{[citation needed][1]}

Systemic symptoms (fever, night sweats, weight loss, fatigue) are seen in up to half of UCD patients.^[2]

Some symptoms that are commonly seen in HHV-8-associated MCD and iMCD like extravascular fluid accumulation (peripheral edema, ascites, pleural effusions), and enlargement of the liver and/or spleen are uncommon in UCD.^[3]

Associated diseases

UCD is associated with increased risk of paraneoplastic pemphigus^[3] as well as bronchiolitis obliterans (BO), AA amyloidosis, vascular neoplasms (e.g., FDC sarcoma), and possibly lymphomas.^[4]

Causes

UCD has no known causes or risk factors. Cases of Castleman disease running in families have been reported; however, no causative genetic variants have been identified^[5]

Mechanism

The mechanism of UCD is poorly understood. Most published research supports a growth of abnormal immune system cells (neoplasm) as the most likely cause of UCD, but this has not been conclusively demonstrated or fully characterized. Other proposed mechanisms include viral infections and autoimmune processes. Because surgical removal of affected lymph nodes in UCD is typically curative and recurrence is rare, it is believed that the pathologic process is limited to affected lymph nodes. Unlike HHV-8-associated MCD, which is caused by the HHV-8 virus, UCD has not been associated with HHV-8 infection¹

When findings typically seen in MCD, such as systemic symptoms and laboratory abnormalities, they are likely related to increased levels of molecules that stimulate the immune system (cytokines), such as interleukin 6 (IL-6).^[5] Systemic symptoms and laboratory abnormalities may be associated with the presence of plasmacytic features on microscopic analysis of affected lymph node tissue.^[6]

There have been no reported cases of UCD transforming into iMCD.^{[citation needed]}

Diagnosis

UCD is diagnosed based on patient history, physical exam, laboratory testing, radiologic imaging, and microscopic analysis (histology) of biopsied tissue from an enlarged lymph node.^{[citation needed]}

There are no widely accepted diagnostic criteria for UCD; however, diagnosis generally requires enlargement of lymph nodes limited to a single region of lymph nodes (typically confirmed with radiologic imaging), biopsy of an enlarged lymph node demonstrating characteristic features of Castleman disease, and exclusion of other diseases that can mimic UCD.^[3]

Classification

Castleman disease describes a group of at least 3 distinct disorders—unicentric Castleman disease (UCD), human herpesvirus 8 associated multicentric Castleman disease (HHV-8-associated MCD), and idiopathic multicentric Castleman disease (iMCD). Identifying the correct subtype of the disease is important, as the three disorders vary significantly in symptoms, clinical findings, disease mechanism, treatment approach, and prognosis.^[7]

• In Unicentric Castleman disease enlarged lymph nodes with characteristic microscopic findings are present in only a single lymph node region.
• In the multicentric subtypes of Castleman disease, enlarged lymph nodes with characteristic findings are present in multiple lymph node regions. The multicentric variants of Castleman disease are further classified by known causes of the disease.
  • HHV-8-associated MCD is caused by uncontrolled infection with human herpesvirus 8 (HHV-8, also known as Kaposi sarcoma-associated herpesvirus).
  • In idiopathic multicentric Castleman disease (iMCD) the cause of the disease is unknown (idiopathic). Testing for HHV-8 must be negative to diagnose iMCD.

Medical imaging

Radiologic imaging shows an enlarged lymph node or multiple enlarged lymph nodes in a single region, which are typically 18F-fluorodoxyglucose (FDG) avid on positron-emission tomography (PET).^[3]

Laboratory testing

Laboratory testing is typically normal, including blood counts, metabolic tests, and inflammatory markers; however, in some people with UCD, laboratory testing may show abnormalities more commonly seen in HHV-8-associated MCD or iMCD. These abnormal tests include elevated C-Reactive Protein, decreased hemoglobin levels (anemia), low albumin levels, elevated creatinine (kidney dysfunction), increased immunoglobulin levels, abnormal platelet counts, and elevations of molecules involved in inflammation (cytokines), such as interleukin 6 (IL-6).^[3]

Pathology

The microscopic appearance (histology) of biopsied tissue from an enlarged lymph node must demonstrate a constellation of features consistent with Castleman disease. There are three patterns of characteristic histologic features associated with UCD:^[7]

• Hyaline vascular - regressed germinal centers, follicular dendritic cell prominence or displasia, hypervascularity in interfollicular regions, sclerotic vessels, prominent mantle zones with an “onion-skin” appearance.
• Plasmacytic – increased number of follicles with large hyperplastic germinal centers and sheetlike plasmacytosis (increased number plasma cells).
• Mixed - features of both hyaline vascular and plasmacytic patterns

UCD most commonly demonstrates hyaline vascular features; however, plasmacytic features or a mixture of both hyaline vascular and plasmacytic features may also be seen in UCD lymph nodes.^[6] The clinical utility of subtyping Castleman disease by histologic features is uncertain, as histologic subtypes do not consistently predict disease severity or treatment response.^[7]

Staining with latency-associated nuclear antigen (LANA-1), a marker for HHV-8 infection, must be negative to diagnose UCD.^[3]

Diseases to be excluded

Diagnosis of UCD requires ruling out other diseases that can present with enlarged lymph nodes limited to a single region of lymph nodes and histologic findings similar to UCD on microscopic analysis of biopsied lymph nodes. This include infectious causes, such as toxoplasma lymphadenitis, and cancers, including Hodgkin lymphoma, follicular dendritic cell sarcoma, and plasmacytoma.^[3]

Treatment

Due to the rarity of the disease, data regarding treatment is limited to observational case series and case reports. No randomized trials have been conducted comparing treatment options for UCD.^{[citation needed]}

Complete surgical removal of the enlarged lymph node or region of lymph nodes is considered the gold standard treatment for UCD and is typically curative, with resolution of symptoms and lab abnormalities attributable to the disease.^[8]

Occasionally, surgical removal of an enlarged lymph node may be prohibitively high risk at the time of diagnosis due to large size or proximity to critical structures. This is more common with lymph nodes located deep in the chest, which may be close to major airways and blood vessels. In these cases, chemotherapy, immunosuppressive medications, catheter embolization of blood vessels supplying the lymph node, and/or radiation therapy may be used to shrink the involved lymph nodes, potentially reducing the risk of surgery to acceptable levels. If surgical risk remains too high after treatment to shrink the enlarged lymph node, treatments used to reduce the size of the lymph node may be continued to control symptoms related to the disease.^[9]

Follow-up

After initiation of treatment, patients are regularly evaluated for recurrence of disease and response to treatment with laboratory testing and radiologic imaging.^[10]

Prognosis

Most people with UCD who undergo complete surgical resection of enlarged lymph nodes achieve long-term disease-free survival, with an observed ten-year mortality of 4% in the largest case series to date.^[8]

Epidemiology

There are approximately 5000-6000 new cases of UCD diagnosed per year in the United States, making it the most common form of Castleman disease.^[11] UCD can occur at any age, but the median age at presentation is approximately 35 years old. There is a slightly increased incidence of UCD in women.^[8]

There have been no published epidemiologic studies of Castleman disease outside of the United States; however, there is no evidence of increased or decreased incidence of Castleman disease in specific regions or ethnicities.^{[citation needed]}

History

Castleman disease was first described by Dr. Benjamin Castleman in 1956.^[12] World Castleman Disease Day was established in 2018 and is held every year on July 23.^{[citation needed]}

Organizations

The Castleman Disease Collaborative Network was founded in 2012 and is the largest organization focused on Castleman disease. It is a global collaborative network involved in research, awareness, and patient support.^[13]

References

1. Khanna, Sudhansoo; Singh, Rana Sandip; Goyal, Priyanka; Mohan, Harsh; Bhaker, Poonam; Rana, Shaleen; Sanga, Sunil (2022-02-15). "Incidentally detected Castleman disease of the thorax and its surgical management- A Case Report". www.researchsquare.com. doi:10.21203/rs.3.rs-1318275/v1. Retrieved 2022-05-16.
2. Sarmiento Bustamante, Mateo; Shyamsundar, Saishravan; Coren, Freda R.; Bagg, Adam; Srkalovic, Gordan; Alapat, Daisy; van Rhee, Frits; Lim, Megan S.; Lechowicz, Mary Jo; Brandstadter, Joshua D.; Pierson, Sheila K.; Fajgenbaum, David C. (November 2023). "Ongoing symptoms following complete surgical excision in unicentric Castleman disease". American Journal of Hematology. 98 (11): E334–E337. doi:10.1002/ajh.27065. ISSN 1096-8652. PMC 10998479. PMID 37635628. S2CID 261232121.
3. Szalat R, Munshi NC (February 2018). "Diagnosis of Castleman Disease". Hematology/Oncology Clinics of North America. 32 (1): 53–64. doi:10.1016/j.hoc.2017.09.005. PMID 29157619.
4. van Rhee, Frits; Oksenhendler, Eric; Srkalovic, Gordan; Voorhees, Peter; Lim, Megan; Dispenzieri, Angela; Ide, Makoto; Parente, Sophia; Schey, Stephen; Streetly, Matthew; Wong, Raymond; Wu, David; Maillard, Ivan; Brandstadter, Joshua; Munshi, Nikhil (2020-12-07). "International evidence-based consensus diagnostic and treatment guidelines for unicentric Castleman disease". Blood Advances. 4 (23): 6039–6050. doi:10.1182/bloodadvances.2020003334. ISSN 2473-9529. PMC 7724917. PMID 33284946.
5. Fajgenbaum DC, Shilling D (February 2018). "Castleman Disease Pathogenesis". Hematology/Oncology Clinics of North America. 32 (1): 11–21. doi:10.1016/j.hoc.2017.09.002. PMID 29157613.
6. Keller AR, Hochholzer L, Castleman B (March 1972). "Hyaline-vascular and plasma-cell types of giant lymph node hyperplasia of the mediastinum and other locations". Cancer. 29 (3): 670–83. doi:10.1002/1097-0142(197203)29:3<670::aid-cncr2820290321>3.0.co;2-#. PMID 4551306. S2CID 196375825.
7. Fajgenbaum DC, Uldrick TS, Bagg A, Frank D, Wu D, Srkalovic G, et al. (March 2017). "International, evidence-based consensus diagnostic criteria for HHV-8-negative/idiopathic multicentric Castleman disease". Blood. 129 (12): 1646–1657. doi:10.1182/blood-2016-10-746933. PMC 5364342. PMID 28087540.
8. Talat N, Belgaumkar AP, Schulte KM (April 2012). "Surgery in Castleman's disease: a systematic review of 404 published cases". Annals of Surgery. 255 (4): 677–84. doi:10.1097/SLA.0b013e318249dcdc. PMID 22367441. S2CID 7553851.
9. Soumerai JD, Sohani AR, Abramson JS (October 2014). "Diagnosis and management of Castleman disease". Cancer Control. 21 (4): 266–78. doi:10.1177/107327481402100403. PMID 25310208.
10. Casper C (April 2005). "The aetiology and management of Castleman disease at 50 years: translating pathophysiology to patient care". British Journal of Haematology. 129 (1): 3–17. doi:10.1111/j.1365-2141.2004.05311.x. PMID 15801951.
11. Munshi N, Mehra M, van de Velde H, Desai A, Potluri R, Vermeulen J (May 2015). "Use of a claims database to characterize and estimate the incidence rate for Castleman disease". Leukemia & Lymphoma. 56 (5): 1252–60. doi:10.3109/10428194.2014.953145. PMID 25120049.
12. Castleman, B.; Iverson, L.; Menendez, V. P. (July 1956). "Localized mediastinal lymphnode hyperplasia resembling thymoma". Cancer. 9 (4): 822–830. doi:10.1002/1097-0142(195607/08)9:4<822::aid-cncr2820090430>3.0.co;2-4. ISSN 0008-543X. PMID 13356266.
13. Fajgenbaum, David C.; Ruth, Jason R.; Kelleher, Dermot; Rubenstein, Arthur H. (April 2016). "The collaborative network approach: a new framework to accelerate Castleman's disease and other rare disease research". The Lancet. Haematology. 3 (4): e150–152. doi:10.1016/S2352-3026(16)00007-7. ISSN 2352-3026. PMID 27063967.