AIDS-Related Lymphoma Treatment (PDQ®): Treatment - Health Professional Information [NCI]

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General Information About AIDS-Related Lymphoma

Background and Definitions

Acquired immunodeficiency syndrome (AIDS) was first described in 1981, and the first definitions included certain opportunistic infections, Kaposi sarcoma, and central nervous system (CNS) lymphomas. In 1984, a multicenter study described the clinical spectrum of non-Hodgkin lymphomas (NHLs) in the populations at risk of AIDS.[1] The incidence of NHL has increased in a course almost parallel to that of the AIDS epidemic and accounts for 2% to 3% of newly diagnosed AIDS cases.[2] Since the introduction of combined antiretroviral therapy (cART) in the mid-1990s, the incidence of lymphomas has decreased, and outcomes have improved.[3] Higher CD4-positive T-lymphocyte (CD4) counts in the cART era have been associated with a shift in histologic diagnoses. The shift is away from primary effusion lymphoma and primary CNS lymphoma, which occur with the lowest CD4 counts, and toward histologies that occur at higher CD4 counts, such as Burkitt lymphoma and Hodgkin lymphoma (HL).[4,5,6] In contrast to less-frequent incidences of all the lymphoproliferative disorders in the cART era, the incidence rate of anal cancer has not changed.[7]

Histology

Pathologically, AIDS-related lymphomas comprise a narrow spectrum of histologic types consisting almost exclusively of B-cell tumors of aggressive type. These include the following:

  • Diffuse large B-cell lymphoma (including B-cell immunoblastic lymphoma).
  • Small noncleaved lymphoma, either Burkitt or Burkitt-like.

The human immunodeficiency virus (HIV)-associated lymphomas can be categorized into the following:

  • Aggressive B-cell lymphoma (see above).
  • Primary central nervous system lymphoma (PCNSL).
  • Primary effusion lymphoma.
  • Plasmablastic multicentric Castleman disease.
  • HL.

HIV-associated Hodgkin lymphoma

Multiple reviews of HL occurring in patients at risk of AIDS have been done;[8,9] however, HL is still not part of the Centers for Disease Control and Prevention (CDC) definition of AIDS because no clear demonstration of its increased incidence in conjunction with HIV has been shown, as is the case for aggressive NHL. The CDC, in conjunction with the San Francisco Department of Public Health, has reported a cohort study in which HIV-infected men had an excess risk that was attributable to the HIV infection in 19.3 cases of HL per 100,000 person-years and 224.9 cases of NHL per 100,000 person-years. Although this report found an excess incidence of HL in HIV-infected homosexual men, additional epidemiologic studies will be needed before the CDC will reconsider HL as an HIV-associated malignancy.[10]

HIV-associated HL presents in an aggressive fashion, often with extranodal or bone marrow involvement.[8,9,11] A distinctive feature of HIV-associated HL is the lesser frequency of mediastinal adenopathy compared with non-HIV-associated HL. Most patients in these series had either mixed cellularity or lymphocyte-depleted HL, expression of Epstein-Barr virus (EBV)-associated proteins in Reed-Sternberg cells, B symptoms, and a median CD4 lymphocyte count of 300/dL or lower.[12] In a retrospective multicenter review of 62 patients, those receiving cART with chemotherapy had a 74% 2-year overall survival (OS) rate versus a 30% OS rate for those not receiving cART (P < .001).[13][Level of evidence: 3iiiA] Among 201 patients with classical HL and HIV positivity, the 2- to 5-year OS rate of 88% to 90% after treatment with ABVD (doxorubicin + bleomycin + vinblastine + dacarbazine), or similar regimens, and cART, was not significantly different from the OS rate of HIV-negative patients with newly diagnosed HL in two uncontrolled comparisons.[14,15][Level of evidence: 3iiiDiv] These studies confirm that patients with HL who were treated with standard regimens and cART have outcomes that are similar to those of the uninfected population.[16] Furthermore, immune function recovers over the course of 6 to 9 months after completion of chemotherapy.[15]

Primary effusion lymphoma

Primary effusion lymphoma has been associated with Kaposi sarcoma (KS)-associated herpesvirus (KSHV)/human herpesvirus type 8 (HHV8).[17,18] Primary effusion lymphoma presents as a liquid phase spreading along serous membranes in the absence of masses or adenopathy.[17] In addition to HHV8, many cases are also associated with EBV. Extension of lymphoma from the effusion to underlying tissue may occur.

Plasmablastic multicentric Castleman disease

Plasmablastic multicentric Castleman disease is also associated with a coinfection of KSHV/HHV8 and HIV.[19,20] Patients typically present with fever, night sweats, weight loss, lymphadenopathy, and hepatosplenomegaly. Patients may progress to primary effusion lymphoma or to plasmablastic or anaplastic large cell lymphoma. Anecdotal responses to rituximab, an anti-CD20 monoclonal antibody, alone or with liposomal doxorubicin (along with cART), have been reported.[19,21][Level of evidence: 3iiiDiv] In a retrospective review of 113 patients, the use of rituximab for HIV-associated plasmablastic multicentric Castleman disease resulted in an 11-fold reduction in risk of developing lymphoma; however, higher rates of KS were seen.[22]

Incidence and Prevention

An international database of 48,000 HIV-seropositive individuals from the United States, Europe, and Australia found a 42% decline in the incidence of NHLs from 1997 to 1999 compared with the same incidences in 1992 to 1996, both for PCNSL and for systemic lymphoma.[23] The introduction of cART is the proposed explanation for this decline.[24] The diagnosis of AIDS precedes the onset of NHL in approximately 50% of the patients; however, in the other half of the patients, the diagnosis of AIDS is made at the time of the diagnosis of NHL and HIV positivity.[3] The geographic distribution of these lymphomas is also similar to the geographic spread of AIDS. Unlike KS, which has a predilection for homosexual men and appears to be on the decline in incidence, all risk groups appear to have an excess number of NHLs; these risk groups include intravenous drug users and children of HIV-positive individuals.

Clinical Presentation

In general, the clinical setting and response to treatment of patients with AIDS-related lymphoma is very different from that of the non-HIV patients with lymphoma. The HIV-infected individual with aggressive lymphoma usually presents with advanced-stage disease that is frequently extranodal.[25]

Common extranodal sites include the following:

  • Bone marrow.
  • Liver.
  • Meninges.
  • Gastrointestinal tract.

Very unusual sites are also characteristic and include the following:

  • Anus.
  • Heart.
  • Bile duct.
  • Gingiva.
  • Muscles.

The clinical course is more aggressive, and the disease is both more extensive and less responsive to chemotherapy. Immunodeficiency and cytopenias, common in these patients at the time of initial presentation, are exacerbated by the administration of chemotherapy. Treatment of the malignancy increases the risk of opportunistic infections, which further compromise the delivery of adequate treatment.

Prognosis and Survival

Prognoses of patients with AIDS-related lymphoma have been associated with the following:[26]

  • Stage (i.e., extent of disease, extranodal involvement, lactate dehydrogenase level, and bone marrow involvement).
  • Age.
  • Severity of the underlying immunodeficiency (measured by CD4 lymphocyte count in peripheral blood).
  • Performance status.
  • Prior AIDS diagnosis (i.e., history of opportunistic infection or KS).

Patients with AIDS-related PCNSL appear to have more severe underlying HIV-related disease than do patients with systemic lymphoma. In one report, this severity was evidenced by patients with PCNSL who had a higher incidence of previously diagnosed AIDS (73% vs. 37%), lower median number of CD4 lymphocytes (30/dL vs. 189/dL), and a worse median survival time (2.5 months vs. 6.0 months).[27] This report also showed that patients with poor risk factors-defined as Karnofsky Performance Status score lower than 70%, history of previously diagnosed AIDS, and bone marrow involvement-had a median survival time of 4.0 months compared with patients in a good prognosis group who had none of these risk factors, and who had a median survival time of 11.3 months.

In another report (NIAID-ACTG-142), prognostic factors were evaluated in a group of 192 patients with newly diagnosed AIDS-related lymphoma who were randomly assigned to receive either low-dose methotrexate, bleomycin, doxorubicin, cyclophosphamide, vincristine, and dexamethasone (m-BACOD) or standard-dose m-BACOD with granulocyte-macrophage colony-stimulating factor.[28] No differences existed between these two treatments in terms of efficacy for disease-free survival, median survival, or risk ratio for death.[28][Level of evidence: 1iiA] On multivariate analysis, factors associated with decreased survival included age older than 35 years, history of intravenous drug use, stage III or stage IV disease, and CD4 counts lower than 100 cells/mm3. The International Prognostic Index may also be predictive for survival.[29,30,31] In a multicenter cohort study of 203 patients, in a multivariable Cox model, response to cART was independently associated with prolonged survival (relative hazard, 0.32; 95% confidence interval, 0.16-0.62).[32][Level of evidence: 3iiiDii]

Related Summaries

Other PDQ summaries containing information about AIDS-related lymphoma include the following:

  • Kaposi Sarcoma Treatment
  • Primary CNS Lymphoma Treatment

References:

  1. Ziegler JL, Beckstead JA, Volberding PA, et al.: Non-Hodgkin's lymphoma in 90 homosexual men. Relation to generalized lymphadenopathy and the acquired immunodeficiency syndrome. N Engl J Med 311 (9): 565-70, 1984.
  2. Rabkin CS, Yellin F: Cancer incidence in a population with a high prevalence of infection with human immunodeficiency virus type 1. J Natl Cancer Inst 86 (22): 1711-6, 1994.
  3. Dunleavy K, Wilson WH: How I treat HIV-associated lymphoma. Blood 119 (14): 3245-55, 2012.
  4. Little RF, Wilson WH: Update on the Pathogenesis, Diagnosis, and Therapy of AIDS-related Lymphoma. Curr Infect Dis Rep 5 (2): 176-184, 2003.
  5. Carbone A, Gloghini A: AIDS-related lymphomas: from pathogenesis to pathology. Br J Haematol 130 (5): 662-70, 2005.
  6. Gopal S, Patel MR, Yanik EL, et al.: Temporal trends in presentation and survival for HIV-associated lymphoma in the antiretroviral therapy era. J Natl Cancer Inst 105 (16): 1221-9, 2013.
  7. Piketty C, Selinger-Leneman H, Bouvier AM, et al.: Incidence of HIV-related anal cancer remains increased despite long-term combined antiretroviral treatment: results from the french hospital database on HIV. J Clin Oncol 30 (35): 4360-6, 2012.
  8. Spina M, Vaccher E, Nasti G, et al.: Human immunodeficiency virus-associated Hodgkin's disease. Semin Oncol 27 (4): 480-8, 2000.
  9. Thompson LD, Fisher SI, Chu WS, et al.: HIV-associated Hodgkin lymphoma: a clinicopathologic and immunophenotypic study of 45 cases. Am J Clin Pathol 121 (5): 727-38, 2004.
  10. Hessol NA, Katz MH, Liu JY, et al.: Increased incidence of Hodgkin disease in homosexual men with HIV infection. Ann Intern Med 117 (4): 309-11, 1992.
  11. Re A, Casari S, Cattaneo C, et al.: Hodgkin disease developing in patients infected by human immunodeficiency virus results in clinical features and a prognosis similar to those in patients with human immunodeficiency virus-related non-Hodgkin lymphoma. Cancer 92 (11): 2739-45, 2001.
  12. Dolcetti R, Boiocchi M, Gloghini A, et al.: Pathogenetic and histogenetic features of HIV-associated Hodgkin's disease. Eur J Cancer 37 (10): 1276-87, 2001.
  13. Hentrich M, Maretta L, Chow KU, et al.: Highly active antiretroviral therapy (HAART) improves survival in HIV-associated Hodgkin's disease: results of a multicenter study. Ann Oncol 17 (6): 914-9, 2006.
  14. Montoto S, Shaw K, Okosun J, et al.: HIV status does not influence outcome in patients with classical Hodgkin lymphoma treated with chemotherapy using doxorubicin, bleomycin, vinblastine, and dacarbazine in the highly active antiretroviral therapy era. J Clin Oncol 30 (33): 4111-6, 2012.
  15. Hentrich M, Berger M, Wyen C, et al.: Stage-adapted treatment of HIV-associated Hodgkin lymphoma: results of a prospective multicenter study. J Clin Oncol 30 (33): 4117-23, 2012.
  16. Kaplan LD: Management of HIV-associated Hodgkin lymphoma: how far we have come. J Clin Oncol 30 (33): 4056-8, 2012.
  17. Simonelli C, Spina M, Cinelli R, et al.: Clinical features and outcome of primary effusion lymphoma in HIV-infected patients: a single-institution study. J Clin Oncol 21 (21): 3948-54, 2003.
  18. Nador RG, Cesarman E, Chadburn A, et al.: Primary effusion lymphoma: a distinct clinicopathologic entity associated with the Kaposi's sarcoma-associated herpes virus. Blood 88 (2): 645-56, 1996.
  19. Goedert JJ: Multicentric Castleman disease: viral and cellular targets for intervention. Blood 102 (8): 2710-11, 2003.
  20. Marcelin AG, Aaron L, Mateus C, et al.: Rituximab therapy for HIV-associated Castleman disease. Blood 102 (8): 2786-8, 2003.
  21. Uldrick TS, Polizzotto MN, Aleman K, et al.: Rituximab plus liposomal doxorubicin in HIV-infected patients with KSHV-associated multicentric Castleman disease. Blood 124 (24): 3544-52, 2014.
  22. Gérard L, Michot JM, Burcheri S, et al.: Rituximab decreases the risk of lymphoma in patients with HIV-associated multicentric Castleman disease. Blood 119 (10): 2228-33, 2012.
  23. International Collaboration on HIV and Cancer: Highly active antiretroviral therapy and incidence of cancer in human immunodeficiency virus-infected adults. J Natl Cancer Inst 92 (22): 1823-30, 2000.
  24. Stebbing J, Gazzard B, Mandalia S, et al.: Antiretroviral treatment regimens and immune parameters in the prevention of systemic AIDS-related non-Hodgkin's lymphoma. J Clin Oncol 22 (11): 2177-83, 2004.
  25. Sparano JA: Clinical aspects and management of AIDS-related lymphoma. Eur J Cancer 37 (10): 1296-305, 2001.
  26. Bower M, Gazzard B, Mandalia S, et al.: A prognostic index for systemic AIDS-related non-Hodgkin lymphoma treated in the era of highly active antiretroviral therapy. Ann Intern Med 143 (4): 265-73, 2005.
  27. Levine AM, Sullivan-Halley J, Pike MC, et al.: Human immunodeficiency virus-related lymphoma. Prognostic factors predictive of survival. Cancer 68 (11): 2466-72, 1991.
  28. Kaplan LD, Straus DJ, Testa MA, et al.: Low-dose compared with standard-dose m-BACOD chemotherapy for non-Hodgkin's lymphoma associated with human immunodeficiency virus infection. National Institute of Allergy and Infectious Diseases AIDS Clinical Trials Group. N Engl J Med 336 (23): 1641-8, 1997.
  29. Navarro JT, Ribera JM, Oriol A, et al.: International prognostic index is the best prognostic factor for survival in patients with AIDS-related non-Hodgkin's lymphoma treated with CHOP. A multivariate study of 46 patients. Haematologica 83 (6): 508-13, 1998.
  30. Rossi G, Donisi A, Casari S, et al.: The International Prognostic Index can be used as a guide to treatment decisions regarding patients with human immunodeficiency virus-related systemic non-Hodgkin lymphoma. Cancer 86 (11): 2391-7, 1999.
  31. Straus DJ, Huang J, Testa MA, et al.: Prognostic factors in the treatment of human immunodeficiency virus-associated non-Hodgkin's lymphoma: analysis of AIDS Clinical Trials Group protocol 142--low-dose versus standard-dose m-BACOD plus granulocyte-macrophage colony-stimulating factor. National Institute of Allergy and Infectious Diseases. J Clin Oncol 16 (11): 3601-6, 1998.
  32. Hoffmann C, Wolf E, Fätkenheuer G, et al.: Response to highly active antiretroviral therapy strongly predicts outcome in patients with AIDS-related lymphoma. AIDS 17 (10): 1521-9, 2003.

Cellular Classification of AIDS-Related Lymphoma

Pathologically, AIDS-related lymphomas comprise a narrow spectrum of histologic types consisting almost exclusively of B-cell tumors of aggressive type. These include the following:

  • Diffuse large B-cell lymphoma (B-cell immunoblastic lymphoma).
  • Small noncleaved lymphoma, either Burkitt or Burkitt-like.

AIDS-related lymphomas, though usually of B-cell origin as demonstrated by immunoglobulin heavy-chain gene rearrangement studies, have also been shown to be oligoclonal, polyclonal, and monoclonal in origin. Although human immunodeficiency virus (HIV) does not appear to have a direct etiologic role, HIV infection does lead to an altered immunologic milieu. HIV generally infects T lymphocytes with the loss of regulation function that leads to hypergammaglobulinemia and polyclonal B-cell hyperplasia. B cells are not the targets of HIV infection. Instead, Epstein-Barr virus (EBV) is thought to be at least a cofactor in the etiology of some of these lymphomas. The EBV genome has been detected in most patients with AIDS-related lymphomas; molecular analysis suggests that the cells were infected before clonal proliferation began.[1] The rare primary effusion lymphoma consistently harbors human herpesvirus type 8 and frequently contains EBV.[2] HIV-related T-cell lymphomas have also been identified and appear to be associated with EBV infection.[3]

References:

  1. Thorley-Lawson DA, Gross A: Persistence of the Epstein-Barr virus and the origins of associated lymphomas. N Engl J Med 350 (13): 1328-37, 2004.
  2. Simonelli C, Spina M, Cinelli R, et al.: Clinical features and outcome of primary effusion lymphoma in HIV-infected patients: a single-institution study. J Clin Oncol 21 (21): 3948-54, 2003.
  3. Thomas JA, Cotter F, Hanby AM, et al.: Epstein-Barr virus-related oral T-cell lymphoma associated with human immunodeficiency virus immunosuppression. Blood 81 (12): 3350-6, 1993.

Stage Information for AIDS-Related Lymphoma

Although stage is important in selecting the treatment of patients with non-Hodgkin lymphoma (NHL) who do not have AIDS, most patients with AIDS-related lymphomas have far-advanced disease.

Staging Subclassification System

Table 1. Anatomic Stage/Prognostic Groupsa
StagePrognostic Groups
a Reprinted with permission from AJCC: Hodgkin and non-Hodgkin lymphomas. In Edge SB, Byrd DR, Compton CC, et al., eds.: AJCC Cancer Staging Manual. 7th ed. New York, NY: Springer, 2010, pp 607-11.
IInvolvement of a single lymphatic site (i.e., nodal region, Waldeyer ring, thymus or spleen) (I).
OR
Localized involvement of a single extralymphatic organ or site in the absence of any lymph node involvement (IE) (rare in Hodgkin lymphoma).
IIInvolvement of two or more lymph node regions on the same side of the diaphragm (II).
OR
Localized involvement of a single extralymphatic organ or site in association with regional lymph node involvement with or without involvement of other lymph node regions on the same side of the diaphragm (IIE). The number of regions involved may be indicated by a subscript Arabic numeral, for example, II3.
IIIInvolvement of lymph node regions on both sides of the diaphragm (III), which also may be accompanied by extralymphatic extension in association with adjacent lymph node involvement (IIIE) or by involvement of the spleen (IIIS) or both (IIIE, IIIS). Splenic involvement is designated by the letter S.
IVDiffuse or disseminated involvement of one or more extralymphatic organs, with or without associated lymph node involvement.
OR
Isolated extralymphatic organ involvement in the absence of adjacent regional lymph node involvement, but in conjunction with disease in distant site(s). Stage IV includes any involvement of the liver or bone marrow, lungs (other than by direct extension from another site), or cerebrospinal fluid.

The Ann Arbor staging system is commonly used for patients with NHL.[1,2] In this system, stage I, II, III, and IV NHL can be subclassified into A and B categories: B for those with well-defined generalized symptoms and A for those without. The B designation is given to patients with any of the following symptoms:

  • Unexplained loss of more than 10% of body weight in the 6 months before diagnosis.
  • Unexplained fever with temperatures higher than 38°C.
  • Drenching night sweats. (Refer to the PDQ summary on Hot Flashes and Night Sweats for more information.)

Occasionally, specialized staging systems are used. The physician should be aware of the system used in a specific report.

The E designation is used when extranodal lymphoid malignancies arise in tissues separate from, but near, the major lymphatic aggregates. Stage IV refers to disease that is diffusely spread throughout an extranodal site, such as the liver. If pathologic proof of involvement of one or more extralymphatic sites has been documented, the symbol for the site of involvement, followed by a plus sign (+), is listed.

Table 2. Notation for Identification of Sites
N = nodesH = liverL = lungM = marrow
S = spleenP = pleuraO = boneD = skin

Current practice assigns a clinical stage (CS) based on the findings of the clinical evaluation and a pathologic stage (PS) based on the findings made as a result of invasive procedures beyond the initial biopsy.

For example, on percutaneous biopsy, a patient with inguinal adenopathy and a positive lymphangiogram without systemic symptoms might be found to have involvement of the liver and bone marrow. The precise stage of such a patient would be CS IIA, PS IVA(H+)(M+).

A number of other factors that are not included in the above staging system are important for the staging and prognosis of patients with NHL. These factors include the following:

  • Age.
  • Performance status (PS).
  • Tumor size.
  • Lactate dehydrogenase (LDH) values.
  • The number of extranodal sites.

References:

  1. Lymphoid neoplasms. In: Edge SB, Byrd DR, Compton CC, et al., eds.: AJCC Cancer Staging Manual. 7th ed. New York, NY: Springer, 2010, pp 599-628.
  2. National Cancer Institute sponsored study of classifications of non-Hodgkin's lymphomas: summary and description of a working formulation for clinical usage. The Non-Hodgkin's Lymphoma Pathologic Classification Project. Cancer 49 (10): 2112-35, 1982.

Treatment Option Overview for AIDS-Related Lymphoma

The treatment of patients with AIDS-related lymphomas presents the challenge of integrating therapy appropriate for the stage and histologic subset of malignant lymphoma with the limitations imposed by human immunodeficiency virus (HIV) infection.[1] In addition to antitumor therapy, essential components of an optimal non-Hodgkin lymphoma treatment strategy include the following:[2,3]

  • Combined antiretroviral therapy.
  • Prophylaxis for opportunistic infections.
  • Rapid recognition and treatment of intercurrent infections.

Patients with HIV positivity and underlying immunodeficiency have poor bone marrow reserve, which compromises the potential for drug dose intensity. Intercurrent opportunistic infection is a risk that may also lead to a decrease in drug delivery. Furthermore, chemotherapy itself compromises the immune system and increases the likelihood of opportunistic infection.

References:

  1. Levine AM: Acquired immunodeficiency syndrome-related lymphoma: clinical aspects. Semin Oncol 27 (4): 442-53, 2000.
  2. Tirelli U, Bernardi D: Impact of HAART on the clinical management of AIDS-related cancers. Eur J Cancer 37 (10): 1320-4, 2001.
  3. Dunleavy K, Wilson WH: How I treat HIV-associated lymphoma. Blood 119 (14): 3245-55, 2012.

AIDS-Related Peripheral / Systemic Lymphoma

The treatment of AIDS-related lymphomas involves overcoming several problems. These are all aggressive lymphomas, which by definition are diffuse large cell/immunoblastic lymphoma or small noncleaved cell lymphoma (Burkitt lymphoma). These lymphomas frequently involve the bone marrow and central nervous system (CNS) and, therefore, are usually in an advanced stage. In addition, the immunodeficiency of AIDS and the leukopenia that is commonly seen with human immunodeficiency virus (HIV) infection makes the use of immunosuppressive chemotherapy challenging.

The introduction of combined antiretroviral therapy (cART) has led to a marked reduction in opportunistic infections, prolonged survival with HIV infection, and a median overall survival (OS) for patients with AIDS-related lymphoma that is comparable to the outcome in the nonimmunosuppressed population.[1,2,3,4,5,6,7][Level of evidence: 3iiiDiv] The use of cART has also allowed standard-dose and even intensive chemotherapy regimens to be given with reasonable safety to patients with AIDS-related lymphomas, which is comparable to the outcome in non-HIV patients.[1,2,3,4,5,6,7,8,9,10]

Several prospective nonrandomized trials and pooled individual data from 19 prospective trials that included 1,546 patients show that the addition of rituximab to combination chemotherapy improves the complete response rate, progression-free survival, and OS.[3,4,5,6][Level of evidence: 3iiiDiv] Several other prospective nonrandomized trials and the pooled individual data from the same 1,546 patients also show that infusional EPOCH (infusional etoposide, infusional vincristine, infusional doxorubicin, cyclophosphamide, and prednisone) produced better outcomes than did CHOP (cyclophosphamide, doxorubicin, vincristine, and prednisone) (OS HR, 0.33; P = .03).[3,6,7][Level of evidence: 3iiiDiv] Concurrent use of cART with the infusional EPOCH regimen is controversial; one group advocated for cART after completion of chemotherapy,[7] while others allowed concurrent therapy.[6]

For patients with Burkitt lymphoma, dose-modified regimens such as R-CODOX (cyclophosphamide, doxorubicin, vincristine, methotrexate, cytarabine and rituximab)-M/IVAC (ifosfamide, etoposide, and high-dose cytarabine) or R-EPOCH (etoposide, prednisone, vincristine, and doxorubicin hydrochloride [hydroxydaunorubicin hydrochloride] in combination with rituximab) have shown good results with concurrent or sequential cART.[7,11,12]

Patients at risk of subsequent CNS involvement include those with bone marrow involvement or those with EBV identified in the primary tumor or in the cerebrospinal fluid (i.e., by polymerase chain reaction).[13,14] Intrathecal chemotherapy is usually considered for patients who are at higher risk of CNS involvement.

Highly selected patients with resistant or relapsed lymphoma after first-line chemotherapy and with continued responsiveness to cART underwent second-line chemotherapy followed by high-dose therapy and autologous peripheral stem cell transplantation. Long-term survivors have been reported anecdotally for these highly selected patients who relapsed.[15,16,17,18][Level of evidence: 3iiiDiv]

Current Clinical Trials

Check the list of NCI-supported cancer clinical trials that are now accepting patients with AIDS-related peripheral/systemic lymphoma. The list of clinical trials can be further narrowed by location, drug, intervention, and other criteria.

General information about clinical trials is also available from the NCI website.

References:

  1. Mounier N, Spina M, Gabarre J, et al.: AIDS-related non-Hodgkin lymphoma: final analysis of 485 patients treated with risk-adapted intensive chemotherapy. Blood 107 (10): 3832-40, 2006.
  2. Weiss R, Mitrou P, Arasteh K, et al.: Acquired immunodeficiency syndrome-related lymphoma: simultaneous treatment with combined cyclophosphamide, doxorubicin, vincristine, and prednisone chemotherapy and highly active antiretroviral therapy is safe and improves survival--results of the German Multicenter Trial. Cancer 106 (7): 1560-8, 2006.
  3. Barta SK, Xue X, Wang D, et al.: Treatment factors affecting outcomes in HIV-associated non-Hodgkin lymphomas: a pooled analysis of 1546 patients. Blood 122 (19): 3251-62, 2013.
  4. Wyen C, Jensen B, Hentrich M, et al.: Treatment of AIDS-related lymphomas: rituximab is beneficial even in severely immunosuppressed patients. AIDS 26 (4): 457-64, 2012.
  5. Levine AM, Noy A, Lee JY, et al.: Pegylated liposomal doxorubicin, rituximab, cyclophosphamide, vincristine, and prednisone in AIDS-related lymphoma: AIDS Malignancy Consortium Study 047. J Clin Oncol 31 (1): 58-64, 2013.
  6. Sparano JA, Lee JY, Kaplan LD, et al.: Rituximab plus concurrent infusional EPOCH chemotherapy is highly effective in HIV-associated B-cell non-Hodgkin lymphoma. Blood 115 (15): 3008-16, 2010.
  7. Dunleavy K, Little RF, Pittaluga S, et al.: The role of tumor histogenesis, FDG-PET, and short-course EPOCH with dose-dense rituximab (SC-EPOCH-RR) in HIV-associated diffuse large B-cell lymphoma. Blood 115 (15): 3017-24, 2010.
  8. Ratner L, Lee J, Tang S, et al.: Chemotherapy for human immunodeficiency virus-associated non-Hodgkin's lymphoma in combination with highly active antiretroviral therapy. J Clin Oncol 19 (8): 2171-8, 2001.
  9. Wang ES, Straus DJ, Teruya-Feldstein J, et al.: Intensive chemotherapy with cyclophosphamide, doxorubicin, high-dose methotrexate/ifosfamide, etoposide, and high-dose cytarabine (CODOX-M/IVAC) for human immunodeficiency virus-associated Burkitt lymphoma. Cancer 98 (6): 1196-205, 2003.
  10. Cortes J, Thomas D, Rios A, et al.: Hyperfractionated cyclophosphamide, vincristine, doxorubicin, and dexamethasone and highly active antiretroviral therapy for patients with acquired immunodeficiency syndrome-related Burkitt lymphoma/leukemia. Cancer 94 (5): 1492-9, 2002.
  11. Dunleavy K, Wilson WH: How I treat HIV-associated lymphoma. Blood 119 (14): 3245-55, 2012.
  12. Noy A, Kaplan L, Lee J: Feasibility and toxicity of a modified dose intensive R-CODOX-M/IVAC for HIV-associated Burkitt and atypical Burkitt lymphoma (BL): preliminary results of a prospective multicenter phase II trial of the AIDS Malignancy Consortium (AMC). [Abstract] Blood 114 (22): A-3673, 2009.
  13. Cingolani A, Gastaldi R, Fassone L, et al.: Epstein-Barr virus infection is predictive of CNS involvement in systemic AIDS-related non-Hodgkin's lymphomas. J Clin Oncol 18 (19): 3325-30, 2000.
  14. Scadden DT: Epstein-Barr virus, the CNS, and AIDS-related lymphomas: as close as flame to smoke. J Clin Oncol 18 (19): 3323-4, 2000.
  15. Re A, Michieli M, Casari S, et al.: High-dose therapy and autologous peripheral blood stem cell transplantation as salvage treatment for AIDS-related lymphoma: long-term results of the Italian Cooperative Group on AIDS and Tumors (GICAT) study with analysis of prognostic factors. Blood 114 (7): 1306-13, 2009.
  16. Krishnan A, Molina A, Zaia J, et al.: Durable remissions with autologous stem cell transplantation for high-risk HIV-associated lymphomas. Blood 105 (2): 874-8, 2005.
  17. Costello RT, Zerazhi H, Charbonnier A, et al.: Intensive sequential chemotherapy with hematopoietic growth factor support for non-Hodgkin lymphoma in patients infected with the human immunodeficiency virus. Cancer 100 (4): 667-76, 2004.
  18. Balsalobre P, Díez-Martín JL, Re A, et al.: Autologous stem-cell transplantation in patients with HIV-related lymphoma. J Clin Oncol 27 (13): 2192-8, 2009.

AIDS-Related Primary Central Nervous System Lymphoma

As with other AIDS-related lymphomas, primary central nervous system lymphoma (PCNSL) is an aggressive B-cell neoplasm, either diffuse large B-cell or diffuse immunoblastic non-Hodgkin lymphoma (a subtype of diffuse large B-cell lymphoma). AIDS-related PCNSL has been reported to have a 100% association with Epstein-Barr virus (EBV).[1] These patients usually have evidence of low CD4-positive T lymphocyte counts, high human immunodeficiency virus viral load, severe debilitation, and focal neurologic symptoms such as seizures, changes in mental status, and paralysis.

Computed tomographic scans show contrast-enhancing mass lesions that may not always be distinguished from other CNS diseases, such as toxoplasmosis, that occur in AIDS patients.[2] Magnetic resonance imaging studies using gadolinium contrast may be a more useful initial diagnostic tool in differentiating lymphoma from cerebral toxoplasmosis or progressive multifocal leukoencephalopathy. Lymphoma tends to present with large lesions, which are enhanced by gadolinium. In cerebral toxoplasmosis, ring enhancement is very common, lesions tend to be smaller, and multiple lesions are seen.[3,4,5] Use of positron emission scanning has demonstrated an improved ability to distinguish PCNSL from toxoplasmosis.[6,7] PCNSL has an increased uptake while toxoplasmosis lesions are metabolically inactive. Antibodies against toxoplasmosis may also be very useful because most cerebral toxoplasmosis occurs as a consequence of reactivity of a previous infection. If the immunoglobulin G titer is less than 1:4, the disease is unlikely to be toxoplasmotic. A lumbar puncture may be useful to detect as many as 23% of patients with malignant cells in their cerebrospinal fluid (CSF). Evaluating the CSF for EBV DNA may be a useful lymphoma-specific tool because EBV is present in all patients with PCNSL. Despite the many evaluations, however, most patients with PCNSL require a pathologic diagnosis.[8,9,10] Diagnosis is made by biopsy. Sometimes, a biopsy is attempted only after failure of antibiotics for toxoplasmosis, which will produce clinical and radiographic improvement within 1 to 3 weeks in patients with cerebral toxoplasmosis.[11]

Radiation therapy alone has usually been used in this group of patients. With doses in the range of 35 Gy to 40 Gy, median duration of survival has been only 72 to 119 days.[2,12,13] Survival is longer in younger patients with better performance status and the absence of opportunistic infection.[14] In the combined antiretroviral therapy (cART) era, a median survival of 18 months can be seen with radiation therapy alone.[15] Most patients respond to treatment by showing partial improvement in neurologic symptoms. Autopsies have revealed that these patients die of opportunistic infections as well as tumor progression. Treatment of these patients is also complicated by other AIDS-related CNS infections, including subacute AIDS encephalitis, cytomegalovirus encephalitis, and toxoplasmosis encephalitis. Spontaneous remissions have been reported after cART.[16]

Current Clinical Trials

Check the list of NCI-supported cancer clinical trials that are now accepting patients with AIDS-related primary CNS lymphoma. The list of clinical trials can be further narrowed by location, drug, intervention, and other criteria.

General information about clinical trials is also available from the NCI website.

References:

  1. MacMahon EM, Glass JD, Hayward SD, et al.: Epstein-Barr virus in AIDS-related primary central nervous system lymphoma. Lancet 338 (8773): 969-73, 1991.
  2. Goldstein JD, Dickson DW, Moser FG, et al.: Primary central nervous system lymphoma in acquired immune deficiency syndrome. A clinical and pathologic study with results of treatment with radiation. Cancer 67 (11): 2756-65, 1991.
  3. Nyberg DA, Federle MP: AIDS-related Kaposi sarcoma and lymphomas. Semin Roentgenol 22 (1): 54-65, 1987.
  4. Fine HA, Mayer RJ: Primary central nervous system lymphoma. Ann Intern Med 119 (11): 1093-104, 1993.
  5. Ciricillo SF, Rosenblum ML: Use of CT and MR imaging to distinguish intracranial lesions and to define the need for biopsy in AIDS patients. J Neurosurg 73 (5): 720-4, 1990.
  6. Hoffman JM, Waskin HA, Schifter T, et al.: FDG-PET in differentiating lymphoma from nonmalignant central nervous system lesions in patients with AIDS. J Nucl Med 34 (4): 567-75, 1993.
  7. Pierce MA, Johnson MD, Maciunas RJ, et al.: Evaluating contrast-enhancing brain lesions in patients with AIDS by using positron emission tomography. Ann Intern Med 123 (8): 594-8, 1995.
  8. Cinque P, Brytting M, Vago L, et al.: Epstein-Barr virus DNA in cerebrospinal fluid from patients with AIDS-related primary lymphoma of the central nervous system. Lancet 342 (8868): 398-401, 1993.
  9. Cingolani A, De Luca A, Larocca LM, et al.: Minimally invasive diagnosis of acquired immunodeficiency syndrome-related primary central nervous system lymphoma. J Natl Cancer Inst 90 (5): 364-9, 1998.
  10. Yarchoan R, Jaffe ES, Little R: Diagnosing central nervous system lymphoma in the setting of AIDS: a step forward. J Natl Cancer Inst 90 (5): 346-7, 1998.
  11. Mathews C, Barba D, Fullerton SC: Early biopsy versus empiric treatment with delayed biopsy of non-responders in suspected HIV-associated cerebral toxoplasmosis: a decision analysis. AIDS 9 (11): 1243-50, 1995.
  12. Baumgartner JE, Rachlin JR, Beckstead JH, et al.: Primary central nervous system lymphomas: natural history and response to radiation therapy in 55 patients with acquired immunodeficiency syndrome. J Neurosurg 73 (2): 206-11, 1990.
  13. Remick SC, Diamond C, Migliozzi JA, et al.: Primary central nervous system lymphoma in patients with and without the acquired immune deficiency syndrome. A retrospective analysis and review of the literature. Medicine (Baltimore) 69 (6): 345-60, 1990.
  14. Corn BW, Donahue BR, Rosenstock JG, et al.: Performance status and age as independent predictors of survival among AIDS patients with primary CNS lymphoma: a multivariate analysis of a multi-institutional experience. Cancer J Sci Am 3 (1): 52-6, 1997 Jan-Feb.
  15. Hoffmann C, Tabrizian S, Wolf E, et al.: Survival of AIDS patients with primary central nervous system lymphoma is dramatically improved by HAART-induced immune recovery. AIDS 15 (16): 2119-27, 2001.
  16. McGowan JP, Shah S: Long-term remission of AIDS-related primary central nervous system lymphoma associated with highly active antiretroviral therapy. AIDS 12 (8): 952-4, 1998.

Changes to This Summary (10 / 02 / 2015)

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About This PDQ Summary

Purpose of This Summary

This PDQ cancer information summary for health professionals provides comprehensive, peer-reviewed, evidence-based information about the treatment of AIDS-related lymphoma. It is intended as a resource to inform and assist clinicians who care for cancer patients. It does not provide formal guidelines or recommendations for making health care decisions.

Reviewers and Updates

This summary is reviewed regularly and updated as necessary by the PDQ Adult Treatment Editorial Board, which is editorially independent of the National Cancer Institute (NCI). The summary reflects an independent review of the literature and does not represent a policy statement of NCI or the National Institutes of Health (NIH).

Board members review recently published articles each month to determine whether an article should:

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Changes to the summaries are made through a consensus process in which Board members evaluate the strength of the evidence in the published articles and determine how the article should be included in the summary.

The lead reviewers for AIDS-Related Lymphoma Treatment are:

  • Eric J. Seifter, MD (Johns Hopkins University)
  • Minh Tam Truong, MD (Boston University Medical Center)

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PDQ® Adult Treatment Editorial Board. PDQ AIDS-Related Lymphoma Treatment. Bethesda, MD: National Cancer Institute. Updated <MM/DD/YYYY>. Available at: https://www.cancer.gov/types/lymphoma/hp/aids-related-treatment-pdq. Accessed <MM/DD/YYYY>. [PMID: 26389186]

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Last Revised: 2015-10-02