Cellular Classification of AIDS-Related Lymphoma

Pathologically, AIDS-related lymphomas are comprised of 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.

All three pathologic types are equally distributed and represent aggressive disease.

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 and polyclonal as well as 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 whose loss of regulation function 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 varying numbers of patients with AIDS-related lymphomas; molecular analysis suggests that the cells were infected before clonal proliferation began.[1] EBV is detected in 30% of patients with small, noncleaved lymphomas and in 80% of patients with diffuse, large cell lymphomas. The rare, primary effusion lymphoma consistently harbors human herpes virus 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.  [PUBMED Abstract]
   
   
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.  [PUBMED Abstract]
   
   
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.  [PUBMED Abstract]
   
   

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, the majority of patients with AIDS-related lymphomas have far-advanced disease.

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 Fever, Sweats, and Hot Flashes 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.

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.
• Tumor size.
• Lactate dehydrogenase (LDH) values.
• The number of extranodal sites.

To identify subgroups of patients most likely to relapse, an international prognostic index was compiled for 2,031 patients with aggressive NHL.[3] After validation by several cancer centers (NCT00003150),[4,5] the major cooperative groups used this index in the design of new clinical trials. The model has been simple to apply, reproducible, and has predicted outcome even after patients have achieved a complete remission. The model has identified five significant risk factors prognostic of overall survival (OS): age (<60 y vs. >60 y), serum LDH (normal vs. elevated), performance status (0 or 1 vs. 2–4), stage (stage I or stage II vs. stage III or stage IV), and extranodal site involvement (0 or 1 vs. 2–4).

Patients with two or more risk factors were shown to have a less than 50% chance of relapse-free and OS at 5 years. This study also identified patients at high risk of relapse based on specific sites of involvement, including bone marrow, central nervous system, liver, lung, and spleen. Patients at high risk of relapse may benefit from consolidation therapy or other approaches under clinical evaluation.[3] Molecular profiles of gene expression using DNA microarrays may help to stratify patients in the future for therapies directed at specific targets and to better predict survival after standard chemotherapy.[6,7]

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.  [PUBMED Abstract]
   
   
3. A predictive model for aggressive non-Hodgkin's lymphoma. The International Non-Hodgkin's Lymphoma Prognostic Factors Project. N Engl J Med 329 (14): 987-94, 1993.  [PUBMED Abstract]
   
   
4. Salles G, de Jong D, Xie W, et al.: Prognostic significance of immunohistochemical biomarkers in diffuse large B-cell lymphoma: a study from the Lunenburg Lymphoma Biomarker Consortium. Blood 117 (26): 7070-8, 2011.  [PUBMED Abstract]
   
   
5. Advani RH, Chen H, Habermann TM, et al.: Comparison of conventional prognostic indices in patients older than 60 years with diffuse large B-cell lymphoma treated with R-CHOP in the US Intergroup Study (ECOG 4494, CALGB 9793): consideration of age greater than 70 years in an elderly prognostic index (E-IPI). Br J Haematol 151 (2): 143-51, 2010.  [PUBMED Abstract]
   
   
6. Rosenwald A, Wright G, Chan WC, et al.: The use of molecular profiling to predict survival after chemotherapy for diffuse large-B-cell lymphoma. N Engl J Med 346 (25): 1937-47, 2002.  [PUBMED Abstract]
   
   
7. Abramson JS, Shipp MA: Advances in the biology and therapy of diffuse large B-cell lymphoma: moving toward a molecularly targeted approach. Blood 106 (4): 1164-74, 2005.  [PUBMED Abstract]
   
   

Treatment Option Overview

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 HIV infection, which to date is a chronic incurable illness.[1] In addition to antitumor therapy, essential components of an optimal non-Hodgkin lymphoma treatment strategy include the following:[2]

• Highly active 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.  [PUBMED Abstract]
   
   
2. Tirelli U, Bernardi D: Impact of HAART on the clinical management of AIDS-related cancers. Eur J Cancer 37 (10): 1320-4, 2001.  [PUBMED Abstract]
   
   

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. 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 difficult.

A large number of retrospective studies and several prospective studies have been reported using regimens such as cyclophosphamide, doxorubicin, vincristine, and prednisone (CHOP), methotrexate, bleomycin, doxorubicin, cyclophosphamide, vincristine, and dexamethasone (m-BACOD), and infusional cyclophosphamide, doxorubicin, and etoposide.[1-4] The patients who go into remission are more likely to have less disease, no bone marrow or CNS involvement, no prior AIDS-defining illness, and a better performance status. Patients at risk for subsequent CNS involvement include those with bone marrow involvement or those with Epstein-Barr virus identified in the primary tumor or in the cerebrospinal fluid (i.e., by polymerase chain reaction).[5-7] Intrathecal chemotherapy is usually considered for those patients at higher risk for CNS involvement.

Prior to the highly active antiretroviral therapy (HAART) era, a randomized trial of patients with HIV and either Burkitt lymphoma (BL) or diffuse large B-cell lymphoma (DLBCL) compared standard dose chemotherapy and growth factor support with reduced-dose chemotherapy.[1] No difference was found in overall survival (OS) between the two dose levels, and no difference was observed between the historic groups (BL and DLBCL); however, the median survival was equally poor at 6 to 7 months.[1][Level of evidence: 1iiA] The introduction of HAART has led to a marked reduction in opportunistic infections, prolonged survival with HIV infection, and a median OS for patients with AIDS-related lymphoma, which is comparable to the outcome in the nonimmunosuppressed population.[4,8-14][Level of evidence: 3iiiDiv] The use of HAART has also allowed the use of 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.[3,4,13-16]

In a retrospective review of 363 patients with HIV-associated lymphoma, survival of patients with HIV-DLBCL improved in the HAART era, but survival of similarly treated patients with HIV-BL remained poor.[17][Level of evidence: 3iiiDiv] Future studies will evaluate if more intensive chemotherapy appropriate for non-HIV patients with BL results in better outcomes for patients with HIV-BL.[17] A prospective randomized comparison (AMC-010) of rituximab plus CHOP (R-CHOP) versus CHOP in 150 patients with HIV-DLBCL and HIV-BL showed no difference in (OS); treatment-related infectious deaths occurred in 14% of patients who received R-CHOP versus 2% of patients who received CHOP alone (P = .035).[18][Level of evidence: 1iiA] A Cochrane meta-analysis published in 2009 evaluated 857 patients in four randomized clinical trials; no clinical conclusions regarding the optimal regimen could be reached as a result of varying interventions and the lack of adequately powered trials with a low risk of bias.[19]

Highly selected patients with resistant or relapsed lymphoma after first-line chemotherapy and with continued responsiveness to HAART 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.[20-23][Level of evidence: 3iiiDiv]

Check for U.S. clinical trials from NCI's list of 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 Web site.

References

1. 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.  [PUBMED Abstract]
   
   
2. Sparano JA, Lee S, Chen MG, et al.: Phase II trial of infusional cyclophosphamide, doxorubicin, and etoposide in patients with HIV-associated non-Hodgkin's lymphoma: an Eastern Cooperative Oncology Group Trial (E1494). J Clin Oncol 22 (8): 1491-500, 2004.  [PUBMED Abstract]
   
   
3. 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.  [PUBMED Abstract]
   
   
4. Levine AM, Tulpule A, Espina B, et al.: Liposome-encapsulated doxorubicin in combination with standard agents (cyclophosphamide, vincristine, prednisone) in patients with newly diagnosed AIDS-related non-Hodgkin's lymphoma: results of therapy and correlates of response. J Clin Oncol 22 (13): 2662-70, 2004.  [PUBMED Abstract]
   
   
5. Gill PS, Levine AM, Krailo M, et al.: AIDS-related malignant lymphoma: results of prospective treatment trials. J Clin Oncol 5 (9): 1322-8, 1987.  [PUBMED Abstract]
   
   
6. 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.  [PUBMED Abstract]
   
   
7. 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.  [PUBMED Abstract]
   
   
8. Palella FJ Jr, Delaney KM, Moorman AC, et al.: Declining morbidity and mortality among patients with advanced human immunodeficiency virus infection. HIV Outpatient Study Investigators. N Engl J Med 338 (13): 853-60, 1998.  [PUBMED Abstract]
   
   
9. Antinori A, Cingolani A, Alba L, et al.: Better response to chemotherapy and prolonged survival in AIDS-related lymphomas responding to highly active antiretroviral therapy. AIDS 15 (12): 1483-91, 2001.  [PUBMED Abstract]
   
   
10. 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.  [PUBMED Abstract]
    
    
11. Tam HK, Zhang ZF, Jacobson LP, et al.: Effect of highly active antiretroviral therapy on survival among HIV-infected men with Kaposi sarcoma or non-Hodgkin lymphoma. Int J Cancer 98 (6): 916-22, 2002.  [PUBMED Abstract]
    
    
12. Vaccher E, Spina M, Talamini R, et al.: Improvement of systemic human immunodeficiency virus-related non-Hodgkin lymphoma outcome in the era of highly active antiretroviral therapy. Clin Infect Dis 37 (11): 1556-64, 2003.  [PUBMED Abstract]
    
    
13. 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.  [PUBMED Abstract]
    
    
14. 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.  [PUBMED Abstract]
    
    
15. 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.  [PUBMED Abstract]
    
    
16. 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.  [PUBMED Abstract]
    
    
17. Lim ST, Karim R, Nathwani BN, et al.: AIDS-related Burkitt's lymphoma versus diffuse large-cell lymphoma in the pre-highly active antiretroviral therapy (HAART) and HAART eras: significant differences in survival with standard chemotherapy. J Clin Oncol 23 (19): 4430-8, 2005.  [PUBMED Abstract]
    
    
18. Kaplan LD, Lee JY, Ambinder RF, et al.: Rituximab does not improve clinical outcome in a randomized phase 3 trial of CHOP with or without rituximab in patients with HIV-associated non-Hodgkin lymphoma: AIDS-Malignancies Consortium Trial 010. Blood 106 (5): 1538-43, 2005.  [PUBMED Abstract]
    
    
19. Martí-Carvajal AJ, Cardona AF, Lawrence A: Interventions for previously untreated patients with AIDS-associated non-Hodgkin's lymphoma. Cochrane Database Syst Rev (3): CD005419, 2009.  [PUBMED Abstract]
    
    
20. 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.  [PUBMED Abstract]
    
    
21. 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.  [PUBMED Abstract]
    
    
22. 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.  [PUBMED Abstract]
    
    
23. 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.  [PUBMED Abstract]
    
    

AIDS-Related Primary Central Nervous System Lymphoma

Until the 1980s, primary central nervous system lymphoma (PCNSL) was a rare disease. PCNSL has increased dramatically in association with AIDS.[1] PCNSL accounts for approximately 0.6% of initial AIDS diagnoses and is the second most frequent central nervous system (CNS) mass lesion in adults with AIDS. As with other AIDS-related lymphomas, these are usually aggressive B-cell neoplasms, either diffuse large cell or diffuse immunoblastic non-Hodgkin lymphoma. Unlike AIDS-related systemic lymphomas, in which 30% to 50% of tumors are associated with Epstein-Barr virus (EBV), AIDS-related PCNSL has been reported to have a 100% association with EBV.[2] This percentage indicates a pathogenetic role for EBV in this disease. These patients usually have evidence of far-advanced AIDS, are severely debilitated, and present with 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.[3] 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.[4-6] Use of positron emission scanning has demonstrated an improved ability to distinguish PCNSL from toxoplasmosis.[7,8]

PSNCL has an increased uptake while toxoplasmosis lesions are metabolically inactive. Antibodies against toxoplasmosis may also be very useful because the vast majority of cerebral toxoplasmosis occur as a consequence of reactivity of a previous infection. If the IgG 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 since EBV is present in all patients with PCNSL. Despite all of these evaluations, however, the majority of patients with PCNSL require a pathologic diagnosis.[9-11] 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.[12] PCNSL is often identified as a terminal manifestation of AIDS or on postmortem examination.

Radiation therapy alone has usually been used in this group of patients. With doses in the 35 Gy to 40 Gy range, median duration of survival has been only 72 to 119 days.[3,13,14] Survival is longer in younger patients with better performance status and the absence of opportunistic infection.[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 highly active antiretroviral therapy.[16]

Check for U.S. clinical trials from NCI's list of 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 Web site.

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.  [PUBMED Abstract]
   
   
2. 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.  [PUBMED Abstract]
   
   
3. 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.  [PUBMED Abstract]
   
   
4. Nyberg DA, Federle MP: AIDS-related Kaposi sarcoma and lymphomas. Semin Roentgenol 22 (1): 54-65, 1987.  [PUBMED Abstract]
   
   
5. Fine HA, Mayer RJ: Primary central nervous system lymphoma. Ann Intern Med 119 (11): 1093-104, 1993.  [PUBMED Abstract]
   
   
6. 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.  [PUBMED Abstract]
   
   
7. 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.  [PUBMED Abstract]
   
   
8. 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.  [PUBMED Abstract]
   
   
9. 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.  [PUBMED Abstract]
   
   
10. 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.  [PUBMED Abstract]
    
    
11. 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.  [PUBMED Abstract]
    
    
12. 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.  [PUBMED Abstract]
    
    
13. 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.  [PUBMED Abstract]
    
    
14. 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.  [PUBMED Abstract]
    
    
15. 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.  [PUBMED Abstract]
    
    
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.  [PUBMED Abstract]
    
    

Changes to This Summary (08/10/2012)

The PDQ cancer information summaries are reviewed regularly and updated as new information becomes available. This section describes the latest changes made to this summary as of the date above.

Stage Information for Aids-Related Lymphoma

This section was extensively revised.

AIDS-Related Peripheral/Systemic Lymphoma

An editorial change was made to this section.

This summary is written and maintained by the PDQ Adult Treatment Editorial Board, which is editorially independent of NCI. The summary reflects an independent review of the literature and does not represent a policy statement of NCI or NIH. More information about summary policies and the role of the PDQ Editorial Boards in maintaining the PDQ summaries can be found on the About This PDQ Summary and PDQ NCI's Comprehensive Cancer Database pages.

About This PDQ 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.

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:

• be discussed at a meeting,
• be cited with text, or
• replace or update an existing article that is already cited.

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:

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

Any comments or questions about the summary content should be submitted to Cancer.gov through the Web site's Contact Form. Do not contact the individual Board Members with questions or comments about the summaries. Board members will not respond to individual inquiries.

Some of the reference citations in this summary are accompanied by a level-of-evidence designation. These designations are intended to help readers assess the strength of the evidence supporting the use of specific interventions or approaches. The PDQ Adult Treatment Editorial Board uses a formal evidence ranking system in developing its level-of-evidence designations.

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The preferred citation for this PDQ summary is:

National Cancer Institute: PDQ® AIDS-Related Lymphoma Treatment. Bethesda, MD: National Cancer Institute. Date last modified <MM/DD/YYYY>. Available at: http://cancer.gov/cancertopics/pdq/treatment/AIDS-related-lymphoma/HealthProfessional. Accessed <MM/DD/YYYY>.

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