Keywords
non-Hodgkin lymphoma - head and neck - AIDS - HIV
Introduction
Non-Hodgkin lymphoma (NHL) is an acquired immunodeficiency syndrome (AIDS)-defining
neoplasm that is mostly a high-grade B-cell lymphoma. In patients with AIDS, NHL represents
the second most common malignancy after Kaposi sarcoma. Patients with human immunodeficiency
virus (HIV) infection are at increased risk to develop NHL.[1]
[2] HIV infection increases the risk to develop NHL 100 to 200 times higher than in
the general population.[2] These lymphomas are characterized by their rapid progression, frequent extranodal
initial manifestations, and poor outcome.[2] This characteristic of extranodal involvement as the clinical presentation of the
disease is common to all subtypes of AIDS-related lymphomas, including diffuse large
B-cell lymphoma (DLBCL), Burkitt lymphoma (BL), and plasmablastic lymphoma (PBL).[3] Extranodal head and neck (HN) NHL comprises a group of various tumors with different
histology, treatment, and prognosis.
Although the widespread use of highly active antiretroviral treatment has been associated
with a significant decrease of some opportunistic infections and Kaposi sarcoma, this
is not as clear in the case of NHL and Hodgkin lymphoma in HIV-seropositive patients.
The present study is a retrospective evaluation of patients with primary extranodal
HN NHL treated at a reference Infectious Diseases Hospital in Buenos Aires, Argentina.
Methods
A retrospective study was performed of 24 patients with AIDS and extranodal HN NHL
assisted at a single hospital in Argentina between 2002 and 2012. We revised retrospectively
the epidemiologic, clinical, histopathologic, immunologic, and virologic findings
and the outcome. The patients were clinically staged according to the Ann Arbor system
and the American Joint Committee on Cancer (AJCC).[4] All diagnoses were confirmed by the histopathologic examination of biopsy smears
obtained from the lesions. We examined all patients and obtained complete blood cell
counts, serum biochemistry including lactate dehydrogenase (LDH) levels, and hepatitis
B and C (HCV) serology for all patients. To define the neoplasm extension, we performed
bone marrow aspirate, trephine biopsy, and chest X-ray and complete tomography scan
of the head and neck region, brain, thorax, abdomen, and pelvis. Histopathologic diagnosis
was made according to the criteria of the World Health Organization (WHO) Classification
of Tumors of Hematopoietic and Lymphoid Tissues.[5] Additional immunohistochemical stains were applied in all cases. Immunohistochemistry
examination included analysis of Ki 67 (proliferative) index and the mouse monoclonal antibodies directed against CD20,
CD45, CD10, CD138, plasma cell clone VS38c, and BCL-6. The primary antibodies were
from DAKO Diagnostics, Copenhagen, Denmark.
Epstein-Barr virus (EBV)-associated latent membrane protein-1 detected by immunohistochemical
and EBV-encoded mRNAs (EBERs) by in situ hybridization were analyzed in biopsy smears.
Based on the correct histopathologic setting, a cutoff of 10% was adopted to consider
EBER as positive. Detection of human herpesvirus-8 (HHV-8) RNA was performed by reverse
transcriptase polymerase chain reaction only in those patients with oral cavity involvement.
All available data were analyzed with Microsoft Office Excel 2003 (Microsoft Corp.,
Redmond, WA). Continuous variables were compared using Student test and the association
levels were analyzed with chi-square or Fisher exact tests. A p value < 0.05 was considered to be statistically significant.
Results
During the 10-year period, 106 HIV-infected patients were diagnosed with lymphomas;
73 (69%) of them were NHL and 33 (31%) were Hodgkin disease. Twenty-four of the NHLs
(32.8%) were diagnosed as HN NHL and were included in this study; 18 (75%) occurred
in men and 11 (45.8%) in intravenous drug abusers (IVDAs). At the time of the neoplasm
diagnosis, the median of age was 39 years. No difference between mean age, sexual
practice, or IVDA of the whole cohort of patients with lymphoma and HIV/AIDS and the
type of HN NHL was noted.
Considering the AJCC and using the Ann Arbor Classification System, 8 patients were
stage Ie, 9 patients were stage IIe, and the last 7 were stage IV ([Table 1]).
Table 1
Demographic and clinical findings in head and neck non-Hodgkin lymphomas in patients
with HIV (n = 24)
|
Patient no.
|
Gender
|
Age (y)
|
Risk factor
|
Neoplasm stage
|
Bone marrow infiltration
|
LDH level
|
|
1
|
M
|
52
|
UHC
|
Ie
|
Negative
|
1,422
|
|
2
|
M
|
31
|
Hemophilic
|
Ie
|
Negative
|
N/D
|
|
3
|
M
|
44
|
IVDA
|
IVe
|
N/D
|
N/D
|
|
4
|
M
|
26
|
IVDA
|
IIe
|
N/D
|
843
|
|
5
|
M
|
32
|
IVDA
|
IIe
|
N/D
|
950
|
|
6
|
M
|
38
|
IVDA
|
IIe
|
Negative
|
1,375
|
|
7
|
M
|
43
|
IVDA
|
IVe
|
Positive
|
N/D
|
|
8
|
M
|
51
|
NPHC
|
IIe
|
Negative
|
N/D
|
|
9
|
M
|
37
|
UHC
|
IVes
|
Positive
|
1,265
|
|
10
|
M
|
51
|
IVDA
|
Ie
|
Negative
|
1,433
|
|
11
|
F
|
25
|
UHC
|
IIe
|
Negative
|
1,186
|
|
12
|
F
|
24
|
UHC
|
IIe
|
Negative
|
489
|
|
13
|
M
|
35
|
UHC
|
Ie
|
Negative
|
313
|
|
14
|
M
|
38
|
IVDA
|
IVe
|
N/D
|
1,404
|
|
15
|
M
|
47
|
NPHC
|
IVe
|
Positive
|
2,721
|
|
16
|
M
|
39
|
IVDA
|
IVe
|
Positive
|
1,365
|
|
17
|
M
|
43
|
UHC
|
Ie
|
N/D
|
460
|
|
18
|
F
|
35
|
UHC
|
Ie
|
N/D
|
5,800
|
|
19
|
M
|
29
|
NPHC
|
IIe
|
N/D
|
468
|
|
20
|
M
|
37
|
UHC
|
IIe
|
N/D
|
926
|
|
21
|
F
|
60
|
UHC
|
IIe
|
N/D
|
N/D
|
|
22
|
F
|
42
|
IVDA
|
IVe
|
N/D
|
2,988
|
|
23
|
M
|
39
|
IVDA
|
Ie
|
Negative
|
341
|
|
24
|
F
|
55
|
UHC
|
Ie
|
Negative
|
419
|
Abbreviations: HIV, human deficiency virus; IVDA, intravenous drug abuser; LDH, lactate
dehydrogenase; N/D, not determined; NPHC, nonprotected homosexual contact; UHC, unprotected
heterosexual contact.
B symptoms, including fever, weight loss, and night sweats, were present in the majority
of patients. No evidence of concomitant opportunistic infection was found in the microbiologic
laboratory analysis.
LDH levels were available for 19 patients and were elevated in 16 (84%). The median
LDH level was 1,225 U/L (313 to 5,800 U/L). As our laboratory established 450 U/L
as the upper normal reference value, we stratified the HN NHL cohort into quartiles.
All patients with normal LDH levels were included in the first quartile (range: 0
to 478.5 U/L). LDH level within the first quartile was associated with absence of
bone marrow infiltration. After excluding an outlier patient with initial LDH level
higher than 5,000 U/L, the range of the first quartile was set between 0 and 473.25
U/L. Again, normal LDH levels were correlated with absence of bone marrow infiltration.
No correlation could be identified among LDH concentration and infiltration of skin
or bone tissue, HCV serologic status, or survival rates.
Bone marrow infiltration was detected only in 4 patients (16.6%, 3 cases of DLBCL
and 1 case of PBL) and only 4 patients (16.6%) presented regional nodal involvement,
2 with DLBCL and 2 with PBL. The 4 patients (16.6%) with nodal compromise were HCV-negative,
and the bone marrow biopsy was negative to atypical cells in all of them. Demographic
findings are summarized in [Table 1].
The gingiva and the hard palate were the most common site of the lesions (15 patients,
62.5%), followed by the bone including the upper and lower maxilla (6 cases, 26%),
the skin and soft tissue (5 cases, 21%) that involved the gingiva and the palate,
the parotid gland (3 cases, 13%), and the tonsils (2 cases, 8%). Some patients presented
more than one tumor tissue infiltration. Localizations are described in [Table 2].
Table 2
Head and neck non-Hodgkin lymphoma localization (n = 24)
|
Patient no.
|
Skin and ST
|
Parotid gland
|
Cavum
|
Palate
|
Gingiva
|
Bone
|
Tonsils
|
|
1
|
|
Positive
|
|
|
|
|
|
|
2
|
|
|
Positive
|
|
|
|
|
|
3
|
Positive
|
|
|
Positive
|
|
|
|
|
4
|
|
|
|
|
Positive
|
Positive
|
|
|
5
|
Positive
|
|
|
Positive
|
Positive
|
|
|
|
6
|
|
|
|
Positive
|
Positive
|
Positive
|
|
|
7
|
|
|
|
Positive
|
Positive
|
|
|
|
8
|
|
Positive
|
|
|
|
|
|
|
9
|
|
|
|
|
|
Positive
|
|
|
10
|
|
|
Positive
|
|
|
|
|
|
11
|
Positive
|
|
|
|
Positive
|
|
|
|
12
|
|
|
|
|
Positive
|
|
|
|
13
|
|
|
|
|
|
|
Positive
|
|
14
|
|
|
|
|
Positive
|
|
|
|
15
|
|
Positive
|
|
|
|
|
|
|
16
|
|
|
|
|
Positive
|
|
|
|
17
|
|
|
|
|
Positive
|
|
Positive
|
|
18
|
|
|
|
|
Positive
|
|
|
|
19
|
Positive
|
|
|
Positive
|
Positive
|
|
|
|
20
|
Positive
|
|
|
|
|
|
|
|
21
|
|
|
|
|
Positive
|
Positive
|
|
|
22
|
|
|
|
|
|
Positive
|
|
|
23
|
|
|
|
Positive
|
Positive
|
Positive
|
|
|
24
|
|
|
|
Positive
|
Positive
|
|
|
Abbreviation: ST, soft tissues.
The median CD4 T-cell count for the whole population at the time of neoplasm diagnosis
was 100 cells/µL with minor differences between the histopathologic subtypes; for
patients with DLBCL, the median was 64 cells/µL, 116 cells/µL in BL, and 128 cells/µL
for those with PBL.
All diagnoses were confirmed by the histopathologic examination of excisional or punch
biopsies. According to the histopathologic evaluation, the most common subtype was
DLBCL (12 cases, 50%), followed by PBL (9 cases, 37.5%) and BL (3 cases, 12.5%).
HCV serologic status was available in 18 patients (75%); 7 of them (38.9%) were positive
and were classified as coinfection (HIV/HCV). All patients with HCV infection were
IVDA and one was hemophilic. The small size of this cohort represents a limitation
to demonstrate any relation between coinfection with HCV and the risk to develop HN
NHL.
In 9 patients, EBER determination was available; 7 cases were positive. In more than
half (57.1%) of EBER-positive patients, a diagnosis of DLBCL was confirmed. In addition,
detection of HHV-8 RNA was performed in 10 patients with oral cavity involvement;
3 of them were positive. These results are summarized in [Table 3].
Table 3
Immunologic and histopathologic subtypes and virologic findings in 24 patients with
head and neck non-Hodgkin lymphomas
|
Patient no.
|
CD4 (cells/µL)
|
Type
|
EBV
|
HCV
|
HHV-8
|
|
1
|
50
|
DLBCL
|
Negative
|
Negative
|
N/D
|
|
2
|
177
|
DLBCL
|
N/D
|
Positive
|
N/D
|
|
3
|
78
|
BL
|
Positive
|
N/D
|
Negative
|
|
4
|
47
|
DLBCL
|
Positive
|
N/D
|
N/D
|
|
5
|
30
|
DLBCL
|
Positive
|
Negative
|
Negative
|
|
6
|
189
|
DLBCL
|
Positive
|
N/D
|
Negative
|
|
7
|
58
|
DLBCL
|
Positive
|
Positive
|
Negative
|
|
8
|
305
|
DLBCL
|
N/D
|
Negative
|
N/D
|
|
9
|
174
|
DLBCL
|
N/D
|
Negative
|
N/D
|
|
10
|
19
|
DLBCL
|
N/D
|
Positive
|
N/D
|
|
11
|
270
|
PBL
|
N/D
|
Negative
|
Negative
|
|
12
|
235
|
BL
|
N/D
|
Negative
|
Negative
|
|
13
|
173
|
DLBCL
|
N/D
|
Negative
|
Positive
|
|
14
|
116
|
BL
|
N/D
|
Positive
|
N/D
|
|
15
|
64
|
DLBCL
|
N/D
|
Negative
|
N/D
|
|
16
|
85
|
PBL
|
Negative
|
Positive
|
Negative
|
|
17
|
49
|
DLBCL
|
N/D
|
N/D
|
N/D
|
|
18
|
308
|
PBL
|
Positive
|
Negative
|
N/D
|
|
19
|
N/D
|
PBL
|
N/D
|
N/D
|
N/D
|
|
20
|
56
|
PBL
|
N/D
|
Negative
|
N/D
|
|
21
|
N/D
|
PBL
|
Positive
|
N/D
|
N/D
|
|
22
|
174
|
PBL
|
N/D
|
Positive
|
N/D
|
|
23
|
57
|
PBL
|
N/D
|
Positive
|
Positive
|
|
24
|
215
|
PBL
|
N/D
|
Negative
|
Positive
|
Abbreviations: BL, Burkitt lymphoma; DLBCL, diffuse large B-cell lymphoma; EBV, Epstein-Barr
virus; HCV, hepatitis C virus; HHV-8, human herpesvirus-8; N/D, not determined; PBL,
plasmablastic lymphoma.
Discussion
In the general population, extranodal NHL comprises 24 to 48% of all NHLs; approximately
10% of NHLs involve the HN region.[6]
[7] Hodgkin lymphomas and NHLs can be seen in the HN region. Hodgkin lymphoma is most
commonly located in the lymph nodes of the neck and mediastinum, and extranodal disease,
with or without lymph node involvement, is more common among NHL.[5] The majority of series including patients with AIDS-related lymphomas report a predominance
of these neoplasms among men (75% in our study) and in IVDAs (45.8% of our patients).[8]
[9]
The HN is the second most common site for extranodal lymphoma and can involve different
areas such as Waldeyer ring (i.e., the tonsils, pharynx, and hypopharynx), salivary
glands, orbit, paranasal sinuses, and thyroid glands.[10] In the general population, Waldeyer ring has been reported as a common site of primary
extranodal NHL of the HN with the tonsils as the most prevalent localization.[11]
[12] Overall, 60 to 70% of head and neck NHLs occur in the Waldeyer ring and 10 to 20%
of these arise from the nasopharynx,[6]
[9]
[13]
[14]
NHL of the head and neck in patients with AIDS presents frequently as large local
masses, with destruction of the maxilla, mandible, and bones around the paranasal
sinus.[15] When extending into the oral cavity, these large masses involving generally the
gingiva and the hard palate frequently present as ulcerative lesions.[3] In our series, which included only patients with AIDS, the oral cavity was the most
frequent tissue involvement. Also, in the general population, NHLs rarely involve
the salivary glands, which constitute 4% of these lymphomas.[3]
[16] These tumors generally involve the parotid glands, as we could see in three patients
of our series.[16]
[17]
[18]
[19]
[20]
[21]
[22] The majority of the patients in our series had B symptoms as clinical presentation
(fever, night sweats, and weight loss) similar to various opportunistic infections
in this population; 17 patients (70.8%) were diagnosed in the early stage (I or II)
of the neoplasm disease and 7 patients (29.1%) had advanced stages (IV).
Even though all subtypes of NHL may be detected from the HN area, immunohistochemistry
demonstrated that B-cell phenotype is predominant.[23]
[24] Consistent with other studies, in our series, DLBCL was the most common histopathologic
subtype and represented 50% of the patients, followed by the PBL with the 37.5% of
subjects and BL with 12.5%. WHO classifies PBL as an NHL of B-phenotype, predominantly
occurring in HIV-seropositive patients. PBL was the second most common histopathologic
subtype of HN NHL in our series. Also, PBL is an aggressive neoplasm, especially in
immunosuppressed patients with HIV.[3]
[16]
As in the general population, LDH levels should be described as a prognostic factor
in AIDS-associated NHL; 80% of the patients in this series had elevated levels of
LDH. In our cohort, normal levels of LDH in the presentation were associated with
no infiltration of bone marrow. These results may have therapeutic implications for
future research, with the possibility of avoiding invasive procedures and reducing
medical costs. However, the small size of the study group and the retrospective nature
of the analysis are important limitations for a definitive conclusion. Future investigations
in larger prospective cohorts may be useful to confirm these results.
In patients with AIDS, viral infections, especially EBV infection, have been associated
with the pathogenesis of NHL. This association occurs with different frequencies depending
on the clinical variant and the localization. HHV-8 is other oncogenic virus that
has also been reported in association with lymphomas in patients with AIDS and HIV,
especially in PBL.[3]
[25]
[26] Also, HCV should have a role in the pathogenesis of lymphomas in patients coinfected
with HIV. Duberg et al describe that patients infected with HCV have a high risk to
develop NHL in comparison with general population.[27] In our series, 7 of 18 patients (38.9%) were infected by HCV probably related with
the source of HIV infection.
There are obvious limitations to this study, including its retrospective nature and
the absence of follow-up in the included cases. The small size of the cohort and the
characteristics of a single center of infectious diseases should be included as another
limitation to study the outcome after the diagnosis.
Conclusion
In this case series that includes only patients with HIV-AIDS disease, primary HN
NHL was a frequent complication, arising more than 30% of all NHL. The majority of
patients presented with early stage of this neoplasm disease, but with clinical manifestations
(especially B symptoms) similar to some opportunistic infections that can affect this
kind of patient. In contrast with the general population, in patients with AIDS, large
intraoral cavity lesions, especially with the involvement of the hard palate and the
gingival, were the most common clinical presentation. Early diagnosis (based on a
high clinical suspicion) followed by combination therapy including highly active antiretroviral
therapy plus chemotherapy can improve the poor prognosis of these patients.
