TO THE EDITOR:

Primary cutaneous CD30-positive lymphoproliferative disorders (pcCD30+LPDs) account for ∼30% of all cutaneous T-cell lymphomas.1,2  This group forms a spectrum, with primary cutaneous anaplastic large cell lymphoma (C-ALCL) on one end, lymphomatoid papulosis (LyP) on the other, and borderline cases in-between.3  Patients with C-ALCL mainly present with solitary or localized tumors. Patients with LyP present with a waxing and waning eruption of multiple papular and/or nodular skin lesions that exhibit spontaneous remission of individual lesions. Both conditions have an excellent prognosis with a 10-year disease-specific survival rate of 90% for C-ALCL and almost 100% for LyP.1,3  However, a small proportion of patients will develop extracutaneous localizations during follow-up and may require systemic treatment.1,3-5  At present, only limited data are available regarding therapeutic management of patients developing extracutaneous disease, and the optimal therapy is unknown.3,6-9  Former treatment guidelines suggest anthracycline-based chemotherapy (eg, cyclophosphamide, doxorubicin, vincristine, and prednisone).1,3,8,10,11  Unfortunately, information on the efficacy of these therapies is scarce but is essential as a benchmark for novel targeted therapies and for the development of therapeutic algorithms. This knowledge gap motivated us to evaluate current treatment results and prognosis of rare patients with pcCD30+LPDs who developed extracutaneous disease.

We identified 313 patients with C-ALCL and 472 patients with LyP who were included in the Dutch registry of cutaneous lymphomas between October 1985 and December 2017. Diagnosis was made by an expert panel of dermatologists and pathologists from the Dutch Cutaneous Lymphoma Group following the clinicopathologic criteria of the World Health Organization–European Organisation for Research and Treatment of Cancer classification.1  In all patients with C-ALCL, extracutaneous disease was excluded at time of diagnosis by using routine staging procedures (complete blood count, biochemical analysis, and computed tomography scan of chest, abdomen, and neck). Extracutaneous dissemination was defined as the development of histologically proven systemic localizations after diagnosis of C-ALCL/LyP.12  Follow-up data showed that 51 (6.5%) of 785 patients, including 38 of 313 with C-ALCL (12%) and 13 of 472 with LyP (3%), had developed extracutaneous manifestations. Patients with an anaplastic lymphoma kinase (ALK)-positive C-ALCL (n = 1), insufficient follow-up data (n = 4), or underlying immunodeficiency (n = 3) were excluded. The final study group of 43 patients included 30 patients with C-ALCL and 13 patients with LyP. Response rates (complete response [CR], partial response [PR], or no response or progressive disease [NR]) and patient outcomes were assessed following the European Organisation for Research and Treatment of Cancer, International Society for Cutaneous Lymphomas, and United States Cutaneous Lymphoma Consortium consensus guidelines for primary cutaneous CD30+LPDs.11  For the purpose of the study, no distinction was made between different anthracycline-based chemotherapies. This retrospective study was evaluated by the Ethics Committee of the Leiden University Medical Centre and provided with a waiver of consent (G18.118).

The Kaplan-Meier method was used to estimate (5-year) progression-free survival (PFS/PFS5) and overall survival (OS/OS5). Probabilities of (5-year) relapse and (5-year) disease-specific death (DSD/DSD5) over time were calculated with cumulative incidences, taking into account competing risks (any death for relapse, death from unrelated causes for DSD). Comparison between groups was performed by using the log-rank test. A P value <.05 was considered significant. All statistical analyses were performed by using SPSS version 23 (IBM SPSS Statistics, IBM Corporation).

The 43 patients with pcCD30+LPD who developed histologically proven extracutaneous disease during follow-up included 31 male patients and 12 female patients (male-to-female ratio, ∼3:1); the median age at initial diagnosis was 53 years (range, 26-79 years). Clinical characteristics and treatment responses before extracutaneous dissemination are presented in Table 1. After a median follow-up period of 35 months (range, 5-264 months), 32 patients developed nodal involvement, and 11 patients developed both nodal and visceral involvement. Most patients (34 of 43; 79%) were treated with anthracycline-based chemotherapies (detailed information is provided in supplemental Table 1, available on the Blood Web site). Four patients (9%) were treated with radiotherapy (RT), and five patients (12%) received no further therapy, due to patient refusal (n = 1), spontaneous regression (n = 1), or death before treatment initiation (n = 3). Overall, a CR of the extracutaneous manifestations was achieved in 26 (61%) of 43 patients and a PR in 4 (9%) of 43; 13 (30%) of 43 patients had NR. For patients treated with anthracycline-based chemotherapy specifically (n = 34; 79%), a CR was reached in 21 (62%) of 34 patients, a PR in 4 (12%) of 34, and NR in 9 (26%) of 34. All 4 patients treated with RT reached a CR (Table 2).

After treatment of extracutaneous disease, a 48% five-year cumulative incidence of relapse was reported in 26 patients with a CR, including skin-limited (n = 10), systemic (n = 3), and combined cutaneous and systemic (n = 3) relapses. Systemic relapses were only observed in patients with C-ALCL, whereas patients with LyP developed only skin-limited relapses (Table 2). Median time to relapse after extracutaneous treatment was 41 months (range, 4-101 months), and PFS5 was 39%. After a median follow-up period of 81 months (range, 12-360 months), 17 of 43 patients were alive without disease, 4 of 43 were alive with disease, and 19 of 43 had died of lymphoma and 3 of 43 patients had died of other causes. Five-year DSD and OS5 were both 47%.

Interestingly, 13 patients with solitary or localized skin lesions and only involvement of locoregional lymph nodes (T1-2;N1;M0) showed superior response rates and prognosis (11 of 13 [85%] CR, 62% PFS5, and 62% OS5) compared with 30 other patients developing more extensive extracutaneous disease (15 of 30 [50%] CR, 29% PFS5, and 41% OS5) (supplemental Table 2; supplemental Figure 1). In particular, patients with M1 disease showed poor outcomes (2 of 11 [18%] CR, 18% PFS5, and 18% OS5).

Although extracutaneous manifestations occurred more frequently in C-ALCL compared with LyP (11% vs 3%, respectively), the disease course after extracutaneous localizations was comparable (PFS, P = .42; DSD, P = .77; OS, P = .48).

The observed response rates and prognosis of patients with pcCD30+LPDs after extracutaneous development are very similar to results reported in ALK-negative systemic ALCL, showing that a similar treatment approach is indicated.13-15  Anthracycline-based therapies have been used as first-line treatment in systemic ALCL and have also been suggested as a first option in patients with C-ALCL developing extracutaneous disease. Consistently, in our study, most patients were treated upfront with this modality. Although the majority of patients respond to anthracycline-based therapies, ∼40% have poor results, which indicates that survival outcomes of these patients need to be improved by optimization of new treatment algorithms (Table 2). Although RT is already suggested as a suitable treatment option in patients with localized lesions and a solitary regional involved lymph node, and we confirmed superior survival in our study, only few patients actually received RT.

Recent studies reported promising results with brentuximab vedotin (BV) as first- and second-line treatment of systemic ALCL.16-21  This led to an approval by the US Food and Drug Administration for BV + cyclophosphamide, doxorubicin, and prednisone as a first-line treatment option in systemic ALCL and subsequent incorporation into the National Comprehensive Cancer Network Clinical Practice Guidelines in Oncology.18,22  Several studies also report high response rates of BV (monotherapy) in patients with pcCD30+LPDs, including patients with relapsed and extracutaneous C-ALCL.23-25  However, BV is expensive, cumulative neuropathy is a frequent adverse event and long-term effects are still unknown. Furthermore, most BV studies evaluated heterogeneous patient groups, impeding adequate analyses of survival outcomes for specific cutaneous T-cell lymphoma subtypes.

In the current study, we showed that prognosis of patients with a pcCD30+LPD who develop extracutaneous localizations corresponds with ALK-negative systemic ALCL and provides a benchmark for novel targeted therapies. Given the therapeutic success in ALK-negative systemic ALCL, BV-based regimens should be considered in patients with a pcCD30+LPD who develop extracutaneous localizations. RT may suffice in patients with localized lesions and a solitary regional involved lymph node (supplemental Figure 2).

The online version of this article contains a data supplement.

Contribution: R.C.M., R.W., J.S.P.V., P.M.J., L.A.D., M.H.V., and K.D.Q. designed the research and wrote the paper; M.W.B., E.R.M.d.H., B.H., M.M.v.R., C.J.G.S., and J.C.J.M.V. contributed to the acquisition of the data; H.P. performed and wrote statistical analyses; and all authors contributed to the concept and design of the study and approved the final version of the manuscript.

Conflict-of-interest disclosure: The authors declare no competing financial interests.

Correspondence: Rutger C. Melchers, Leiden University Medical Centre, Department of Dermatology, B1-Q, Albinusdreef 2, 2333 ZA Leiden, The Netherlands; e-mail: r.c.melchers@lumc.nl.

1.
Willemze
R
,
Jaffe
ES
,
Burg
G
, et al
.
WHO-EORTC classification for cutaneous lymphomas
.
Blood
.
2005
;
105
(
10
):
3768
-
3785
.
2.
Willemze
R
,
Cerroni
L
,
Kempf
W
, et al
.
The 2018 update of the WHO-EORTC classification for primary cutaneous lymphomas
.
Blood
.
2019
;
133
(
16
):
1703
-
1714
.
3.
Bekkenk
MW
,
Geelen
FA
,
van Voorst Vader
PC
, et al
.
Primary and secondary cutaneous CD30(+) lymphoproliferative disorders: a report from the Dutch Cutaneous Lymphoma Group on the long-term follow-up data of 219 patients and guidelines for diagnosis and treatment
.
Blood
.
2000
;
95
(
12
):
3653
-
3661
.
4.
Wieser
I
,
Oh
CW
,
Talpur
R
,
Duvic
M
.
Lymphomatoid papulosis: treatment response and associated lymphomas in a study of 180 patients
.
J Am Acad Dermatol
.
2016
;
74
(
1
):
59
-
67
.
5.
Cordel
N
,
Tressières
B
,
D’Incan
M
, et al;
French Study Group on Cutaneous Lymphoma
.
Frequency and risk factors for associated lymphomas in patients with lymphomatoid papulosis
.
Oncologist
.
2016
;
21
(
1
):
76
-
83
.
6.
Booken
N
,
Goerdt
S
,
Klemke
CD
.
Clinical spectrum of primary cutaneous CD30-positive anaplastic large cell lymphoma: an analysis of the Mannheim Cutaneous Lymphoma Registry
.
J Dtsch Dermatol Ges
.
2012
;
10
(
5
):
331
-
339
.
7.
Liu
HL
,
Hoppe
RT
,
Kohler
S
,
Harvell
JD
,
Reddy
S
,
Kim
YH
.
CD30+ cutaneous lymphoproliferative disorders: the Stanford experience in lymphomatoid papulosis and primary cutaneous anaplastic large cell lymphoma
.
J Am Acad Dermatol
.
2003
;
49
(
6
):
1049
-
1058
.
8.
Hapgood
G
,
Pickles
T
,
Sehn
LH
, et al
.
Outcome of primary cutaneous anaplastic large cell lymphoma: a 20-year British Columbia Cancer Agency experience
.
Br J Haematol
.
2017
;
176
(
2
):
234
-
240
.
9.
Shinohara
MM
,
Shustov
A
.
How I treat primary cutaneous CD30+ lymphoproliferative disorders
.
Blood
.
2019
;
134
(
6
):
515
-
524
.
10.
Willemze
R
,
Hodak
E
,
Zinzani
PL
,
Specht
L
,
Ladetto
M
,
Committee
EG
;
ESMO Guidelines Committee
.
Primary cutaneous lymphomas: ESMO Clinical Practice Guidelines for diagnosis, treatment and follow-up
.
Ann Oncol
.
2018
;
29
(
suppl 4
):
iv30
-
iv40
.
11.
Kempf
W
,
Pfaltz
K
,
Vermeer
MH
, et al
.
EORTC, ISCL, and USCLC consensus recommendations for the treatment of primary cutaneous CD30-positive lymphoproliferative disorders: lymphomatoid papulosis and primary cutaneous anaplastic large-cell lymphoma
.
Blood
.
2011
;
118
(
15
):
4024
-
4035
.
12.
Kim
YH
,
Willemze
R
,
Pimpinelli
N
, et al;
ISCL and the EORTC
.
TNM classification system for primary cutaneous lymphomas other than mycosis fungoides and Sezary syndrome: a proposal of the International Society for Cutaneous Lymphomas (ISCL) and the Cutaneous Lymphoma Task Force of the European Organization of Research and Treatment of Cancer (EORTC)
.
Blood
.
2007
;
110
(
2
):
479
-
484
.
13.
Savage
KJ
,
Harris
NL
,
Vose
JM
, et al;
International Peripheral T-Cell Lymphoma Project
.
ALK- anaplastic large-cell lymphoma is clinically and immunophenotypically different from both ALK+ ALCL and peripheral T-cell lymphoma, not otherwise specified: report from the International Peripheral T-Cell Lymphoma Project
.
Blood
.
2008
;
111
(
12
):
5496
-
5504
.
14.
Gleeson
M
,
Peckitt
C
,
Cunningham
D
, et al
.
Outcomes following front-line chemotherapy in peripheral T-cell lymphoma: 10-year experience at The Royal Marsden and The Christie Hospital
.
Leuk Lymphoma
.
2018
;
59
(
7
):
1586
-
1595
.
15.
Wang
X
,
Wu
J
,
Zhang
M
.
Advances in the treatment and prognosis of anaplastic lymphoma kinase negative anaplastic large cell lymphoma
.
Hematology
.
2019
;
24
(
1
):
440
-
445
.
16.
Donato
EM
,
Fernández-Zarzoso
M
,
Hueso
JA
,
de la Rubia
J
.
Brentuximab vedotin in Hodgkin lymphoma and anaplastic large-cell lymphoma: an evidence-based review
.
OncoTargets Ther
.
2018
;
11
:
4583
-
4590
.
17.
Horwitz
S
,
O’Connor
OA
,
Pro
B
, et al;
ECHELON-2 Study Group
.
Brentuximab vedotin with chemotherapy for CD30-positive peripheral T-cell lymphoma (ECHELON-2): a global, double-blind, randomised, phase 3 trial
.
Lancet
.
2019
;
393
(
10168
):
229
-
240
.
18.
Richardson
NC
,
Kasamon
YL
,
Chen
H
, et al
.
FDA approval summary: brentuximab vedotin in first-line treatment of peripheral T-cell lymphoma
.
Oncologist
.
2019
;
24
(
5
):
e180
-
e187
.
19.
Garciaz
S
,
Loschi
M
,
De Masson
A
, et al
.
Brentuximab vedotin as a bridge to allogeneic stem-cell transplantation for refractory or relapsing patients with CD30 positive anaplastic or T-cell non-Hodgkin lymphomas: a study on behalf of the SFGM-TC
.
Leuk Lymphoma
.
2019
;
60
(
11
):
2802
-
2805
.
20.
Pro
B
,
Advani
R
,
Brice
P
, et al
.
Five-year results of brentuximab vedotin in patients with relapsed or refractory systemic anaplastic large cell lymphoma
.
Blood
.
2017
;
130
(
25
):
2709
-
2717
.
21.
Fanale
MA
,
Horwitz
SM
,
Forero-Torres
A
, et al
.
Five-year outcomes for frontline brentuximab vedotin with CHP for CD30-expressing peripheral T-cell lymphomas
.
Blood
.
2018
;
131
(
19
):
2120
-
2124
.
22.
Horwitz
S
,
Ansell
S
,
Ai
WZ
, et al
.
NCCN Guidelines: T-cell lymphomas, version 2.2019
.
J Natl Compr Canc Netw
.
2018
;
23.
Duvic
M
,
Tetzlaff
MT
,
Gangar
P
,
Clos
AL
,
Sui
D
,
Talpur
R
.
Results of a Phase II trial of brentuximab vedotin for CD30+ cutaneous T-cell lymphoma and lymphomatoid papulosis
.
J Clin Oncol
.
2015
;
33
(
32
):
3759
-
3765
.
24.
Lewis
DJ
,
Talpur
R
,
Huen
AO
,
Tetzlaff
MT
,
Duvic
M
.
Brentuximab vedotin for patients with refractory lymphomatoid papulosis: an analysis of Phase 2 results
.
JAMA Dermatol
.
2017
;
153
(
12
):
1302
-
1306
.
25.
Prince
HM
,
Kim
YH
,
Horwitz
SM
, et al;
ALCANZA study group
.
Brentuximab vedotin or physician’s choice in CD30-positive cutaneous T-cell lymphoma (ALCANZA): an international, open-label, randomised, phase 3, multicentre trial
.
Lancet
.
2017
;
390
(
10094
):
555
-
566
.

Supplemental data

Sign in via your Institution