Introduction: Multiple endocrine neoplasia type 1 (MEN-1) is the most common inherited syndrome associated with NET development and gender-specific differences are emerging in neuroendocrine tumors (NETs). This study aimed to analyze gender difference in a single cohort of MEN-1 patients focusing on duodeno-pancreatic (DP)-NET and survival rates. Methods: MEN-1 patients referred to the Endocrinology Unit of the “Federico II” University of Naples, ENETS CoE, were retrospectively evaluated. Results: Among 100 MEN-1 patients enrolled, 59 (59%) were female and 41 (41%) male, and mean age at diagnosis was 39.4 years (range 5–86). No statistically significant association was identified between MEN-1 clinical manifestations and gender (primary hyperparathyroidism [PHPT] p: 1.0, DP-NET p: 0.83, pituitary adenoma [PA] p: 0.84, lung NET p: 0.64, and thymic NET p: 0.10), and similarly, age at diagnosis of MEN-1 and its individual manifestations was similar between genders. Survival analysis revealed no statistically significant difference between genders in DP-NET patients regarding progression disease p: 1.0 and death p: 1.0. Mean progression-free survival (PFS) of patients with DP-NET was 98.6 months (range 3–288), and mean overall survival (OS) was 130.1 months (range 3–444 months), without differences between genders (PFS p: 0.67 and OS p: 0.60). The Kaplan-Meier survival curves for PFS and OS showed no differences between genders (PFS p: 0.92; OS p: 0.87). Conclusion: In this MEN-1 cohort, no gender differences in the occurrence of PHPT, PA, DP-NET, lung NET, and thymic NET, nor in survival outcomes including PFS and OS within the DP-NET subcohort, emerged. Therefore, this study supports similar screening and follow-up for both male and female MEN-1 patients.

1.
Mele
C
,
Mencarelli
M
,
Caputo
M
,
Mai
S
,
Pagano
L
,
Aimaretti
G
, et al
.
Phenotypes associated with MEN1 syndrome: a focus on genotype-phenotype correlations
.
Front Endocrinol
.
2020
;
11
:
591501
.
2.
Marini
F
,
Giusti
F
,
Brandi
ML
.
Multiple endocrine neoplasia type 1: extensive analysis of a large database of Florentine patients
.
Orphanet J Rare Dis
.
2018
;
13
(
1
):
205
.
3.
Tsukada
T
,
Nagamura
Y
,
Ohkura
N
.
MEN1 gene and its mutations: basic and clinical implications
.
Cancer Sci
.
2009
;
100
(
2
):
209
15
.
4.
Marx
SJ
,
Agarwal
SK
,
Kester
MB
,
Heppner
C
,
Kim
YS
,
Skarulis
MC
, et al
.
Multiple endocrine neoplasia type 1: clinical and genetic features of the hereditary endocrine neoplasias
.
Recent Prog Horm Res
.
1999
;
54
:
397
439
; discussion 438-9.
5.
Marini
F
,
Giusti
F
,
Fossi
C
,
Cioppi
F
,
Cianferotti
L
,
Masi
L
, et al
.
Multiple endocrine neoplasia type 1: analysis of germline MEN1 mutations in the Italian multicenter MEN1 patient database
.
Endocrine
.
2018
;
62
(
1
):
215
33
.
6.
Syro
LV
,
Scheithauer
BW
,
Kovacs
K
,
Toledo
RA
,
Londoño
FJ
,
Ortiz
LD
, et al
.
Pituitary tumors in patients with MEN1 syndrome
.
Clinics
.
2012
;
67
(
Suppl 1
):
43
8
.
7.
Barry
S
,
Korbonits
M
.
Update on the genetics of pituitary tumors
.
Endocrinol Metab Clin North Am
.
2020
;
49
(
3
):
433
52
.
8.
Ito
T
,
Igarashi
H
,
Uehara
H
,
Berna
MJ
,
Jensen
RT
.
Causes of death and prognostic factors in multiple endocrine neoplasia type 1: a prospective study: comparison of 106 MEN1/Zollinger-Ellison syndrome patients with 1613 literature MEN1 patients with or without pancreatic endocrine tumors
.
Medicine
.
2013
;
92
(
3
):
135
81
.
9.
Volante
M
,
Mete
O
,
Pelosi
G
,
Roden
AC
,
Speel
EJM
,
Uccella
S
.
Molecular pathology of well-differentiated pulmonary and thymic neuroendocrine tumors: what do pathologists need to know
.
Endocr Pathol
.
2021
;
32
(
1
):
154
68
.
10.
Darling
TN
,
Skarulis
MC
,
Steinberg
SM
,
Marx
SJ
,
Spiegel
AM
,
Turner
M
.
Multiple facial angiofibromas and collagenomas in patients with multiple endocrine neoplasia type 1
.
Arch Dermatol
.
1997
;
133
(
7
):
853
7
.
11.
Ramundo
V
,
Milone
F
,
Severino
R
,
Savastano
S
,
Di Somma
C
,
Vuolo
L
, et al
.
Clinical and prognostic implications of the genetic diagnosis of hereditary NET syndromes in asymptomatic patients
.
Horm Metab Res
.
2011
;
43
(
11
):
794
800
.
12.
Tarquini
M
,
Ambrosio
MR
,
Albertelli
M
,
de Souza
PB
,
Gafà
R
,
Gagliardi
I
, et al
.
A tool to predict survival in stage IV entero-pancreatic NEN
.
J Endocrinol Invest
.
2021
;
44
(
6
):
1185
92
.
13.
Cuny
T
,
Barlier
A
.
The significance of MEN1 mutations in pituitary carcinomas
.
Biomark Med
.
2013
;
7
(
4
):
567
9
.
14.
Brandi
ML
,
Agarwal
SK
,
Perrier
ND
,
Lines
KE
,
Valk
GD
,
Thakker
RV
.
Multiple endocrine neoplasia type 1: latest insights
.
Endocr Rev
.
2021
;
42
(
2
):
133
70
.
15.
Thakker
RV
,
Newey
PJ
,
Walls
GV
,
Bilezikian
J
,
Dralle
H
,
Ebeling
PR
, et al
.
Clinical practice guidelines for multiple endocrine neoplasia type 1 (MEN1)
.
J Clin Endocrinol Metab
.
2012
;
97
(
9
):
2990
3011
.
16.
Albers
MB
,
Manoharan
J
,
Bollmann
C
,
Chlosta
MP
,
Holzer
K
,
Bartsch
DK
.
Results of duodenopancreatic reoperations in multiple endocrine neoplasia type 1
.
World J Surg
.
2019
;
43
(
2
):
552
8
.
17.
Manoharan
J
,
Bollmann
C
,
Kann
PH
,
Di Fazio
P
,
Bartsch
DK
,
Albers
MB
.
Gender differences in multiple endocrine neoplasia type 1: implications for screening
.
Visc Med
.
2020
;
36
(
1
):
3
9
.
18.
Goudet
P
,
Bonithon-Kopp
C
,
Murat
A
,
Ruszniewski
P
,
Niccoli
P
,
Ménégaux
F
, et al
.
Gender-related differences in MEN1 lesion occurrence and diagnosis: a cohort study of 734 cases from the Groupe d’etude des Tumeurs Endocrines
.
Eur J Endocrinol
.
2011
;
165
(
1
):
97
105
.
19.
Dreijerink
KMA
,
Mulder
KW
,
Winkler
GS
,
Höppener
JWM
,
Lips
CJM
,
Timmers
HTM
.
Menin links estrogen receptor activation to histone H3K4 trimethylation
.
Cancer Res
.
2006
;
66
(
9
):
4929
35
.
20.
Bartsch
DK
,
Slater
EP
,
Albers
M
,
Knoop
R
,
Chaloupka
B
,
Lopez
CL
, et al
.
Higher risk of aggressive pancreatic neuroendocrine tumors in MEN1 patients with MEN1 mutations affecting the CHES1 interacting MENIN domain
.
J Clin Endocrinol Metab
.
2014
;
99
(
11
):
E2387
91
.
21.
Ruggeri
RM
,
Altieri
B
,
Razzore
P
,
Retta
F
,
Sperti
E
,
Scotto
G
, et al
.
Gender-related differences in patients with carcinoid syndrome: new insights from an Italian multicenter cohort study
.
J Endocrinol Invest
.
2024
;
47
(
4
):
959
71
.
22.
Liccardi
A
,
Colao
A
,
Modica
R
.
Gender differences in lung neuroendocrine tumors: a single-center experience
.
Neuroendocrinology
.
2024
:
1
10
.
23.
Ruggeri
RM
,
Benevento
E
,
De Cicco
F
,
Fazzalari
B
,
Guadagno
E
,
Hasballa
I
, et al
.
Neuroendocrine neoplasms in the context of inherited tumor syndromes: a reappraisal focused on targeted therapies
.
J Endocrinol Invest
.
2023
;
46
(
2
):
213
34
.
24.
Cook
MB
,
McGlynn
KA
,
Devesa
SS
,
Freedman
ND
,
Anderson
WF
.
Sex disparities in cancer mortality and survival
.
Cancer Epidemiol Biomarkers Prev
.
2011
;
20
(
8
):
1629
37
.
25.
Hallet
J
,
Law
C
,
Singh
S
,
Mahar
A
,
Myrehaug
S
,
Zuk
V
, et al
.
Risk of cancer-specific death for patients diagnosed with neuroendocrine tumors: a population-based analysis
.
J Natl Compr Canc Netw
.
2021
;
19
(
8
):
935
44
.
26.
Romijn
JA
.
Hyperprolactinemia and prolactinoma
.
Handb Clin Neurol
.
2014
;
124
:
185
95
.
27.
Goudet
P
,
Murat
A
,
Binquet
C
,
Cardot-Bauters
C
,
Costa
A
,
Ruszniewski
P
, et al
.
Risk factors and causes of death in MEN1 disease. A GTE (Groupe d’Etude des Tumeurs Endocrines) cohort study among 758 patients
.
World J Surg
.
2010
;
34
(
2
):
249
55
.
28.
Vinault
S
,
Mariet
A-S
,
Le Bras
M
,
Mirallié
E
,
Cardot-Bauters
C
,
Pattou
F
, et al
.
metastatic potential and survival of duodenal and pancreatic tumors in multiple endocrine neoplasia type 1: A GTE and AFCE Cohort Study (Groupe d’étude des Tumeurs Endocrines and Association Francophone de Chirurgie Endocrinienne)
.
Ann Surg
.
2020
;
272
(
6
):
1094
101
.
29.
Marini
F
,
Giusti
F
,
Iantomasi
T
,
Brandi
ML
.
Parathyroid tumors: molecular signatures
.
Int J Mol Sci
.
2021
;
22
(
20
):
11206
.
30.
Faggiano
A
,
Modica
R
,
Lo Calzo
F
,
Camera
L
,
Napolitano
V
,
Altieri
B
, et al
.
Lanreotide therapy vs active surveillance in MEN1-related pancreatic neuroendocrine tumors < 2 centimeters
.
J Clin Endocrinol Metab
.
2020
;
105
(
1
):
dgz007
.
31.
Ruggeri
RM
,
Aini
I
,
Gay
S
,
Grossrubatscher
EM
,
Mancini
C
,
Tarsitano
MG
, et al
.
Efficacy and tolerability of somatostatin analogues according to gender in patients with neuroendocrine tumors
.
Rev Endocr Metab Disord
.
2024
;
25
(
2
):
383
98
.
32.
Marinari
M
,
Marini
F
,
Giusti
F
,
Brandi
ML
.
Role of nutrition in the management of patients with multiple endocrine neoplasia type 1
.
Nutrients
.
2024
;
16
(
11
):
1576
.
33.
Barrea
L
,
Muscogiuri
G
,
Modica
R
,
Altieri
B
,
Pugliese
G
,
Minotta
R
, et al
.
Cardio-metabolic indices and metabolic syndrome as predictors of clinical severity of gastroenteropancreatic neuroendocrine tumors
.
Front Endocrinol
.
2021
;
12
:
649496
.
34.
Modica
R
,
La Salvia
A
,
Liccardi
A
,
Cannavale
G
,
Minotta
R
,
Benevento
E
, et al
.
Lipid metabolism and homeostasis in patients with neuroendocrine neoplasms: from risk factor to potential therapeutic target
.
Metabolites
.
2022
;
12
(
11
):
1057
.
35.
Modica
R
,
La Salvia
A
,
Liccardi
A
,
Cozzolino
A
,
Di Sarno
A
,
Russo
F
, et al
.
Dyslipidemia, lipid-lowering agents and neuroendocrine neoplasms: new horizons
.
Endocrine
.
2024
;
85
(
2
):
520
31
.
36.
Ahmad
I
,
Suhail
M
,
Ahmad
A
,
Alhosin
M
,
Tabrez
S
.
Interlinking of diabetes mellitus and cancer: an overview
.
Cell Biochem Funct
.
2023
;
41
(
5
):
506
16
.
37.
Herrera-Martínez
AD
,
Pedraza-Arevalo
S
,
L-López
F
,
Gahete
MD
,
Gálvez-Moreno
MA
,
Castaño
JP
, et al
.
Type 2 diabetes in neuroendocrine tumors: are biguanides and statins part of the solution
.
J Clin Endocrinol Metab
.
2019
;
104
(
1
):
57
73
.
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