Introduction: Combined thyroid fine-needle aspiration (FNA) cytology and valine-to-glutamate substitution at codon 600 of B-Raf proto-oncogene, serine/threonine kinase (BRAF V600E) mutation detection are procedures used for diagnosing thyroid nodules in many Chinese tertiary institutions. This retrospective study at our institution aimed to explore the effectiveness and challenges of the combined approach in diagnosing thyroid nodules and the correlation between BRAF V600E mutation status and behavior of papillary thyroid carcinoma. Methods: Thyroid FNA cytology and BRAF V600E mutation detection results were reviewed between November 2020 and July 2022. A total of 623 patients, each of whom underwent thyroidectomy and final pathological examination after FNA cytology diagnosis, were included in the study. The relationship between the BRAF V600E mutational status and pathological parameters was analyzed using the χ2 test. The effectiveness and challenges of FNA cytology alone and the combined procedure were also evaluated based on the final pathology. Results: Of 623 patients, 591 were diagnosed with papillary thyroid carcinoma (PTC), of which 456 were positive for the BRAF V600E mutation. It demonstrated near-perfect specificity for identifying PTC, and its incidence rate showed an age-specific curve with an inverted U-shaped distribution. The final pathological examination showed that the combined procedure had a higher sensitivity (83.91%) than FNA cytology alone (63.45%) for distinguishing PTC from other lesions (p < 0.001). Mutational status was associated with a larger maximum tumor diameter (p = 0.003) and a tendency of capsular invasion (p = 0.0542) but possibly unrelated to central lymph node metastasis (p = 0.1846). Nodular goiters accounted for most benign entities initially designated as Bethesda categories III–V. Conclusion: BRAF V600E mutational analysis complements cytopathology and improves the PTC detection rate in FNA cytology samples due to the high prevalence of the mutation in China. BRAF V600E mutation does not show a statistical correlation with tumor aggressiveness. Morphological pitfalls such as histocyte aggregation, cystic-lining cells in nodular goiters, and oncocytes in Hashimoto’s thyroiditis, were overwhelmingly found in BRAF V600E-negative specimens.

1.
Siegel
RL
,
Miller
KD
,
Jemal
A
.
Cancer statistics, 2020
.
CA Cancer J Clin
.
2020
;
70
(
1
):
7
30
.
2.
Du
L
,
Wang
Y
,
Sun
X
,
Li
H
,
Geng
X
,
Ge
M
.
Thyroid cancer: trends in incidence, mortality and clinical-pathological patterns in Zhejiang Province, Southeast China
.
BMC Cancer
.
2018
;
18
(
1
):
291
.
3.
Haugen
BR
,
Alexander
EK
,
Bible
KC
,
Doherty
GM
,
Mandel
SJ
,
Nikiforov
YE
.
2015 American thyroid association management guidelines for adult patients with thyroid nodules and differentiated thyroid cancer: the American thyroid association guidelines task force on thyroid nodules and differentiated thyroid cancer
.
Thyroid
.
2016
;
26
(
1
):
1
133
.
4.
Melany
M
,
Chen
S
.
Thyroid cancer: ultrasound imaging and fine-needle aspiration biopsy
.
Endocrinol Metab Clin North Am
.
2017
;
46
(
3
):
691
711
.
5.
Cibas
ES
,
Ali
SZ
.
The 2017 Bethesda system for reporting thyroid cytopathology
.
Thyroid
.
2017
;
27
(
11
):
1341
6
.
6.
Suh
YJ
,
Choi
YJ
.
Strategy to reduce unnecessary surgeries in thyroid nodules with cytology of Bethesda category III (AUS/FLUS): a retrospective analysis of 667 patients diagnosed by surgery
.
Endocrine
.
2020
;
69
(
3
):
578
86
.
7.
Rashid
FA
,
Munkhdelger
J
,
Fukuoka
J
,
Bychkov
A
.
Prevalence of BRAFV600E mutation in Asian series of papillary thyroid carcinoma-a contemporary systematic review
.
Gland Surg
.
2020
;
9
(
5
):
1878
900
.
8.
Li
L
,
Li
P
,
Chen
X
,
Kang
L
,
Ye
Y
.
Diagnostic value of puncture feeling combined with BRAF V600E mutation in repeat US-FNA biopsy of Bethesda III thyroid nodules
.
Gland Surg
.
2021
;
10
(
6
):
2019
27
.
9.
Lu
SY
,
Chen
YC
,
Feng
JL
,
Zhou
QY
,
Chen
J
,
Zhu
CF
.
Detection of BRAF V600E in fine-needle aspiration samples of thyroid nodules by droplet digital PCR
.
Int J Endocrinol
.
2022
;
2022
:
6243696
.
10.
Jia
Y
,
Yu
Y
,
Li
X
,
Wei
S
,
Zheng
X
,
Yang
X
.
Diagnostic value of B-RAF (V600E) in difficult-to-diagnose thyroid nodules using fine-needle aspiration: systematic review and meta-analysis
.
Diagn Cytopathol
.
2014
;
42
(
1
):
94
101
.
11.
Kim
TH
,
Krane
JF
.
The evolution of “atypia” in thyroid fine-needle aspiration specimens
.
Diagn Cytopathol
.
2022
;
50
(
4
):
146
53
.
12.
Yan
C
,
Huang
M
,
Li
X
,
Wang
T
,
Ling
R
.
Relationship between BRAF V600E and clinical features in papillary thyroid carcinoma
.
Endocr Connect
.
2019
;
8
(
7
):
988
96
.
13.
Henke
LE
,
Pfeifer
JD
,
Ma
C
,
Perkins
SM
,
DeWees
T
,
El-Mofty
S
.
BRAF mutation is not predictive of long-term outcome in papillary thyroid carcinoma
.
Cancer Med
.
2015
;
4
(
6
):
791
9
.
14.
Chen
P
,
Pan
L
,
Huang
W
,
Feng
H
,
Ouyang
W
,
Wu
J
.
BRAF V600E and lymph node metastases in papillary thyroid cancer
.
Endocr Connect
.
2020
;
9
(
10
):
999
1008
.
15.
Zhang
YZ
,
Xu
T
,
Cui
D
,
Li
X
,
Yao
Q
,
Gong
H
.
Value of TIRADS, BSRTC and FNA-BRAF V600E mutation analysis in differentiating high-risk thyroid nodules
.
Sci Rep
.
2015
;
5
:
16927
.
16.
Wu
Y
,
Xu
T
,
Cao
X
,
Zhao
X
,
Deng
H
,
Wang
J
.
BRAFV600E vs TIRADS in predicting papillary thyroid cancers in Bethesda system I, III, and V nodules
.
Cancer Biol Med
.
2019
;
16
(
1
):
131
8
.
17.
Du
J
,
Han
R
,
Chen
C
,
Ma
X
,
Shen
Y
,
Chen
J
.
Diagnostic efficacy of ultrasound, cytology, and BRAFV600E mutation analysis and their combined use in thyroid nodule screening for papillary thyroid microcarcinoma
.
Front Oncol
.
2021
;
11
:
746776
.
18.
Brigante
G
,
Craparo
A
,
Pignatti
E
,
Marino
M
,
Monzani
ML
,
De Vincentis
S
.
Real-life use of BRAF-V600E mutation analysis in thyroid nodule fine needle aspiration: consequences on clinical decision-making
.
Endocrine
.
2021
;
73
(
3
):
625
32
.
19.
Trimboli
P
,
Scappaticcio
L
,
Treglia
G
,
Guidobaldi
L
,
Bongiovanni
M
,
Giovanella
L
.
Testing for BRAF (V600E) mutation in thyroid nodules with fine-needle aspiration (FNA) read as suspicious for malignancy (Bethesda V, Thy4, TIR4): a systematic review and meta-analysis
.
Endocr Pathol
.
2020
;
31
(
1
):
57
66
.
20.
Li
X
,
Li
E
,
Du
J
,
Wang
J
,
Zheng
B
.
BRAF mutation analysis by ARMS-PCR refines thyroid nodule management
.
Clin Endocrinol
.
2019
;
91
(
6
):
834
41
.
21.
Wobker
SE
,
Kim
LT
,
Hackman
TG
,
Dodd
LG
.
Use of BRAF v600e immunocytochemistry on FNA direct smears of papillary thyroid carcinoma
.
Cancer Cytopathol
.
2015
;
123
(
9
):
531
9
.
22.
Chung
KW
,
Yang
SK
,
Lee
GK
,
Kim
EY
,
Kwon
S
,
Lee
SH
.
Detection of BRAFV600E mutation on fine needle aspiration specimens of thyroid nodule refines cyto-pathology diagnosis, especially in BRAF600E mutation-prevalent area
.
Clin Endocrinol
.
2006
;
65
(
5
):
660
6
.
23.
Di Pasquale
M
,
Rothstein
JL
,
Palazzo
JP
.
Pathologic features of Hashimoto’s-associated papillary thyroid carcinomas
.
Hum Pathol
.
2001
;
32
(
1
):
24
30
.
24.
Jara
SM
,
Bhatnagar
R
,
Guan
H
,
Gocke
CD
,
Ali
SZ
,
Tufano
RP
.
Utility of BRAF mutation detection in fine-needle aspiration biopsy samples read as “suspicious for papillary thyroid carcinoma.”
.
Head Neck
.
2015
;
37
(
12
):
1788
93
.
25.
Beiša
A
,
Kvietkauskas
M
,
Beiša
V
,
Stoškus
M
,
Ostanevičiūtė
E
,
Jasiūnas
E
.
The utility of the Bethesda category and its association with BRAF mutation in the prediction of papillary thyroid cancer stage
.
Langenbecks Arch Surg
.
2017
;
402
(
2
):
227
34
.
26.
Zhu
Z
,
Su
C
,
Chen
G
,
Wan
F
,
Jin
M
,
Duan
X
.
Significance of FNAC, BRAF mutation, and intraoperative frozen section in surgical decision-making of thyroid nodules
.
Diagn Cytopathol
.
2023
;
51
(
7
):
441
8
.
27.
Barbaro
D
,
Incensati
RM
,
Materazzi
G
,
Boni
G
,
Grosso
M
,
Panicucci
E
.
The BRAF V600E mutation in papillary thyroid cancer with positive or suspected pre-surgical cytological finding is not associated with advanced stages or worse prognosis
.
Endocrine
.
2014
;
45
(
3
):
462
8
.
28.
Sun
J
,
Zhang
J
,
Lu
J
,
Gao
J
,
Ren
X
,
Teng
L
.
BRAF V600E and TERT promoter mutations in papillary thyroid carcinoma in Chinese patients
.
PLoS One
.
2016
;
11
(
4
):
e0153319
.
29.
Jiang
K
,
Zhou
J
,
Lei
J
,
Liu
Y
,
Li
J
,
Su
X
.
Cell block is a valuable adjunct to conventional smear for thyroid fine needle aspiration: 2395 cases with histological correlation
.
Cytopathology
.
2018
;
29
(
6
):
525
30
.
30.
Zhu
Y
,
Song
Y
,
Xu
G
,
Fan
Z
,
Ren
W
.
Causes of misdiagnoses by thyroid fine-needle aspiration cytology (FNAC): our experience and a systematic review
.
Diagn Pathol
.
2020
;
15
(
1
):
1
.
31.
Rossi
ED
,
Adeniran
AJ
,
Faquin
WC
.
Pitfalls in thyroid cytopathology
.
Surg Pathol Clin
.
2019
;
12
(
4
):
865
81
.
32.
Mezei
T
,
Kolcsár
M
,
Pașcanu
I
,
Vielh
P
.
False positive cases in thyroid cytopathology: the experience of a single laboratory and a systematic review
.
Cytopathology
.
2021
;
32
(
4
):
493
504
.
33.
Pusztaszeri
MP
,
Krane
JF
,
Cibas
ES
,
Daniels
G
,
Faquin
WC
.
FNAB of benign thyroid nodules with papillary hyperplasia: a cytological and histological evaluation
.
Cancer Cytopathol
.
2014
;
122
(
9
):
666
77
.
34.
Faquin
WC
,
Cibas
ES
,
Renshaw
AA
.
Atypical cells in fine-needle aspiration biopsy specimens of benign thyroid cysts
.
Cancer
.
2005
;
105
(
2
):
71
9
.
35.
Nassar
A
,
Gupta
P
,
LiVolsi
VA
,
Baloch
Z
.
Histiocytic aggregates in benign nodular goiters mimicking cytologic features of papillary thyroid carcinoma (PTC)
.
Diagn Cytopathol
.
2003
;
29
(
5
):
243
5
.
36.
Renshaw
AA
.
“Histiocytoid” cells in fine-needle aspirations of papillary carcinoma of the thyroid: frequency and significance of an under-recognized cytologic pattern
.
Cancer
.
2002
;
96
(
4
):
240
3
.
37.
Harvey
AM
,
Truong
LD
,
Mody
DR
.
Diagnostic pitfalls of Hashimoto’s/lymphocytic thyroiditis on fine-needle aspirations and strategies to avoid overdiagnosis
.
Acta Cytol
.
2012
;
56
(
4
):
352
60
.
38.
Thodou
E
,
Canberk
S
,
Schmitt
F
.
Challenges in cytology specimens with hürthle cells
.
Front Endocrinol
.
2021
;
12
:
701877
.
39.
Szporn
AH
,
Yuan
S
,
Wu
M
,
Burstein
DE
.
Cellular swirls in fine needle aspirates of papillary thyroid carcinoma: a new diagnostic criterion
.
Mod Pathol
.
2006
;
19
(
11
):
1470
3
.
40.
Wang
BC
,
Xu
GK
.
Cell chirality regulates coherent angular motion on small circular substrates
.
Biophys J
.
2022
;
121
(
10
):
1931
9
.
41.
Wu
J
,
Li
Y
,
Zhang
M
.
Clinical value of FNA puncture feeling in the diagnosis of non-diagnostic and indeterminate thyroid nodules
.
Front Endocrinol
.
2022
;
13
:
1022438
.
42.
Huang
J
,
Shi
H
,
Song
M
,
Liang
J
,
Zhang
Z
,
Chen
X
.
Surgical outcome and malignant risk factors in patients with thyroid nodule classified as Bethesda category III
.
Front Endocrinol
.
2021
;
12
:
686849
.
43.
Mao
Z
,
Ding
Y
,
Wen
L
,
Zhang
Y
,
Wu
G
,
You
Q
.
Combined fine-needle aspiration and selective intraoperative frozen section to optimize prediction of malignant thyroid nodules: a retrospective cohort study of more than 3000 patients
.
Front Endocrinol
.
2023
;
14
:
1091200
.
44.
Muratli
A
,
Erdogan
N
,
Sevim
S
,
Unal
I
,
Akyuz
S
.
Diagnostic efficacy and importance of fine-needle aspiration cytology of thyroid nodules
.
J Cytol
.
2014
;
31
(
2
):
73
8
.
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