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Although the invasive lobular carcinoma (ILC) is the second most frequent histologic subtype in Western countries, its incidence is much lower in Asia, and its characteristics are less well known.
Methods
We assessed the clinical characteristics and outcomes of 83 Korean patients (2.8%) with ILC for comparison with 2,833 (97.2%) with the invasive ductal carcinoma (IDC), including 1,088 (37.3%) with the luminal A subtype (LA-IDC).
Results
The mean age of all patients was 48.2 years, with no significant differences among the groups. Compared to IDC, ILC showed a larger tumor size (≥T2, 59.8% vs. 38.8%, P = 0.001), a lower histologic grade (HG 1/2, 90.4% vs. 64.4%, P < 0.001), more frequent estrogen receptor positive (90.4% vs. 64.4%, P < 0.001), progesterone receptor positive (71.1% vs. 50.1%, P < 0.001) and HER2 negative (97.5% vs. 74.6%, P < 0.001) status, and lower Ki-67 expression (10.3% ± 10.6% vs. 20.6% ± 19.8%, P < 0.001), as well as being more likely to be of the luminal A subtype (91.4% vs. 51.2%, P < 0.001). Six (7.2%) ILC and 359 (12.7%) IDC patients developed disease recurrence, with a median follow-up of 56.4 (range 4.9-136.6) months. The outcome of ILC was close to LA-IDC (HR 0.77 for recurrence, 95% CI 0.31-1.90, P = 0.57; HR 0.75 for death, 95% CI 0.18-3.09, P = 0.70) and significantly better than for the non-LA-IDC (HR 1.69 for recurrence, 95% CI 1.23-2.33, P = 0.001; HR 1.50 for death, 95% CI 0.97-2.33, P = 0.07).
Conclusions
ILC, a rare histologic type of breast cancer in Korea, has distinctive clinicopathological characteristics similar to those of LA-IDC.
The online version of this article (doi:10.1186/1471-2407-10-664) contains supplementary material, which is available to authorized users.
Competing interests
The authors declare that they have no competing interests.
Authors' contributions
SYJ participated in study design, data analysis and interpretation, manuscript drafting and revision. JJ participated in data acquisition. SHS participated in data acquisition. YK participated in data acquisition and manuscript revision. EAK participated in data acquisition and manuscript revision. KLK participated in data acquisition and manuscript revision. KHS participated in data acquisition and manuscript revision. KSL participated in data acquisition and manuscript revision. IHP participated in data acquisition and manuscript revision. SL participated in data acquisition and manuscript revision. SWK participated in data acquisition and manuscript revision. HSK participated in data acquisition and manuscript revision. JR participated in study design, data analysis and interpretation, manuscript drafting and revision, and study supervision. All authors read and approved the final manuscript.
CI
confidence interval
DFS
disease-free survival
ER
estrogen receptor
FISH
fluorescence in situ hybridization
HER2
human epidermal growth factor receptor-2
HR
hazard ratio
IDC
invasive ductal carcinoma
IHC
immunohistochemistry
ILC
invasive lobular carcinoma
LA
luminal A
OS
overall survival
PgR
progesterone receptor
TNBC
triple negative breast cancer
Background
The invasive lobular carcinoma (ILC), known to be the second most common histologic subtype of invasive breast cancer following the invasive ductal carcinoma (IDC), constitutes 8-14% of all breast cancers in most Western reports [1‐3]. However, in Asia it appears to be very low, accounting for only 2-4% in Korea [4‐6] and 1-4% in Japan [7, 8].
Previous studies have demonstrated distinctive clinical and biologic characteristics for ILC as compared with IDC. For example, it is more likely to occur in older patients, be larger in size, be estrogen receptor (ER) and progesterone receptor (PgR) positive and have low to absent human epidermal growth factor receptor-2 (HER2) expression [9, 10]. Traditionally, both ILC and IDC subtypes have received the same treatment, depending on their clinicopathological characteristics, and the prognosis is reported to be similar [10, 11].
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Recently, classification of breast cancers by gene expression profiling into particular subtypes has become established [12]. However, in clinical practice, the combination of expression of hormone receptors and HER2 by immunohistochemistry (IHC) is more commonly used to define breast cancers into the luminal A (ER+ or PgR+, HER2-), luminal B (ER+ or PgR+, HER2+), HER2-overexpressing (ER- and PgR-, HER2+), and triple-negative (TNBC: ER-, PgR-, HER2-) subtypes, which demonstrate major differences in clinical outcomes, with the luminal A subtype showing the best prognosis [13, 14]. The relative distributions of these four immunohistochemically defined subtypes in the lobular lesions have yet to be established in detail.
The purpose of the current study was to analyze the characteristics of an ILC series and compare the clinical and prognostic parameters with those of general IDC and of the luminal A subtype of IDC (LA-IDC).
Methods
Patients
All patients were treated at the National Cancer Center, Korea during the years from 2001 to 2008. A total of 83 consecutive cases diagnosed with pure ILC, including two cases with synchronous bilateral ILC, were enrolled in the study All ILC cases were classic subtype except for one case which was pleomorphic type. This particular case was triple negative by IHC. To compare clinicopathological characteristics and prognoses, 2,833 consecutive patients diagnosed with IDC during the same period were also selected.
Clinicopathological evaluation
We retrospectively evaluated conventional clinicopathological factors, including treatment modalities (type of operation, use of chemotherapy, hormone therapy, anti-HER2 therapy and radiotherapy) and the IHC results for five biological factors (ER [SP1], Ventana; PgR [1E2], Ventana; HER2 [polyclonal], DAKO; p53 [Bp53-11], Ventana; and Ki-67 [MIB-1], DAKO) using paraffin-embedded tissues according to the reported recommendations for tumor marker prognostic studies (REMARK) [15]. The pathological tumor stage was assessed according to the criteria described in the 6th edition of the American Joint Committee on Cancer (AJCC) staging manual [16]. The tumor grade was determined according to the Scarff-Bloom-Richardson classification modified by Elston and Ellis [17].
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A cut-off value of 10% of positively stained nuclei was used to define ER and PgR positivity; HER2 was scored as 0-3+ by a pathologist (Y. Kwon) according to the method recommended for the Dako Hercep Test. Cases with IHC scores of 3+ or 2+ with gene amplification by fluorescence in situ hybridization (FISH) were considered positive for HER2. Cells with positive staining for Ki-67 and p53 were counted and expressed as a percentage. For p53, we scored the lesions as 0-3+ (0, negative; 1+, ≤25%; 2+, 25-50%; 3+, >50%). For the prognosis comparison, low expression was defined as Ki-67 < 20% and p53 ≤ 25% (median values for all evaluated tumors).
For the subgroup analysis, the definition of Luminal A was as follows: positive ER or PgR by IHC, negative HER2 represented by an IHC score of 0 or 1+, or 2+ if not amplified by FISH. The HER2 cases of an IHC score of 2+ but no FISH results were counted as unknowns. The definitions of the other subtypes were as follows: Luminal B, ER or PgR positive and HER2 positive; HER2 overexpressing, low ER and PgR scores but HER2 positive; TNBC, low ER and PgR scores and HER2-negative.
Treatment, including surgery, adjuvant chemo, endocrine or anti-HER2 therapy, and radiotherapy, was applied equally to patients with ILC and IDC, dependent on the clinicopathological characteristics.
Statistical analysis
The primary endpoints of this study were disease-free survival (DFS) and overall survival (OS). The DFS period was defined as the interval from the date of diagnosis to the date of the first observation of disease recurrence, either loco-regional recurrence or distant metastasis, or the last follow-up date without any evidence of recurrence. Overall survival was calculated from the date of primary breast cancer diagnosis to the date of death or last follow-up.
To compare the clinicopathological characteristics between pairs of groups, we used the Student's t-test and the chi-square test. The DFS and OS rates were calculated using the Kaplan-Meier method, and the groups were compared using the log-rank test. For the multivariate analysis, Cox regression analysis was applied. Statistical analyses were performed using Stata 10.0 for Windows (Stata Corporation Station, TX, USA).
This study protocol was reviewed and approved by the Institutional Review Board of the National Cancer Center (NCCNCS-10-371), Korea, and it complied with the recommendations of the Declaration of Helsinki for biomedical research involving human subjects. The ethical review board supported that informed consent was not required for this study.
Results
Patient characteristics
The clinicopathological characteristics of the 83 ILC patients and 2,833 IDC patients are summarized in Table 1. The mean ages were 48.3 years and 48.2 years, respectively, with no difference in the distributions of age at diagnosis between ILC and IDC (Figure 1). Two patients with mixed lobular and ductal cancers were excluded from the analysis.
Table 1
Clinicopathological characteristics of invasive lobular carcinoma, invasive ductal carcinoma, and luminal A subtype
Characteristic
ILC
IDC
P
LA-IDC
P
(N = 83)
(N = 2833)
(N = 1088)
n
%
n
%
n
%
Mean age (years)
48.3 ± 8.5
48.2 ± 10.5
0.93
47.9 ± 10.2
0.71
pT
T1
33
40.2
1730
61.2
0.001
667
61.4
0.001
T2
45
54.9
986
34.9
373
34.4
T3
4
4.9
89
3.1
37
3.4
T4
0
0
23
0.8
9
0.8
Unknown
1
5
2
pN
N0
46
56.1
1639
58.7
0.18
551
51.5
0.25
N1
24
29.3
763
27.3
333
31.2
N2
5
6.1
276
9.9
128
12
N3
7
8.5
116
4.2
57
5.3
Unknown
1
39
19
M
M0
83
100
2777
98
0.19
1064
97.8
0.17
M1
0
0
56
2
24
2.2
Stage
I
25
30.1
1184
41.9
0.06
426
39.3
0.15
II
44
53
1248
44.2
476
44
III
14
16.9
337
11.9
157
14.5
IV
0
0
56
2
24
2.2
Unknown
0
8
5
HG
1 or 2
75
90.4
1438
54.9
<0.001
576
57.3
<0.001
3
8
9.6
1183
45.1
429
42.7
Unknown
212
83
ER
Positive
75
90.4
1825
64.4
<0.001
·
·
·
Negative
8
9.6
1008
35.6
·
·
PgR
Positive
59
71.1
1420
50.1
<0.001
·
·
·
Negative
24
28.9
1413
49.9
·
·
HER2
Negative
79
97.5
1586
74.6
<0.001
·
·
·
Positive
2
2.5
540
25.4
·
·
Unknown *
2
707
·
·
Subtype
Luminal A
74
91.4
1088
51.2
<0.001
·
·
·
Non-LA
7
8.6
1038
48.8
·
·
Unknown
2
707
·
·
p53
0 or 1+
74
93.7
2146
77.7
0.001
951
89.7
0.26
2+ or 3+
5
6.3
616
22.3
109
10.3
Unknown
4
71
28
Ki-67
10.3 ± 10.6
20.6 ± 19.8
<0.001
13.5 ± 13.2
0.03
Operation
BCS
57
68.7
2109
75.1
0.18
786
73
0.39
Mastectomy
26
31.3
698
24.9
290
27
None
0
0
26
3
Adjuvant therapy
Chemotherapy
Yes
68
81.9
2383
84.1
0.59
922
84.7
0.49
No
15
18.1
450
15.9
166
15.3
Hormone therapy
Yes
79
95.2
2113
74.6
<0.001
1057
97.2
0.31
No
4
4.8
720
25.4
31
2.8
Anti-HER2 therapy
Yes†
1
1.2
164
5.8
0.08
·
·
·
No
82
98.8
2669
94.2
·
·
Radiotherapy
Yes
64
77.1
2323
82
0.25
879
80.8
0.41
No
19
22.9
510
18
209
19.2
* Including 2+ for HER2 by immunohistochemistry without FISH.
† Thirty-seven of these patients were enrolled in the Adjuvant Lapatinib and/or Trastuzumab Treatment Optimisation (ALTTO) trial [25] and 53 patients were enrolled in the Tykerb Evaluation After Chemotherapy (TEACH) trial [26].
BCS, breast-conserving surgery; ER, estrogen receptor; HER2, human epidermal growth factor receptor 2; HG, histologic grade; M, distant metastasis at diagnosis; pT, pathological tumor stage; pN, pathological nodal stage; PgR, progesterone receptor.
Figure 1
Age distributions of invasive lobular carcinoma (ILC), invasive ductal carcinoma (IDC), and luminal A subtype of invasive ductal carcinoma (LA-IDC).
Compared to the IDC group, significantly more ILC patients presented with a low histologic grade (HG) (HG1 or 2, 90.4% vs. 54.9%, P < 0.001) and a large tumor size (≥T2, 59.8% vs. 38.8%, P = 0.001), although no difference was noted with respect to nodal involvement (43.9% vs. 41.3%, P = 0.18).
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Significantly more tumors were positive for hormone receptors and had a negative HER2 status in the ILC group as compared to the IDC group (ER+, 90.4% vs. 64.4%, P < 0.001; PgR+, 71.1% vs. 50.1%, P < 0.001; HER2-, 97.5% vs. 74.6%, P < 0.001), with a greater proportion of the luminal A subtype in the ILC group (91.4% vs. 51.2%, P < 0.001). In addition, the mean Ki-67 value was lower in the ILC group compared to the IDC group (10.3 ± 10.6% vs. 20.6 ± 19.8%, P < 0.001).
Because 91.4% of ILC were of the luminal A subtype, we further compared ILC to the 1,088 LA-IDC. Whereas significant differences between ILC and LA-IDC were found for size, HG and Ki-67, the rates of nodal involvement and the expression of p53 were similar (Table 1).
The treatment modalities in the ILC group were also comparable to those used in the LA-IDC group. One of two patients with a HER2 positive tumor among the ILC group who developed disease recurrence received anti-HER2 treatment upon recurrence.
Univariate analysis of DFS and OS of ILC compared to IDC patients
During the median follow-up of 56.4 (range 4.9-136.6) months, 365 patients experienced disease recurrence (6/83 ILC vs. 359/2833 IDC, P = 0.18) and 213 patients died (3/83 ILC vs. 210/2833 IDC, P = 0.28). One ILC patient experienced local recurrence, one contralateral breast cancer, and four distant metastasis.
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Table 2 shows the results of the univariate analysis of DFS and OS of the ILC group and of all IDC patients. Significant prognostic factors for DFS were age at diagnosis; tumor size; lymph node involvement; individual ER, PgR, and HER2 statuses; p53 (0 or 1+ vs. 2+ or 3+); Ki-67 (cut-off: 20%); the type of operation (breast conserving surgery [BCS] vs. mastectomy); adjuvant hormone therapy; and intrinsic subtype (luminal A vs. non-luminal A). However, there was no significant difference in the 5-year DFS rate between ILC and all IDC (91.7% in ILC vs. 87.4% in IDC, P = 0.31).
Table 2
Univariate analysis of disease-free survival (DFS) and overall survival (OS) of all patients
Characteristic
Patients (n)
5-yr DFS rate (%)
P
5-yr OS rate (%)
P
Age
<35 yrs
226
79.3
<0.001
86.3
<0.001
≥35 yrs
2690
88.2
93.1
pT
T1
1763
91.9
<0.001
95.1
<0.001
≥T2
1147
81
89.2
Unknown
6
pN
Negative
1685
93.8
<0.001
95.9
<0.001
Positive
1191
81.4
89.6
Unknown
40
M
0
2860
93.9
<0.001
1
56
24.6
Stage
I
1209
95.2
<0.001
97.2
<0.001
II
1292
89.4
94.8
III
351
69.2
80.4
IV
56
24.6
Unknown
8
HG
1 or 2
1513
88.7
0.39
93
0.84
3
1191
86.8
92.7
Unknown
212
ER
Positive
1900
91.1
<0.001
95.7
<0.001
Negative
1016
80.6
86.8
PgR
Positive
1479
92.4
<0.001
96.6
<0.001
Negative
1437
82.7
88.7
HER2
Negative
1665
86.1
<0.001
91.4
0.001
Positive
542
78.4
88.3
Unknown*
709
Subtype
Luminal A (LA)
1162
89.3
<0.001
93.9
<0.001
Non-LA
1045
78.5
87.1
Unknown
709
Histological type
ILC
83
91.7
0.31
93.6
0.38
IDC
2833
87.4
92.5
p53
0 or 1+
2220
90.9
<0.001
95.2
<0.001
2+ or 3+
621
81.8
87.1
Unknown
65
Ki-67
≤20%
1902
90.1
<0.001
94.4
<0.001
>20%
700
83.4
89.1
Unknown
314
Operation
BCS
2166
89.5
<0.001
94.6
<0.001
Mastectomy
724
84.2
88.6
None
27
Adjuvant therapy
Chemotherapy
Yes
2318
87.7
0.38
92.6
0.87
No
556
86.6
92.5
Hormone therapy
Yes
2192
90.4
<0.001
95.6
<0.001
No
724
78.9
83.9
Anti-HER2 therapy
Yes in HER2-positive †
147
80.7
0.77
93.1
0.48
No in HER2-positive
395
77.4
86.9
HER2-negative or unknown §
2374
Radiotherapy
Yes
2387
87.8
0.4
92.3
0.38
No
529
86.3
92.9
* Including 2+ for HER2 by immunohistochemistry without FISH.
† Thirty-seven of these patients were enrolled in the Adjuvant Lapatinib and/or Trastuzumab Treatment Optimisation (ALTTO) trial [25] and 53 patients were enrolled in the Tykerb Evaluation After Chemotherapy (TEACH) trial [26].
§ No anti-HER2 therapy due to negative or unknown for HER2 by immunohistochemistry without FISH.
ER, estrogen receptor; HER2, human epidermal growth factor receptor 2; HG, histologic grade; M, distant metastasis at diagnosis; pT, pathological tumor stage; pN, pathological nodal stage; PgR, progesterone receptor.
In the univariate analysis of OS, age, tumor size, nodal status, distant metastasis at diagnosis, individual ER, PgR, and HER2 statuses, p53, Ki-67, the type of operation, adjuvant hormone therapy and intrinsic subtype were prognostic factors. The 5-year OS rate was 93.6% for the ILC group and 92.5% for the IDC group (P = 0.38).
In this study, we classified the total 2,916 patients into ILC and four subtypes of IDC and compared the clinical outcomes. Figure 2 (a, b) presents the DFS and OS curves. The prognosis of ILC was similar to that of LA-IDC and was more favorable than with other subtypes of IDC; the 5-year DFS rates being 91.7% vs. 89.1% for LA-IDC, 80.7% for the luminal B subtype of IDC (LB-IDC), 78.9% for the triple-negative subtype of IDC (TN-IDC), and 75.9% for the HER2 overexpressing subtype (P < 0.001). The 5-year OS rates were 93.6%, vs. 93.4%, 92.8%, 85.8%, and 83.9%, respectively (P < 0.001).
Figure 2
Clinical outcomes according to subtypes. Disease-free survival (DFS) curves (a) and overall survival (OS) curves (b) for patients with invasive lobular carcinoma (ILC) and 4 subtypes of invasive ductal carcinoma (IDC). DFS curves (c) and OS curves (d) for patients with ILC, LA and non-LA subtypes, adjusting for other prognostic factors in multivariate analysis. Abbreviations: ILC, invasive lobular carcinoma; LA-IDC, luminal A subtype of invasive ductal carcinoma; LB-IDC, luminal B subtype of invasive ductal carcinoma; TN-IDC, triple-negative subtype of invasive ductal carcinoma.
Multivariate analysis of DFS and OS of ILC compared to IDC, LA-IDC, and non-LA-IDC
Using the significant variables determined by the univariate analysis, we performed a multivariate analysis for DFS and OS (Table 3). Patients younger than 35 years (HR 2.17. 95% CI 1.55-3.02, P < 0.001), with a larger tumor size (HR 1.85, 95% CI 1.44-2.37, P < 0.001), and lymph node involvement (HR 2.81, 95% CI 2.15-3.68, P < 0.001) demonstrated an unfavorable prognosis (Table 3). Non-LA-IDC (LB-IDC, TN-IDC, and HER2-overexpressing subtypes) showed a more unfavorable prognosis compared to LA-IDC (HR 1.69, 95% CI 1.23-2.33, P = 0.001), but the DFS rates for ILC and LA-IDC were similar (HR 0.77, 95% CI 0.31-1.90, P = 0.57).
Table 3
Multivariate analysis of disease-free survival (DFS) and overall survival (OS)
For OS, a young age (HR 1.96. 95% CI 1.27-3.02, P = 0.002), larger tumor size (HR 1.72, 95% CI 1.24-2.40, P = 0.001), lymph node involvement (HR 2.61, 95% CI 1.84-3.69, P < 0.001), the presence of distant metastasis at first diagnosis (HR 10.75, 95% CI 6.29-18.37, P < 0.001), p53 overexpression (HR 1.64, 95% CI 1.17-2.31, P = 0.004), and no hormone therapy (HR 1.81, 95% CI 1.21-2.71, P = 0.004) were identified as independent factors that were significantly associated with mortality (Table 3). However, OS did not differ between ILC and LA-IDC patients (ILC; HR 0.75, 95% CI 1.18-3.09, P = 0.70).
Figure 2 (c, d) shows the DFS and OS curves adjusted for other prognostic factors for ILC and IDC subtypes. The DFS curves for ILC were similar to those for LA-IDC and were more favorable than those for non-LA-IDC (P = 0.03). The OS of ILC and LA-IDC was better than that of non-LA-IDC, but the difference did not reach statistical significance (P = 0.16).
Discussion
ILC constitutes 2-4% of all breast cancer in Korea, as presented in the current study, which is much lower than the rate observed in most Western reports [1‐3]. Although ILC occurs more often in older women in Western countries [9, 10], our series demonstrated that age distributions were the same as those for overall IDC at diagnosis. Notably, the peak age of breast cancer patients in Korea is the late 40 s, which is 10 to 20 years younger than that in Western countries [4].
In the present study, the tumor size of ILC was larger than that of IDC, as observed in other studies [10, 18, 19]. Detection may be delayed because ILC is often clinically impalpable or mammographically invisible due to a lack of desmoplasia in the stroma [20]. Despite the larger tumor size, the rate of lymph node involvement in ILC did not differ from that in general IDC, which may reflect the slow growth rate of ILC, and this finding is consistent with other reports [10, 18]. Due to the difficulty associated with early detection, the larger tumor size in ILC adversely affected the outcomes of patients with poor DFS in the present study. We reported that ILC had lower histologic grade than IDC. Previously, Li et al. analyzed Surveillance, Epidemiology, and End Results Program data and demonstrated that ILC showed lower tumor grade than IDC specifically in 30-49 years old patient group [21]. Although Rakha et al. reported that histologic grade of ILC provided a strong predictor of outcome in breast cancer patients and should be provided routinely in pathology reports, we did not find such correlation [22].
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One of the objectives of the present study was to characterize more comprehensively the biological phenotype of ILC. As previously reported [6, 10], the majority of ILC showed ER or PgR positivity and HER2 negativity, which we defined as consistent with the LA-IDC subtype. Weigelt et al. also showed that most ILC fall into luminal A molecular subtype, although some ILC had cluster with either HER2 subtype or apocrine subtype [23]. Furthermore, ILC demonstrated lower p53 and Ki-67 expression compared to IDC and LA-IDC. All of these characteristics suggest that ILC likely originates from more differentiated luminal cells [24].
Previous studies have reported that the prognosis of ILC patients is similar to that of IDC patients [6, 10, 18], as confirmed in the present study. Arpino et al. analyzed 4,140 ILC patients and 45,169 not otherwise specified IDC patients and reported that the histologic type did not affect the prognosis despite the favorable biological phenotype of ILC [10]. However, the outcome of ILC in the present study was comparable to that of LA-IDC and significantly better than the outcomes of other, non-LA-IDC subtypes, when we further analyzed the prognosis by breast cancer subtype.
This study demonstrated a new aspect of ILC after construing the data including biologic markers other than general tumor characteristics in the consecutive breast cancer patients who received consistent therapeutic approaches at a single center. Similar clinicopathological characteristics and clinical outcomes between ILC and LA-IDC were discovered after we further compared ILC with the four subtypes. To our knowledge, this is the first report to show such similarities between ILC and LA-IDC.
Conclusions
ILC has distinct clinicopathological characteristics with a larger tumor at presentation, a lower HG, ER/PgR positive and HER2 negative status, and low Ki-67 expression, as compared to overall IDC. This study shows that most ILC are luminal A breast cancer, the prognosis of ILC is similar to that of LA-IDC, and both are better than the other subtypes.
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Acknowledgements
This study was supported in part by NCC grant 0910320.
Open Access
This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License (
https://creativecommons.org/licenses/by/2.0
), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Competing interests
The authors declare that they have no competing interests.
Authors' contributions
SYJ participated in study design, data analysis and interpretation, manuscript drafting and revision. JJ participated in data acquisition. SHS participated in data acquisition. YK participated in data acquisition and manuscript revision. EAK participated in data acquisition and manuscript revision. KLK participated in data acquisition and manuscript revision. KHS participated in data acquisition and manuscript revision. KSL participated in data acquisition and manuscript revision. IHP participated in data acquisition and manuscript revision. SL participated in data acquisition and manuscript revision. SWK participated in data acquisition and manuscript revision. HSK participated in data acquisition and manuscript revision. JR participated in study design, data analysis and interpretation, manuscript drafting and revision, and study supervision. All authors read and approved the final manuscript.
The invasive lobular carcinoma as a prototype luminal A breast cancer: A retrospective cohort study
Verfasst von
So-Youn Jung
Junsoo Jeong
Seung-Ho Shin
Youngmee Kwon
Eun-A Kim
Kyoung Lan Ko
Kyung Hwan Shin
Keun Seok Lee
In Hae Park
Seeyoun Lee
Seok Won Kim
Han-Sung Kang
Jungsil Ro
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Mit der NeoCol-Studie ist nun die dritte randomisierte kontrollierte Studie zur neoadjuvanten Therapie des lokal fortgeschrittenen CRC ohne Vorteil für das krankheitsfreie Überleben verlaufen. Und dennoch ruhen auf dem Ansatz weiter Hoffnungen.
Immer mehr Ärztinnen und Ärzte arbeiten angestellt in Praxen bzw. MVZ. Was im Arbeitsvertrag geklärt werden kann und sollte und wo Risiken liegen, erklärt Medizin- und Arbeitsrechtlerin Gabriele Leucht.
Die Prognose beim inflammatorischen Mammakarzinom bleibt ungünstig, wie eine Analyse von US-Registerdaten nahelegt. Ein weiteres Problem ist demnach, dass zunehmend weniger Frauen die leitliniengerechte trimodale Therapie erhalten.
Bei einem nach Radiotherapie lokal rezidivierten Prostatakarzinom sind fokale Salvage-Therapien mit einer guten Prognose verbunden: Das krebsspezifische Zehn-Jahres-Überleben ist einem retrospektiven Vergleich zufolge ebenso hoch wie nach Salvage-Prostatektomie.
