The value of hepatic resection in metastasic renal cancer in the Era of Tyrosinkinase Inhibitor Therapy
verfasst von:
Hans Michael Hau, Florian Thalmann, Christoph Lübbert, Mehmet Haluk Morgul, Moritz Schmelzle, Georgi Atanasov, Christian Benzing, Undine Lange, Rudolf Ascherl, Roman Ganzer, Dirk Uhlmann, Hans-Michael Tautenhahn, Georg Wiltberger, Michael Bartels
The value of liver-directed therapy (LDT) in patients with metastasic renal cell carcinoma (MRCC) is still an active field of research, particularly in the era of tyrosinkinase inhibitor (TKI) therapy.
Methods
The records of 35 patients with MRCC undergoing LDT of metastasic liver lesions between 1992 and 2015 were retrospectively analyzed. Immediate postoperative TKI was given in a subgroup of patients after LDT for metastasic lesions. Uni- and multivariate models were applied to assess overall survival (OS), progression-free survival (PFS) and disease-free survival (DFS).
Results
Following primary tumor (renal cell cancer) resection and LDT, respectively, median OS was better for a total of 16 patients (41 %) receiving immediate postoperative TKI with 151 and 98 months, when compared to patients without TKI therapy with 61 (p = 0.003) and 40 months (p = 0.032). Immediate postoperative TKI was associated with better median PFS (47 months versus 19 months; p = 0.023), whereas in DFS only a trend was observed (51 months versus 19 months; p = 0.110).
Conclusions
LDT should be considered as a suitable additive tool in the era of TKI therapy of MRCC to the liver. In this context, postoperative TKI therapy seems to be associated with better OS and PFS, but not DFS.
Hinweise
Hans Michael Hau and Florian Thalmann are contributed equally to this work and share first authorship. Georg Wiltberger and Michael Bartels are contributed equally to this work and share senior authorship.
Background
Renal cell carcinoma (RCC) is one of the most common tumors with an increasing incidence of approximately 85 new cases and 35 deaths per 100 000 reported in 2012 in Europe [1‐3]. The majority of patients with RCC present with an early stage of their disease, 20–30 % have synchronous metastases and 20–50 % of the patients develop metastasic disease after primary tumor resection [4‐7].
Most data exist for lung metastases which represent the common sites of distant metastases [5, 8]. Although it is less common, liver metastases were observed in 30–40 % of the patients with metastasic disease [5, 9]. Unfortunately, development of liver metastasis was generally considered as a poor prognostic factor and was frequently associated with more widespread disease [10, 11]. That’s the reason why liver resections in these patients are often single decisions and consequently, there is little available literature on this topic. Although larger series were published with a focus on non-colorectal/non-neuroendocrine metastases, patients with RCC represent only a small subgroup and were not the focus of these studies [10, 12].
Anzeige
Unfortunately, the prognosis is poor in MRCC with 5-year survival ranging from 5 to 15 %, because chemotherapy, radiotherapy or immunotherapy have almost no influence or showed limited response [6, 8, 9, 11, 13‐16]. Since several years, antiangiogenic targeted therapies (TT), particularly tyrosinkinse inhibitor (TKI) agents, have become available and showed improved clinical outcomes in large multicenter trials [17‐21]. However, a majority of patients treated with TT develop resistance to this drugs and complete response remains extremely rare. Surgical treatment if feasible is the only potentially curative treatment option for patients with MRCC [7, 8, 22]. Complete resection of metastatic lesions is consistently associated with survival benefits as previous studies has noted [23‐25]. Thus, some authors reported 25–52 % five-year survival rates in cases of MRCC with complete resection and decreased risk of death from RCC [7, 8, 25‐27].
However, little information has been available on the utility and benefit of systemic treatment after complete resection of metastatic lesions. There are only a few reports with small patient numbers reporting low long-term progression-free survival rates after metastasectomy [8, 23, 26, 27]. Most of the studies had a focus on the adjuvant treatment with immunotherapeutic or chemotherapeutic agents [6, 24, 28]. Therefore, understanding the role of surgery in the era of TKI therapy - especially in the neoadjuvant and/or adjuvant multimodal treatment setting - is of increasing importance and interest.
In the present study, we examined besides the efficacy of surgical therapy for MRCC - with a focus to the liver - the different treatment regimens that were received by patients with hepatic metastasized RCC after surgical resections of metastases. In addition, we assessed the effect of immediate postoperative TT on short- and long-term outcome like survival, tumor recurrence and morbidity in patients with MRCC following primary tumor resection and liver-directed therapy, respectively.
Methods
Patient selection and study population
Medical records of patients undergoing liver-directed therapy (liver-directed therapy - LDT) for histologically proven RCC liver metastases (RCCLM) at the Department of Surgery, University Hospital of Leipzig, between 1992 and 2015 were analyzed retrospectively. The study was approved by the local ethical commission board from the University of Leipzig (AZ EK: 243-14-14072014). Due to the retrospective design of the study and accordingly national guidelines, the local ethic committee confirmed, that informed consent was not necessary from participants.
Anzeige
Inclusion criteria consist of patients with metastasic RCC to the liver who underwent LDT. Only patients with complete available follow-up data were included in the study. Patients with extended and unresectable liver tumors, peripheral diffuse metastasic disease, or diffuse hepatic involvements of all liver lobes were excluded from study. Resectable synchronous extra-hepatic site metastases were no contraindications for study inclusion provided that the overall surgical strategy aimed to be curative. All patients underwent staging examinations to determine suitability and eligibility for surgery including physical examination, serum laboratory tests, abdominal ultrasound, computed tomography (CT) (abdomen/chest) or magnetic resonance tomography. In some cases the diagnosis of liver metastasis was confirmed by fine-needle cytology or biopsy. The Karnofsky Performance Scale (KPS) of our study population were not less than 80.
All cases of patients with RCCLM were discussed by a multidisciplinary team to assess the indication and suitability for surgery. The decision for use of neoadjuvant and/or immediate adjuvant targeted therapy following liver metastasectomy was made on an individual basis in oncological tumor board and was not prospectively specified. With regards to survival analysis, patients who are withdrawn from a study as well as patients who are lost to follow-up or alive without the event occurrence at latest follow-up were censored in the survival chart.
The primary aim of the present study was to assess the effect of immediate postoperative TT/TKI therapy on progression-free survival (PFS)/disease-free survival (DFS) of patients with hepatic metastasized renal cell cancer who received metastasectomy of primary metastasic lesions or liver-directed therapy of metastatic hepatic lesions, respectively. The secondary endpoint was to assess the overall survival in the different treatment regimes.
Variables/data collection
Standard clinicopathological and demographic parameters of the study population were collected including: Patient age (years); gender (male versus female); body mass index (kg/m2); oncological parameters (Eastern Cooperative Oncology Group (ECOG) performance Status (0–5)); primary tumor characteristics (tumor location (right versus left kidney), T-stage (T1-T4), lymph node stage (N0-N2), Fuhrman grading (low (1–2); high (3–4)), histological subtype (clear cell, chromophobe, papillary/other)); treatment of the primary tumor (type of surgery (complete or partial nephrectomy). Variables were also collected on the number (n), location (unilobular versus multilobular); size (cm), weight (g) of hepatic lesions as well as occurrence of liver metastases (synchronous versus metachronous) as well as presence of extrahepatic metastases (yes versus no). A particular interest applied with details of adjuvant TT/TKI therapy (yes versus no) after occurrence of metastasic lesions and liver resection. Additionally, the different TKI treatment regimes, the onset and duration of TKI therapy following liver-directed therapy as well as the efficacy of TKI therapy were examined.
Operative information including type of liver-directed therapy (surgery, interventional procedure (ablation, electroporation), operating time (minutes), intraoperative transfusion (yes vs. no), red blood cell concentrate (RBCC), fresh frozen plasma (FFP), application of vascular inflow occlusion (Pringles manoeuvre: yes vs. no) and extent of resection. Hepatectomy was classified as minor (less than three segments) and major (three or more segments). Margin status (microscopically complete- R0, microscopic (R1) and macroscopic involvement (R2)) was determined based on final pathological assessment. Peri- and postoperative collected data including length of intensive care unit (ICU) stay (days), length of hospital stay (days), tumor recurrence, survival such as morbidity and mortality rate. Postoperative complications are presented according to the Clavien-Dindo-Classification (grade I to V). Therefore, grades I and II were taken together as minor complications and grade III-V as major complications. The perioperative mortality was defined as 30-day mortality.
Overall survival (OS) was either calculated as the time interval between primary tumor operation (renal cell cancer resection) until latest follow-up/or death or secondary tumor operation (liver tumor therapy) until latest follow-up/or death.
Disease-free interval (DFI) was calculated as the time interval from liver-directed therapy until first recurrence at any site. Progression-free survival (PFS) was calculated from time of resection of first metastases/start of TKI therapy until time of progression/recurrence or last follow-up/death. Disease-free survival (DFS) was calculated from date of liver-directed therapy to first recurrence, distant metastases, last follow-up or death.
Statistical analysis
All data are presented as either percentage, mean value with range or median value with interquartal range (IQR). Data were analyzed using Student’s t-test and Wilcoxon rank sum test for continuous variables, and the chi-squared test or Fisher’s exact test for discrete variables, where appropriate. Disease-free survival, progression-free survival and overall survival were examined using the Kaplan-Meier Method and potential prognostic factors were evaluated in univariate analysis by a two-sided log-rank test. A multivariable Cox proportional hazard regression model was used to identify independent prognostic factors for disease recurrence and survival/mortality. Included tested variables in Cox proportional hazard regression analysis were chosen according to the literature and the primary/secondary aims of the study: immediate postoperative targeted Therapy, ECOG performance status >1, synchronous liver metastases and multiple liver metastases. P-values < 0.05 were considered statistically significant. All data were analyzed by using SPSS software (SPSS Inc., Chicago, Illinois, USA, version 19.0).
Anzeige
Results
General and oncological characteristics
The outcome of 35 patients (female = 11, male = 24) with a median age of 65 years (IQR: 59–71) at time of LDT was investigated.
The primary tumor location was nearly equally distributed between the patient collective (right kidney; 21 (60 %)/left kidney; 14 (40 %). Each patient underwent curative surgery for the primary tumor: radical nephrectomy in 31 patients (86 %) and partial nephrectomy in 4 patients (14 %). The majority of patients (60 %) had lymph node metastases associated with the primary tumor (N1; 40 %, N2; 20 %) and most primary tumors were pathologic T2 or T3 lesions (T1: 20 %; T2: 25.8 %; T3, 42.8 %; T4, 11.4 %). The primary tumor could be removed completely in all patients. Fuhrman Grading was low in most patients (grade 1: 2 patients (5.7 %); grade 2: 22 patients (62.9 %); grade 3: 9 patients (25.7 %); grade 4: 2 patients (5.7 %)). The final histology of the primary tumor showed in all patients RCC, compromising a clear cell subtype in 25 patients (71.4 %), followed by chromophobe carcinoma in 6 (17.1 %) and unclassified/papillary subtype in 3 cases (11.5 %). Prognostic criteria using ECOG performance status were 0 in 29 patients (83 %) and >1 in the remaining 6 patients (17 %). The complete list of patient characteristics is shown in Table 1 without relevant differences regarding general and oncological characteristics between the groups.
Table 1
Basic general and oncological characteristics according to state of postoperative Tyrosinkinase Inhibitor (TKI) therapy
Variables
Overall (n = 35)
TKI (+) (n = 16)
TKI (-) (n = 19)
p-value
Median Age (years)
65 (59–71)
64.5 (58–71)
69 (62–71)
0.160a
Gender
24:11
12:4
12:7
0.452d
Male/female
(68.6/31.4 %)
(34.3:11.4 %)
(34.3:20 %)
Median Body mass index (kg/m2)
26.5 (24.5–28.0)
26.9 (26.0–28.3)
25.9 (24.2–27.7)
0.349a
ECOG performance status (%)
0
29 (82.9 %)
15 (42.9 %)
14 (40 %)
0.117d
1
6 (17.1 %)
1 (2.9 %)
5 (14.3 %)
Primary tumor characteristics
Right side/left side; n (%)
21/14 (60 %:40 %)
7/9 (20 %:25.7 %)
14/5 (40 %:14.3)
0.072d
Primary tumor histology
Clear cell
25 (71.4 %)
10 (28.6 %)
15 (42.9 %)
0.283c
Non-clear cell
10 (28.6 %)
6 (17.1 %)
4 (11.5 %)
Primary tumor T-stage
Stage 1–2
16 (45.8 %)
8 (22.9 %)
8 (22.9 %)
0.640c
Stage 3–4
19 (54.2 %)
11 (31.3 %)
8 (22.9 %)
Primary tumor grading
Low (Fuhrmann 1–2)
24 (68.6 %)
12 (34.3 %)
12 (34.3 %)
0.452d
High (Fuhrmann 3–4)
11 (31.4 %)
4 (11.4 %)
7 (20 %)
Liver tumor distribution
Unilobular/Multilobular
28:7 (80 %:20 %)
14:2 (40 %:14.3 %)
14:5 (40 %:5.7 %)
0.309d
Median tumor size (cm)
4.4 (2.9–6.0)
3.9 (2.5–4.5)
5.6 (3.0–7.5)
0.094a
Mean number of hepatic tumor lesions
1.70 (1–5)
1.64 (1–4)
1.74 (1–5)
0.813b
Median weight of resected liver (g)
212.5 (39.2–652.5)
81.4 (15.5–265.0)
290 (70–916.3)
0.138a
Timing of liver metastases
Synchronous/
6 (17.1 %)
4 (11.4 %)
2 (5.7 %)
0.258d
metachronous
29 (82.9 %)
12 (34.3)
17 (48.6 %)
Extrahepatic disease at time of liver-directed therapy
Yes
7 (20 %)
5 (14.3 %)
2 (5.7 %)
0.127d
No
28 (80 %)
11 (31.4 %)
17 (48.6 %)
Used statistical tests:
aStudent’s t-test
bWilcoxon rank sum test
cchi-squared test
dFisher’s exact test
Most RCCLM were metachronous (n = 29; 82.9 %); the median time interval between the diagnosis of primary tumor and the occurrence of first metastases was 13 months (IQR: 3–36 months), 15 months (IQR: 3–39 months) between primary tumor operation and occurrence of liver metastases. The median time between last staging and liver surgery was 1 month (IQR: 0–2 months). The mean number of hepatic metastatic lesions was 1.7 (range: 1–5) being localized unilobular in the liver (n = 28, 80 %). The median size of the largest lesion was 4.4 cm (IQR: 2.9 – 6.0 cm).
Details of liver-directed therapy
Among the 35 patients with RCCLM, liver-directed treatment consisted of liver resection in 33 patients (94.3 %) and local ablation in 2 patients (5.7 %) (Table 2). In the resection-group, 16 of 35 patients (48.5 %) underwent major liver resections, in 17 patients (51.5 %) minor liver resections were performed. On final pathologic analysis, local R0 (margin free) resection could be achieved in 30 patients (85.7 %); only 5 patients (14.3 %) had microscopic disease at the margin (R1) and none patient had macroscopic disease (R2).
Table 2
Operative and perioperative details at time of liver-directed therapy of our study population (n = 35 patients) according to state of Tyrosinkinase Inhibitor (TKI) Therapy
Variables
Total (n = 35)
TKI+ (n = 16)
TKI- (n = 19)
p-value
Extent of resection
Minor resection
17 (51.5 %)
11 (33.3 %)
6 (18.2 %)
0.008d
Major
16 (48.5 %)
3 (9.1 %)
13 (39.4 %)
Type of liver resection
Segmental resection
9 (27.3 %)
6 (18.2 %)
3 (9.1 %)
0.13d
Anatomical right/left resection
11 (33.3 %)
9 (27.2 %)
2 (6.1 %)
0.003d
Extended resection right/left
5 (15.2 %)
4 (12.1 %)
1 (3.1 %)
0.06d
Atypical resection
8 (24.2 %)
4 (12.1 %)
4 (12.1 %)
0.61d
Resection Margin
Complete Resection (R0)
30 (85.7 %)
14 (40 %)
16 (45.7 %)
0.78d
Microscopically positive margin (R1)
5 (14.3 %)
2 (5.7 %)
3 (8.6 %)
Transfusion intraoperative
Substitution
15 (8 %)
9 (4.8 %)
3 (1.6 %)
0.7d
- Transfusion erythrocyte concentrations
0.27 (0–6)
0.23 (0–6)
0.36 (0–4)
0.7d
- Transfusion Fresh frozen plasma
0.17 (0–8)
0.2 (0–8)
0.03 (0–1)
0.7d
Pringle manoeuvre
19 (54.3 %)
6 (17.1 %)
13 (37.1 %)
0.067c
Median Hospital stay (days)
18.7 (11–28)
16.6 (11–18)
20.5 (16–24)
0.360a
Median Intensive care unit stay (days)
1.9 (1–6)
2.0 (1–6)
1.8 (1–5)
0.716a
Median Operating time (min)
238 (161.5–276)
224.5 (164.5–272.5)
242 (155–281)
0.477a
Complications
Grade I
0 (0 %)
0 (0 %)
0 (0 %)
-
Grade II
3 (8.6 %)
2 (5.7 %)
1 (2.9 %)
0.434d
Grade IIIa
5 (14.3 %)
4 (11.4 %)
1 (2.9 %)
0.096d
Grade IIIb
1 (2.9 %)
0 (0 %)
1 (2.9 %)
0.352d
Grade Iva
1 (2.9 %)
1 (2.9 %)
0 (0 %)
0.269d
Grade IVb
0 (0 %)
0 (0 %)
0 (0 %)
-
Grade V
0 (0.5 %)
0 (0 %)
0 (0 %)
-
Used Statistical tests:
aStudent’s t-test
bWilcoxon rank sum test
cchi-squared test
dFisher’s exact test
Anzeige
Median operating time was 238 min (IQR: 161.5–276 min), median ICU and hospital stay were 1.9 days (IQR: 1–6 days) and 18.7 (IQR: 11–28 days), respectively. Postoperative complications were classified according to the Clavien-Dindo Classification, with an overall postoperative morbidity in 10 patients (28.5 %). In this context, minor complications (grade I, n =0; 0 %; grade II, n = 3; 8.6 %) were observed in 3 patients (8.6 %), major complications occurred in 7 patients (19.9 %) (grade IIIa, n = 5, 14.3 %; grade IIIb, n = 1, 2.9 %; grade IV, n = 1, 2.9 %; grade V, n = 0; 0 %). The 30-day mortality of the study group was 0 %.
Treatment after resection of metastatic lesions/recurrence analysis
At time of liver-directed therapy, the liver was the first and only metastases in 28 patients (n = 80 %). Whereas, there was evidence of extrahepatic disease in 7 patients (20 %). These metastases were surgically treated with curative intention before liver resection, or were synchronously discovered at laparotomy and subsequently resected. The most common sites of metastases were the retroperitoneum/local recurrence (n = 5; 14.3 %), the lung (n = 2; 5.7 %), the adrenal glands (n = 2; 5.7 %) and the bone (n = 1; 2.8 %).
A total of 16 patients (41 %) received TKI therapy following liver-directed therapy of their metastatic hepatic lesions after a median duration of 2.4 months (IQR: 1–5 months) (Fig. 1). In 3 patients a preoperative targeted therapy was started with median duration of 2.1 months (IQR: 1–25 months) and continued after liver-directed therapy. The given targeted therapy included sunitinib (n = 10 patients; 62.5 %), sorafenib (n = 2 patients; 12.5 %), pazopanib (n = 3 patients; 18.8 %) and everolimus (n = 1 patient; 6.2 %).
×
Of these 16 patients, 10 patients (28.5 %) had ongoing TT after liver-directed therapy for a median duration of 21 months (IQR: 18–49 months) and 6 patients (17.1 %) discontinued TT therapy at a median duration of 13 months (IQR: 7–35 months) without evidence of recurrence. Of the 10 patients with ongoing TT after liver-directed therapy, 4 patients (40 %) experienced relapse/recurrence. Of the 6 patients discontinued TT, 5 patients (83 %) experienced relapse/recurrence.
Anzeige
Of the 19 patients (59 %), who did not receive immediate postoperative targeted therapy, 14 patients (74 %) experienced recurrence after a median time of 11 months (IQR: 4–31 months). In total, 23 patients (66 %) did develop recurrence following LDT within a median time of 16 months (IQR: 5–34 months). Among these patients, the pattern of recurrence was extrahepatic in 13 patients (57 %), intrahepatic in 7 patients (30 %) and both in 3 patients (13 %). At the end of the observation period, 20 patients (57 %) had died. Of the 15 patients (43 %) alive, 8 patients (54 %) remained free of recurrence after a median follow-up of 2.1 years (range: 1–4.3 years). Of the 7 patients (43 %) developed recurrence, only 2 patients had local metastases in the pre-existing site. Lung metastases were developed most frequently (n = 4), followed by the liver (n = 2) and the bone (n = 1). Sites of recurrence were not different according to the immediate postoperative TKI therapy.
Median progression-free survival and median disease-free survival was 27 months (IQR: 8–47 months; median follow-up was 3.1 years (IQR: 1.1–4.8 years)) following resection of first metastatic lesions and 19 months (IQR: 7–58 months; median follow-up was 2.1 years (IQR: 1–4.3 years)) following LDT, respectively. One-, 3-, and 5-year progression-free survival following resection of first metastases was 60, 28.6 and 11.4 %, respectively. Following LDT, 1-, 3- and 5-year disease-free survival was 60, 22.9 and 14.3 %, respectively.
In univariate analysis for progression-free survival, immediate postoperative targeted therapy (p = 0.023) (Fig. 2), ECOG performance status 0 (p = 0.015), metachronous liver metastases (p = 0.035), negative resection margins (p = 0.001), T-stage 1/2 (p = 0.027) and low Fuhrman Grading (p = 0.002) were associated with significantely longer progression-free survival rates (Table 3). At multivariable Cox regression analysis, immediate postoperative targeted therapy (HR 0.32, 95 CI: 0.1–0.9, p = 0.032) could be identified as a favourable significant independent predictor of good progression-free survival. In contrast, ECOG performance status >1 (HR 3.4, 95 CI 1.2–9.8, p = 0.023) could be identified as independent significant predictor associated with disease progression.
Table 3
Univariate analysis of potential prognostic factors for progression-free survival (n = 35 patients) and disease-free survival (n = 35 patients) following metastasectomy of primary and hepatic metastasic lesions, respectively
Progression-free Survival after first Metastasectomy
Disease-free Survival after Liver-directed therapy (LDT)
Variables
n
Median Time (months) with IQR
p-value
Median Time (months) with IQR
p-value
Gender
Male
24
8 (5–44)
0.324
15 (5–44)
0.346
Female
11
27 (10–47)
20 (9–58)
Targeted therapy
TKI+
16
47 (18–79)
0.023
58 (18–79)
0.110
TKI–
19
19 (6–39)
19 (4–46)
ECOG
0
29
29 (10–47)
0.015
20 (8–71)
0.132
> 1
6
6 (2–28)
15 (1–28)
Age
< 65 years
18
19 (8–40)
0.518
19 (5–71)
0.960
> 65 years
17
39 (8–71)
20 (9–58)
Tumor distribution
unilobular
28
28 (8–44)
0.772
28 (8–58)
0.981
multilobular
7
19 (3–77)
19 (3–79)
Extrahepatic Disease
Yes
28
27 (7–45)
0.412
19 (8–59)
0.962
No
7
29 (4–82)
20 (4–29)
Liver metastasis Timing
Synchronous
6
4 (2–9)
0.035
4 (2–8)
0.085
Metachronous
29
28 (10–47)
26 (12–58)
Tumor size, cm
< 4.5 cm
21
39 (10–71)
0.07
19 (9–42)
0.376
> 4.5 cm
14
18 (6–29)
18 (5–35)
Resection margin
Radical resection (R0)
30
28 (12–51)
0.001
28 (12–58)
0.014
Irradical resection (R1/R2)
5
6 (3–10)
4 (3–9)
Number of metastases
Solitary
22
27 (8–47)
0.653
28 (9–51)
0.967
Multiple
13
19 (8–40)
19 (5–79)
Grading of RCC
Low (G1/G2)
24
40 (18–71)
0.002
44 (18–71)
0.001
High (G3/G4)
11
8 (5–19)
8 (4–19)
T-stage
T1/T2
16
44 (12–79)
0.027
29 (15–71)
0.071
T3/T4
19
18 (6–39)
18 (4–51)
Disease-free intervall
< 12 months
17
28 (5–79)
0.753
28 (5–79)
0.501
> 12 months
18
27 (10–40)
19 (9–58)
TKI Tyrosinkinase InhibitorTherapy, ECOG Eastern Cooperative Oncology Group
The bold data specifies a staticial significance p-values < 0.05
×
×
Following factors show benefitial effects on disease-free survival in univariate analyses: Negative resection margins (p = 0.014) and low Fuhrman grading (p = 0.001) (Table 4). Immediate postoperative TKI therapy (p = 0.1), ECOG status 0 (p = 0.1), metachronous liver metastases (p = 0.08) and T-stage 1/2 (p = 0.07), however, showed only a trend for a decreased recurrence rate in univariate analysis.
Table 4
Univariate analysis of potential prognostic factors for overall Survival (n = 35 patients) following primary tumor resection and liver directed therapy (LDT) , respectively
Follow-Up Liver-directed therapy
Follow-Up Primary Tumor Resection
Variables
n
Median Time (months) with IQR
p-value
Median Time (months) with IQR
p-value
Gender
Male
24
42 (21–98)
0.7
96 (34–130)
0.4
Female
11
37 (12–68)
62 (63–126)
Targeted therapy
TKI+
16
98 (57–133)
0.032
151 (126–202)
0.003
TKI−
19
40 (12–64)
61 (25–103)
ECOG
0
29
57 (37–98)
0.001
103 (79–151)
<0.001
> 1
6
12 (9–18)
15 (13–34)
Age
< 65 years
18
64 (35–98)
0.07
96 (34–151)
0.31
> 65 years
17
40 (12–57)
63 (79–126)
Tumor distribution
unilobular
28
98 (21–76)
0.911
126 (25–151)
0.8
multilobular
7
42 (12–98)
86 (54–126)
Synchronous Extrahepatic Disease
Yes
7
21 (9–37)
0.312
63 (54–126)
0.727
No
28
47 (28–98)
86 (61–159)
Liver metastasis Timing
Synchronous
6
9 (8–12)
0.006
15 (8–63)
0.006
Metachronous
29
47 (28–98)
96 (54–151)
Tumor size, cm
< 45 mm
21
98 (28–133)
0.007
103 (86–151)
0.007
> 45 mm
14
37 (12–57)
63 (18–85)
Resection margin
Radical resection (R0)
30
47 (21–98)
0.013
96 (48–151)
0.041
Irradical resection (R1/R2)
5
9 (8–28)
86 (13–92)
Number of metastases
Solitary
22
64 (12–98)
0.850
85 (54–153)
0.990
Multiple
13
42 (21–76)
116 (34–130)
T-stage
T1/T2
16
47 (37–98)
0.062
126 (62–151)
0.257
T3/T4
19
40 (12–64)
85 (54–103)
Grading of RCC
Low (G1/G2)
24
47 (37–133)
0.543
116 (63–126)
0.501
High (G3/G4)
11
28 (9–98)
85 (51–151)
Disease-free intervall
< 12 months
17
13 (9–42)
0.002
79 (18–96)
0.2
> 12 months
18
64 (42–98)
103 (62–151)
Histology
Clear cell
25
47 (40–98)
0.821
96 (51–151)
0.498
Non clear cell
10
42 (18–132)
85 (54–116)
Surgical complications
Yes
10
28 (21–40)
0.996
85 (49–118)
0.104
No
25
47 (13–98)
151 (54–202)
TKI Tyrosinkinase InhibitorTherapy, ECOG Eastern Cooperative Oncology Group
The bold data specifies a staticial significance p-values < 0.05
Survival analysis
Median overall survival was 86 months (IQR: 21 – 136 months; median follow-up was 5.1 years (IQR: 1.8 – 8.0 years) following primary tumor resection and 42 months (IQR: 18 – 98 months; median follow-up was 2.2 years (IQR: 1 – 4.8 years) following LDT, respectively. One-, 3-, and 5-year survival following resection of the primary tumor was 88.6, 68.6 and 51.4 %, respectively. Following LDT, 1-, 3- and 5-year survival was 77.1, 45.7 and 20 %, respectively.
In the univariate analysis using the Kaplan-Meier Method, immediate postoperative TKI therapy (p = 0.032) (Fig. 3), ECOG performance status 0 (p < 0.001), metachronous liver metastases (p = 0.006), liver tumor size <45 mm (p = 0.007), negative resection margins (p = 0.013) and a disease free survival >12 months (p = 0.002) were significant predictors of good overall survival following liver-directed therapy (Table 4).
Multivariate survival analysis using a Cox regression model showed that immediate postoperative TKI therapy (HR 0.28, 95CI: 0.1–0.99, p = 0.046) was a favourable significant independent predictor of good overall survival. Whereas ECOG performance status >1 (HR 4.6, 95 CI 1.4–14.7, p < 0.001) and synchronous liver metastases (HR 5.7 95 CI 1.4–23.8, p = 0.015) are significant independent predictors of poor overall survival. Whereas, multiple liver metastases (HR 1.1; 95 CI 0.4–2.9, p = 0.8) were no significant independent predictors of overall survival.
Following primary tumor resection, in univariate analysis immediate postoperative TKI therapy (p = 0.003), ECOG performance status 0 (p < 0.001), metachronous liver metastases (p = 0.006), liver tumor size <45 mm (p = 0.007) and negative resection margins (p = 0.041) were of prognostic impact on good overall survival. Multivariate analysis using a Cox regression model confirmed immediate postoperative TKI therapy (HR 0.14, 95 CI: 0.03–0.6, p = 0.011) as a favourable significant independent predictor of good overall survival. In contrast, ECOG performance status >1 (HR 8.3, 95 CI 1.9–18.7, p < 0.001) and synchronous liver metastases (HR 5.4 95 CI 1.1–26.8, p = 0.013) are significant independent predictors of poor overall survival.
Discussion
To our best knowledge, this is one of the largest studies examining the value of metastasectomy with a special focus on liver resection in patients with MRCC in the era of TKI therapy. We examined whether TKI therapy is associated with MRCC prognosis when it is provided immediately after surgical resection of metastatic hepatic lesions. Uni- and multivariate analyses showed that median overall survival such as progression-free survival were significantly better in patients receiving immediate postoperative TKI therapy following primary tumor resection and LDT, respectively. However, disease recurrence following liver resection showed only a trend to be less common in patients who received immediate postoperative TKI therapy. These results could be a sign that immediate postoperative TKI therapy improves survival and disease control by decreasing tumor recurrence following resection of metastatic hepatic lesions.
Various treatment options have been studied for the therapy of MRCC and the benefits of metastasectomy in these patients could be demonstrated in some retrospective studies [7, 8, 29]. In this context, there is emerging evidence that surgical resection may represent a significant tool in multimodal concepts of MRCC. In accordance with retrospective studies, our study demonstrates liver resection to be safely applicable with comparable survival and recurrence rates for patients with resectable RCCLM [6, 10, 11, 13, 30]. Therefore, selected clinical characteristics and patient-defined variables have been determined to stratify risk for metastasectomy in MRCC patients to help to define groups of patients which benefit most from surgical therapy with a focus on liver metastasectomy. In accordance with previous reports, in our study immediate postoperative TKI therapy, ECOG performance status, timing of liver metastases presence, tumor diameter, primary tumor characteristics (Fuhrman Grading, T-Stage,), negative resection margins and time of disease free interval were of prognostic value for overall survival and recurrence [6, 10, 11, 25, 30‐33].
However, the prognostic value of Fuhrman grading in papillary renal cancer is inconsistent and nowdays not considered as the best grading system for non-clear cell renal cancer. In recent studies, nuclear grade seems to be more effective to predict outcome in patients with non-clear cell renal cancer [34]. Other factors like patients’ age, number of metastases, presence of synchronous extrahepatic disease such as factors related to tumor biology might help to decide to operate or not.
Overall, approximately 70 % (25/35) of our patients experienced disease recurrence after surgical resection of first metastatic lesions. Our results are consistent with previous studies which have shown that large numbers of patients experience disease recurrence after metastasectomy with excellent cancer-specific overall survival. Johansen et al. reported that disease recurrence was observed in 66.7 % of patients, with complete response achieved by targeted therapy alone or no evidence of disease with additional metastasectomy after a median follow up of 12 months [35]. More recently, Park et al. reported about disease recurrence in 60.4 % of patients received immediate postoperative targeted therapy after metastasectomy or not over a median follow-up of 12 months [27]. These results confirmed the fact that some residual cancer cells might remain after the complete resection of metastatic lesions.
Some clinical trials showed that advanced RCC is often resistant to most systemic therapies, and shows limited response to immunotherapy [8, 16]. Recently, several randomized controlled trials have shown that TKI like sorafenib, sunitinib or pazopinib, and other targeted therapeutical agents are correlated with improvements in PFS and OS [20, 21, 36, 37]. These new drugs have dramatically changed the treatment and prognosis of patients with MRCC, and give the opportunity to perform metastatic resection in a new and expended population of patients as more response has been noted. However, cure is rare with TKI alone and complete remission after TKI treatment occurs in only 1–3 % of cases [18, 19]. Whereas, partial response could be achieved in 10–39 % of patients, and ceiling of the overall survival was 18.8 months (range 7.8 to 43.2 depending of the risk factors) [35, 38, 39]. Therefore, metastasectomy remains an important treatment for MRCC and the growing evidence of long-term response with TKI therapy has been stimulating multimodal approaches in the last years.
However, there is currently low experience with the role of systemic TT after surgical treatment of metastatic lesions in patients with RCC and experience is based on case reports and small series [8, 22, 26, 40]. Reliable data examining patients with RCCLM following liver resection are completely missing. The largest series was published recently by Park et al. who examined the efficacy of adjuvant targeted therapy after complete resection of metastatic lesions in 53 patients with MRCC; however none of the patients had RCCLM. 19 (35.9 %) of the patients received immediate postoperative targeted therapy. Of the 34 who did not receive immediate postoperative targeted therapy, 27 (79.4 %) experienced disease recurrence. Immediate postoperative targeted therapy was associated with better median progression free survival (not reached versus 20.0 months, p = 0.017), but not cancer-specific survival [27]. According to the missing available data, prospective, randomized multicentre clinical trials (RESORT Study and SMAT-AN 20/04 of the Working Group of Urological Oncology (AUO)) were initiated within the last years to studying the effects and benefits of targeted adjuvant therapy following metastasectomy [18, 41, 42].
Nevertheless, there are some limitations to our study. Firstly, it concerns a small patient sample and due to the retrospective nature of our study it is susceptible to bias in data selection and survival analysis. Although our results show significant differences in overall survival (OS) and progression-free survival (PFS), we could not find significant differences in disease-free survival (DFS), which at first sight might seem astonishing. The three outcome variables are very distinct from each other and may not readily be compared as they include different patients. Also, regarding the trends in the data, the follow up might have been to short to show differences in terms of DFS. Unfortunately, the sample size was too small to allow a final answer to our hypotheses.
Secondly, there are no comparative studies in this highly selected patient population which examine patients with MRCC without surgical intervention who were treated with targeted therapy. Thirdly, there were no standard protocols for the clinical decision making process concerning the choice of given targeted agents as well as the timing of restarting or discontinuating the targeted therapy. This fact is especially mirrored in our study because of the long observation period of 23 years. For our first patients TKI therapy was not yet available. During the next period, several publications about the use of TKI in different clinical settings influenced the decision of our interdisciplinary tumor board to use or avoid additional TKI after surgery, respectively. Furthermore, in patients with R1 resection and higher tumor stages the decisions in favour of using TKI were influenced more positively compared to lower tumor stages. Therefore differences in survival might also be due to some selection bias. Of interest, data on patient Quality of Life (QoL) might be an important addition in future studies for the results of our analysis.
Conclusions
The present data suggest that a surgical approach of MRCC to the liver in combination with adjuvant TKI therapy should be carefully considered case-by-case, taking into account patient QoL in order to optimize the management of these patients. However, future prospective studies, preferably with randomized design and larger populations, are needed do increase the quality of evidence regarding the role of (liver-)metastasectomy with integration of TKI therapy in the (neo)/-adjuvant setting. Moreover, a careful balance of the benefit/risk ratio must be shared among a multidisciplinary team to tailor treatments individually and with the patient. Therefore, prognostic models and algorithms might indeed help in deciding which patients benefit from (liver-) metastasectomy as an additive tool in the multimodal therapeutical setting of MRCC.
We acknowledge support from the German Research Foundation (DFG) and University of Leipzig within the program of Open Access Publishing.
Funding
This work was supported by the German Research Foundation (DFG) and Leipzig University within the program of Open Access Publishing. The funders had no role in study design, data collection and analysis, decision to publish, or preparation of the manuscript.
Availability of data and materials
Our database contains highly sensible data which may provide insight in clinical and personnel information about our patients and lead to identification of patients. Therefore, according to organizational restrictions and regulations these data cannot be made publically available.
Authors’ contributions
HMH, FT, GW, and MB were responsible for the study conception and design; HMH, FT, GW, MHM, UL, GA, CL and CB were responsible for data acquisition; HMH, FT GW, MS, HMT, UL and MB analyzed and interpreted the data; HMH, FT and GW drafted the manuscript; and MHM, MS, DU, CL and HMT critically revised the manuscript. All authors read and approved the final manuscript.
Competing interests
The authors declare that they have no competing interests.
Ethics approval and consent to participate
The study was approved by the local ethical commission board from the University of Leipzig (AZ EK: 243-14-14072014). Due to the retrospective design of the study and accordingly national guidelines, the local ethic committee confirmed, that informed consent was not necessary from participants.
Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated.
The value of hepatic resection in metastasic renal cancer in the Era of Tyrosinkinase Inhibitor Therapy
verfasst von
Hans Michael Hau Florian Thalmann Christoph Lübbert Mehmet Haluk Morgul Moritz Schmelzle Georgi Atanasov Christian Benzing Undine Lange Rudolf Ascherl Roman Ganzer Dirk Uhlmann Hans-Michael Tautenhahn Georg Wiltberger Michael Bartels
Der belastende Arbeitsalltag wirkt sich negativ auf die psychische Gesundheit der Angehörigen ärztlicher Berufsgruppen aus. Chirurginnen und Chirurgen bilden da keine Ausnahme, im Gegenteil.
Die Therapie von Echinokokkosen sollte immer in spezialisierten Zentren erfolgen. Eine symptomlose Echinokokkose kann – egal ob von Hunde- oder Fuchsbandwurm ausgelöst – konservativ erfolgen. Wenn eine Op. nötig ist, kann es sinnvoll sein, vorher Zysten zu leeren und zu desinfizieren.
Auch wenn sich Krankenhäuser nachhaltig und grün geben – sie tragen aktuell erheblich zu den CO2-Emissionen bei und produzieren jede Menge Müll. Ein Pilotprojekt aus Bonn zeigt, dass viele Op.-Abfälle wiederverwertet werden können.
Der OP in der Zukunft wird mit weniger Personal auskommen – nicht, weil die Technik das medizinische Fachpersonal verdrängt, sondern weil der Personalmangel es nötig macht.
Update Chirurgie
Bestellen Sie unseren Fach-Newsletterund bleiben Sie gut informiert.
Das Karpaltunnelsyndrom ist die häufigste Kompressionsneuropathie peripherer Nerven. Obwohl die Anamnese mit dem nächtlichen Einschlafen der Hand (Brachialgia parästhetica nocturna) sehr typisch ist, ist eine klinisch-neurologische Untersuchung und Elektroneurografie in manchen Fällen auch eine Neurosonografie erforderlich. Im Anfangsstadium sind konservative Maßnahmen (Handgelenksschiene, Ergotherapie) empfehlenswert. Bei nicht Ansprechen der konservativen Therapie oder Auftreten von neurologischen Ausfällen ist eine Dekompression des N. medianus am Karpaltunnel indiziert.
Das Webinar beschäftigt sich mit Fragen und Antworten zu Diagnostik und Klassifikation sowie Möglichkeiten des Ausschlusses von Zusatzverletzungen. Die Referenten erläutern, welche Frakturen konservativ behandelt werden können und wie. Das Webinar beantwortet die Frage nach aktuellen operativen Therapiekonzepten: Welcher Zugang, welches Osteosynthesematerial? Auf was muss bei der Nachbehandlung der distalen Radiusfraktur geachtet werden?
Inhalte des Webinars zur S1-Leitlinie „Empfehlungen zur Therapie der akuten Appendizitis bei Erwachsenen“ sind die Darstellung des Projektes und des Erstellungswegs zur S1-Leitlinie, die Erläuterung der klinischen Relevanz der Klassifikation EAES 2015, die wissenschaftliche Begründung der wichtigsten Empfehlungen und die Darstellung stadiengerechter Therapieoptionen.