Interdisciplinary GoR level III Guidelines for the Diagnosis, Therapy and Follow-up Care of Breast Cancer

Prof. Rolf Kreienberg, M. D.

Ulm

Prof. Ute-Susann Albert, M. D.

Marburg

Dr. Markus Follmann, MPH MSc.

Berlin

Prof. Ina Kopp, M. D.

Marburg

Prof. Thorsten Kühn, M. D.

Esslingen

Dr. Achim Wöckel, M. D., External Lecturer

Ulm

Thomas Zemmler, Economic Mathematician

Ulm

Working Group of German Tumor Centers (ADT)

Prof. Dieter Hölzel, M. D.

Munich

Working Group on Psychooncology (PSO)

Prof. Joachim Weis, M. D.

Freiburg

Working Group on Ultrasound Diagnosis in Obstetrics and Gynecology (ARGUS)

Prof. Helmut Madjar, M. D.

Wiesbaden

Working Group on Gynecological Oncology (AGO)

Prof. Jens Blohmer, M. D.
Prof. Anton Scharl, M. D.

Berlin
Amberg

Working Group on Medical Oncology (AIO)

Dr. Norbert Marschner

Freiburg

Working Group on Radiological Oncology (ARO)

Prof. Jürgen Dunst, M. D.
Prof. Rainer Souchon, M. D.

Lübeck
Tübingen

Working Group on Supportive Measures in Oncology, Rehabilitation and Social Medicine (ASORS)

Prof. Hans Helge Bartsch, M. D.
Prof. Günter Emons, M. D.
Prof. Hartmut Link, M. D.

Freiburg
Göttingen
Kaiserslautern

Working Group on Prevention and Integrative Medicine in Oncology (PRiO)

Dr. Jutta Hübner

Frankfurt

Professional Association of Gynecologists

Dr. Klaus König

Steinbach

BQS [Federal Office of Quality Assurance] Institute for Quality and Patient Safety

Dr. Sven Bungard

Düsseldorf

German Professional Association of Pathologists

Prof. Werner Schlake, M. D.

Gelsenkirchen

Working Group on Surgical Oncology (CAO-V)

Prof. Martin Angele, M. D.

Munich

German Society for General and Family Medicine (DEGAM)

Prof. Erika Baum, M. D.
Dr. Brigitte Ernst

Marburg
Regensburg

German Society of Obstetrics and Gynecology (DGGG)

Prof. Bernd Gerber, M. D.
Prof. Nadia Harbeck, M. D.

Rostock
Munich

German Society of Hematology and Oncology (DGHO)

Prof. Kurt Possinger, M. D.

Berlin

German Society of Palliative Care Medicine (DGP)

Dr. Jan Gärtner
Dr. Christina Gerlach

Cologne
Mainz

German Society of Pathology (DGP)

Prof. Manfred Dietel, M. D.
Prof. Hans Kreipe, M. D.
Dr. Annette Lebeau, external lecturer

Berlin
Hannover
Lübeck, Hamburg

German Society for Radiooncology (DEGRO)

Prof. Wilfried Budach, M. D.

Düsseldorf

German Society of Rehabilitation Sciences (DGRW)

Prof. Hans Helge Bartsch, M. D.
Dr. Kerstin Knauth

Freiburg
Ratzeburg

German Society of Senology (DGS)

Prof. Wolfgang Janni, M. D.
Prof. Christoph Thomssen, M. D.

Ulm
Halle

German Society for Ultrasound in Medicine (DEGUM)

Prof. Friedrich Degenhardt, M. D.

Bielefeld

German Radiological Society (DRG)

Prof. Ulrich Bick, M. D.

Berlin

German Association for Physiotherapy, Central Association of Physiotherapists (ZVK)

Ulla Henscher
Hannelore Ruppert

Hannover
Cologne

Consortium for Hereditary Breast and Ovarian Cancer

Prof. Rita Schmutzler, M. D.

Cologne

Womenʼs Self-Help after Cancer

Hilde Schulte

Neukirchen

Society of Plastic, Reconstructive and Esthetic Surgery (DGPRÄC)

Prof. Christoph Heitmann, M. D.
Dr. Mario Marx

Munich
Radebeul

Conference of Oncology and Pediatric Nursing (KOK)

Kerstin Paradies

Hamburg

Munich Tumor Registry (TRM)

Prof. Jutta Engel, M. D.

Munich

Womenʼs Health Coalition (WHC)

Irmgard Naß-Griegoleit

Darmstadt

Prof. Matthias W. Beckmann, M. D.

Erlangen

Prof. Andreas Buck, M. D.

Würzburg

Prof. Jutta Engel, M. D.

Munich

Anita Feller

Göttingen

Prof. Max Geraedts, M. D.

Witten

Andrea Hahne

Bad Münder

Prof. Sylvia Heywang-Köbrunner, M. D.

Munich

Prof. Christian Jackisch, M. D.

Offenbach

Dr. Monika Klinkhammer-Schalke

Berlin

Prof. Nicolai Maass, M. D.

Aachen

Prof. Alfons Meindl, D.Sc.

Munich

Prof. Volker Möbus, M. D.

Frankfurt

Karen Pottkämper

Göttingen

Kerstin Rhiem, PD Dr.

Cologne

Prof. Andreas Schneeweiss, M. D.

Heidelberg

Prof. Ingrid Schreer, M. D.

Kiel

Dr. Nicole Skoetz

Cologne

Prof. Michael Untch, M. D.

Berlin

Prof. Gunter von Minckwitz, M. D.

Neu-Isenburg

Prof. Uwe Wagner, M. D.

Marburg

Chapter 3 General

3.1

Patient information and education

Albert, (Wöckel), Ernst, König, Kreienberg, Naß-Griegoleit, Schulte, Weis

3.2

Early detection, mammographic screening

Schreer, (Albert), Baum, Bick, Degenhardt, Engel, Heywang-Köbrunner, Hölzel, König, Madjar, Schmutzler

3.3

Women at increased risk of developing breast cancer

Schmutzler, (Bick), Albert, Hahne, Lebeau, Madjar, Meindl, Rhiem, Schreer

Chapter 4 Locoregional primary disease

4.1

General diagnostic and therapeutic concepts

Steering group

4.2

Pretherapeutic diagnosis in patients with abnormal or suspicious breast findings

Kühn, (Albert), Bick, Degenhardt, Kreienberg, Kreipe, Lebeau, Madjar, Schreer

4.3

Preinvasive neoplasms

Kreipe/Beckmann, (Lebeau/Dietel), Albert, Harbeck, Kühn, Marx, Schlake, Schreer, Souchon

4.4

Surgical treatment of invasive carcinoma

Blohmer, (Kühn), Angele, Budach, Dietel, Engel, Kreienberg, Lebeau, Marx, Scharl, Souchon, Wagner

4.5

Pathomorphological study

Lebeau, (Kreipe/Dietel), Harbeck, Janni, Schlake, Thomssen

4.6

Adjuvant radiotherapy of breast cancer

Souchon/Dunst, (Thomssen), Blohmer, Budach, Hölzel, Kühn, Untch

4.7

Systemic adjuvant therapy (endocrine therapy, chemotherapy and antibody therapy)

4.7.1

Choice of adjuvant therapy and risk assessment

Kreienberg, Gerber, Harbeck, Possinger, Thomssen

4.7.2

Endocrine therapy

Possinger, (Maass), Emons, Scharl

4.7.3

Chemotherapy

Harbeck, (Möbus), Janni, Possinger

4.7.4

Neoadjuvant (primary systemic) therapy (NACT or PST)

Gerber, (v. Minckwitz), Marschner, Untch

4.7.5

Antibody therapy

Thomssen, (Schneeweiss), Jackisch

4.7.6

Bisphosphonates

Thomssen, (Schneeweiss), Jackisch

4.8

Management of primary local or locoregional advanced tumors

Steering group

Chapter 5 Recurrent or metastatic breast cancer

5.1

Definition and prognosis

Steering group

5.2

Diagnostic procedures for local or locoregional recurrence

Bick, (Scharl), Blohmer, Buck, Degenhardt, Madjar

5.3

Treatment of local/locoregional recurrence

Dunst, (Kühn), Angele, Blohmer, Dietel, Heitmann, Marx, Gerber

5.4

Distant metastases

Marschner, (Emons), Angele, Dunst, Harbeck, Possinger, Thomssen

Chapter 6 Treatment, care and support

6.1

General concept

Steering group

6.2

Psychosocial aspects and psycho-oncology

Weis/Beckmann, (Scharl), Albert, Bartsch, Ernst, Faller, König, Naß-Griegoleit, Schulte

6.3

Supportive therapy

Link, (Follmann), Baum, Emons, Henscher, Ruppert, Skoetz

6.4

Rehabilitation

Bartsch, (Schulte), Baum, Henscher, Knauth, Ruppert

6.5

Follow-up care including diagnostic workup of recurrences and metastases and support during therapy

Janni, (Beckmann), Hölzel, König, Naß-Griegoleit, Paradies, Schulte, Souchon, Thomssen, Weis

6.6

Palliative medicine

Gärtner, (Schulte), Beckmann, Gerlach, Naß-Griegoleit

6.7

Complementary therapy

Hübner, Naß-Grigoleit, Schulte, Albert, Wöckel

6.8

Documentation

Engel, Hölzel, Klinkhammer-Schalke, Pottkämper

Chapter 7 Care coordination and quality management

Wagner, (Kopp), Albert, Beckmann, Bungard, Engel, Ernst, Follmann, Geraedts, Hölzel, Klinkhammer-Schalke, Lebeau, Souchon, Thomssen, Pottkaemper, Feller, Wesselmann, Wöckel

ACR

American College of Radiology

ADH

Atypical (intra-)ductal hyperplasia

AI

Aromatase inhibitor

APBI

Accelerated partial breast irradiation

ASCO

American Society of Clinical Oncology

BCT

Breast-conserving therapy

BI-RADS

Breast imaging reporting and data system

CAD

Computer-aided detection

CAP

College of American Pathologists

CISH

Chromogenic in-situ hybridization

DCIS

Ductal carcinoma in situ

DFS

Disease-free survival

DGS

Deutsche Gesellschaft für Senologie – German Society of Senology

DKG

Deutsche Krebsgesellschaft – German Cancer Society

EBM

Evidence-based medicine

EORTC

European Organisation for Research and Treatment of Cancer

FISH

Fluorescence in-situ hybridization

FN

Febrile neutropenia

HER2

Human epidermal growth factor receptor 2

ITC

Isolated tumor cells

IORT

Intraoperative radiotherapy

CE-MRI

Contrast-enhanced magnetic resonance imaging

LCIS

Lobular carcinoma in situ

LIN

Lobular intraepithelial neoplasia

LOE

Level of evidence

MRM

Modified radical mastectomy

MRI

Magnetic resonance imaging

NACT

Neoadjuvant chemotherapy

NCCN

National Comprehensive Cancer Network

NHSBSP

National Coordinating Group for Breast Screening Pathology

NICE

National Institute for Health and Clinical Excellence

NOS

Not otherwise specified

NZGG

New Zealand Guidelines Group

OS

Overall survival

PBI

Partial breast irradiation

pCR

Pathological complete remission

PCR

polymerase chain reaction

SLNB

Sentinel lymph node biopsy

RT

Radiotherapy

UDH

Intraductal hyperplasia

UICC

Union internationale contre le cancer

WHO

World Health Organization

The provision of qualified and useful information material (printed or Internet material) should meet defined quality criteria for health information and should provide the patient with easily understood risk information (e.g. specification of absolute risk reductions) to help her arrive at a self-determined decision for or against medical procedures.

GCP

(Albert US et al. 2003; Albert US et al. 2008; Klemperer D et al. 2010)

Grade of recommendation
A

When conveying information to the patient, doctors should observe the following basic principles of patient-centered communication, allowing the patient to participate in the decision-making process:

• Display empathy and listen actively

• Address difficult topics directly and with empathy

• Whenever possible, avoid medical terminology, and if medical terms cannot be avoided, they should be explained

• Employ strategies that improve understanding (e.g. repeating, summarizing the salient points, using graphics, etc.)

• Encourage the patient to ask questions.

• Allow and encourage the expression of feelings.

• Offer further assistance (Cf. Psychooncology)

Level of evidence
1b

(Bruera E et al. 2002; Butow P et al. 2007; Elkin EB et al. 2007; Ford S et al. 2006; NICE 2009a; Politi MC et al. 2007)

The consultation to inform the patient about the treatment should cover the following points at least:

• Surgical therapy: possibilities for breast-conserving therapy with mandatory radiotherapy as equivalent to mastectomy with different variants of primary and secondary reconstruction or the provision of an external prosthesis

• Systemic therapy: principles and desired treatment targets of adjuvant or palliative therapy, duration and mode of administration of therapy, its side effects and possible late sequelae, and the treatment options for side effects

• Radiotherapy: principles and desired treatment targets, duration and follow-up surveillance, possible acute and late sequelae, treatment options for side effects

• Participation in clinical studies, principles behind the treatment and treatment targets, duration and mode of administration of the therapy, effects and side-effects known to date, special features (e.g. monitoring, additional measures, cooperation, data storage and processing)

• Other: possibilities for prevention and treatment of therapy-related side effects (e.g. emesis, osteoporosis, lymphedema, etc.), necessity for follow-up care, possibilities for rehabilitation and psycho-oncological support as well as services offered by self-help groups, aspects that are the responsibility of the patient and cooperation (e.g. reporting symptoms and problems, treatment compliance)

GCP

(NZGG 2009)

a. Early breast cancer detection is a cross-sectoral task. There should be a quality-assured, interdisciplinary combination of clinical examination, instrument-based diagnosis, surgical exploration and pathomorphological evaluation.

GCP

(Albert US et al. 2008)

b. The care chain requires complex and quality-assured medical documentation to unify the whole quality management process.

GCP

(Albert US et al. 2008)

c. Cancer registries are as important as they are necessary for the evaluation and quality assurance of early breast cancer detection. All patients diagnosed with breast cancer should therefore be reported to a cancer registry including the relevant details on primary findings and primary therapy. Cancer registries contribute to evaluation and quality assurance through population-related and regionally based analyses of tumor stages and long-term follow-up (recurrences and survival). When an early detection program is instituted or adapted, baseline data should be available for the preceding period.

GCP

(Albert US et al. 2008)

d. Examinations for early detection can cause physical and mental stress. This situation must be urgently addressed by careful information and an effective communication strategy.

GCP

(Albert US et al. 2008)

Grade of recommendation
A

e. In the context of early breast cancer detection, information should not just be confined to preformulated texts, but necessitates an informational discussion with the doctor that takes account of the womanʼs preferences, needs, worries and anxieties and allows joint decision-making for informed consent. In the case of mammography screening, information and explanations should be provided to the woman in the first place in writing, with the additional mention of the possibility of a consultation with the doctor in the invitation letter.

(Albert US et al. 2008)

f. Health outcome and quality of life should be recorded and evaluated in the long term with particular regard to any false-positive and false-negative findings in the diagnostic chain.

GCP

(Albert US et al. 2008)

g. Women should be offered the possibility of discussing their medical history and possible risk factors as part of the statutory early cancer screening.

GCP

(Albert US et al. 2008)

Grade of recommendation
A

h. The main population-related risk factor for the development of breast cancer is advanced age.

Level of evidence
2a

(Albert US et al. 2008)

Grade of recommendation
B

i. Next to the BRCA1/2 mutation, high mammographic density (ARC3 and 4) is the greatest individual risk factor, so that the limited sensitivity of mammography in this context should be enhanced by an additional ultrasound scan.

Level of evidence
3b

(Albert US et al. 2008)

j. Women aged 70 years and over can be invited to participate in early detection measures, with due regard to the individual risk profile, health status and life expectancy.

GCP

(Albert US et al. 2008)

k. Women with a BRCA1 or BRCA2 gene mutation, or with a high risk defined as a heterozygous risk > 20 % or a permanent lifelong risk of developing the disease > 30 %, should seek advice in specialist centers for hereditary breast and ovarian cancer and be counseled about an individual early detection strategy.

GCP

(Albert US et al. 2008)

Grade of recommendation
A

l. Quality-assured mammographic screening at 2-year intervals in women aged between 50 and 70 years old is suited for detecting breast cancer early. At present, it is the only method generally recognized to be effective in detecting early stages of breast cancer or early tumor stages.

Level of evidence
1a

(Albert US et al. 2008)

Grade of recommendation
A

m. Self-examination of the breasts, even with regular application and training, is not sufficient as a method on its own for reducing breast cancer mortality.

Level of evidence
1a

(Albert US et al. 2008)

n. Women should be encouraged through qualified information to familiarize themselves with the normal changes of their own body. These include the appearance and feel of the breast so that the woman can identify any abnormalities herself.

GCP

(Albert US et al. 2008)

o. The clinical breast examination, in other words palpation, breast inspection and evaluation of lymphatic flow, should be offered annually as part of the statutory early screening tests for women aged 30 years and over.

GCP

(Albert US et al. 2008)

p. Ultrasound on its own is not suitable as a method of early detection.

GCP

(Albert US et al. 2008)

B

q. CE-MRI should be utilized as a supplementary method in the presence of a familial increased risk (BRCA1 or BRCA2 mutation carriers, or with a high risk defined as a heterozygous risk > 20 % or a permanent lifelong risk of developing the disease > 30 %).

Level of evidence
2a

(Albert US et al. 2008)

Grade of recommendation
B

a. A reduction in breast cancer mortality is also documented for women aged between 40 and 49 years and outweighs the risks resulting from radiation exposure. However, the figure is lower in the age group of women between 50 and 69 years, in whom relatively more false-positive and false-negative findings are obtained. Consequently, the decision should be taken on the basis of an individual risk analysis and a risk-benefit evaluation, as well as with due regard to the womanʼs preferences and objections.

Level of evidence
1b

(Albert US et al. 2008)

Grade of recommendation
B

b. Second opinions on screening mammograms increase the sensitivity of carcinoma detection by 2.9–13.7 % (median 7.8 %). Depending on the decision-making process following a second opinion, the specificity may be reduced (up to 2.1 %) or increased (up to 2.8 %).

Level of evidence
2b

(Albert US et al. 2008)

Grade of recommendation
0

c. It is not possible on the basis of the currently available study data to determine unequivocally whether the use of CAD systems can replace second opinions.

Level of evidence
3b

(Albert US et al. 2008)

d. The structural, process and outcome quality is regulated for mammography in conjunction with the mammographic screening of women aged between 50 and 69 years.

GCP

(Albert US et al. 2008)

Grade of recommendation
A

e. Structural, process and outcome quality should also be used to the appropriate extent for so-called curative mammography.

Level of evidence
2b

(Albert US et al. 2008)

f. If a mammographic finding of BI-RADS0, III, IV or V is obtained, further investigations should be performed within 5 working days to minimize the mental burden on the woman as far as possible.

GCP

(Albert US et al. 2008; Madjar H et al. 2003)

Grade of recommendation
B

a. With interventional, and preferably ultrasound-guided, biopsies, > 3 specimens should be taken using a 16 G needle.

Level of evidence
3b

(Albert US et al. 2008)

b. Stereotactic vacuum-assisted biopsy should be performed in a standardized way. The access route and needle positioning (stroke margin) must be documented.

GCP

(Albert US et al. 2008)

Grade of recommendation
A

c. The excision of findings detected only on ultrasound should be monitored by intraoperative specimen ultrasound.

Level of evidence
3b

(Albert US et al. 2008)

Multidisciplinary counseling and genetic testing should be carried out at special centers if one line of the family includes:

• at least three women who developed breast cancer

• at least two women (including one below age 50) who developed breast cancer

• at least one woman who developed breast cancer and one woman who developed ovarian cancer

• at least two women who developed ovarian cancer

• at least one woman who developed breast and ovarian cancer

• at least one woman who developed breast cancer before age 36

• at least one woman who developed cancer in both breasts before age 51

• at least one man who developed breast cancer and one woman who developed breast or ovarian cancer.

GCP

a. BRCA1-associated carcinomas of the breast frequently exhibit a characteristic histopathological and immunohistochemical phenotype:

• invasive carcinoma (NOS) with a growth pattern similar to that of medullary carcinoma

• G3 morphology

• negativity for estrogen receptors, progesterone receptors and HER2/neu (triple negative)

Level of evidence
2a

(Honrado E et al. 2006; Lakhani SR et al. 1998; Lakhani SR et al. 2005)

b. In cases where these characteristics are present, the pathologist should draw attention to the possibility of an inherited susceptibility.

GCP

(Honrado E et al. 2006; Lakhani SR et al. 1998; Lakhani SR et al. 2005)

Early detection measures in patients with a high* familial risk include:

• Palpation of the breast by the doctor (every 6 months; from the age of 25 or 5 years before the earliest age of onset of the disease in the family)

• Ultrasound examination of the breast (every 6 months; from the age of 25 or 5 years before the earliest age of onset of the disease in the family)

• Mammography of the breast (every 12 months; from the age of 30, for subjects with a high mammary gland density (ACR4) from the age of 35)

• MRI of the breast (every 12 months; from the age of 25 or 5 years before the earliest age of onset of the disease in the family, usually only up to age 55 or until involution of the glandular parenchyma (ACRI-II), cycle-dependently in premenopausal women).

GCP

(Consortium of familial breast and ovarian cancer)

The treatment of BRCA-associated carcinoma of the breast is based on the guideline recommendations for sporadic carcinoma of the breast.

GCP

Grade of recommendation
B

Women with pathogenic BRCA1 or BRCA2 should be offered a bilateral prophylactic mastectomy. Bilateral prophylactic salpingo-oophorectomy (usually around the age of 40) is recommended.

Level of evidence
3a

(Bermejo-Perez MJ et al. 2007; Calderon-Margalit R et al. 2004; Christiaens M et al. 2007; Cochrane: Lostumbo L et al. 2010; Domchek SM et al. 2006; Evans DG et al. 2009a; NZGG 2009)

Grade of recommendation
A

a. Necessary baseline examinations include:

• clinical breast examination: Breast inspection and palpation of breast and lymphatic drainage areas

• Mammography

• Ultrasound

If the clinical breast examination produces abnormal findings, diagnostic imaging and histological examination should be performed to complete the diagnostic workup.

Level of evidence
1a

(NICE 2009b; NZGG 2009)

Grade of recommendation
A

b. For the investigation of symptomatic findings in women under age 40, sonography is the imaging method of first choice.

Level of evidence
3b

(Nothacker M et al. 2007)

Grade of recommendation
B

c. The effects of endogenous and exogenous hormones should be taken into account during the performance and interpretation of diagnostic procedures.

Level of evidence
2b

(Albert US et al. 2008; Houssami N et al. 2009)

Grade of recommendation
A

a. For the investigation of abnormal clinical findings in women under age 40, mammography is the imaging method of first choice.

Level of evidence
1a

(NICE 2009b; NZGG 2009)

Grade of recommendation
A

b. In high mammographic density (ARC3 and 4), the sensitivity of mammography is limited and should be enhanced by an additional ultrasound scan.

Level of evidence
3b

(Nothacker M et al. 2007; Nothacker M et al. 2009)

a. Sonography is a supplementary study performed to investigate indeterminate lesions. (clinical/mammographic).

Level of evidence
1a

(Albert US et al. 2008; NICE 2009b; NZGG 2009)

Grade of recommendation
A

b. Sonography should be used to especially to investigate clinically non-palpable mammographic lesions with the classifications BI-RADS0, III, IV and V.

Level of evidence
2b

(NICE 2009b; Nothacker M et al. 2007)

Grade of recommendation
A

c. The aim of standardized breast sonography is the systematic and reproducible examination of both breasts and the axilla. The findings must be documented in a reproducible manner.

Level of evidence
2b

(Albert US et al. 2008; Madjar H et al. 2006; Madjar H 2010; NCCN 2011)

d. Structural and process quality, as well as quality of outcomes, should also be demonstrated as a prerequisite for the use of breast sonography.

GCP

(Albert US et al. 2008; Madjar H et al. 2006)

Grade of recommendation
A

a. A contrast-enhanced MRI of the breasts should not be routinely performed for pretherapeutic diagnosis.

Level of evidence
1a

(Houssami N et al. 2008; NICE 2009b; NZGG 2009; Turnbull L et al. 2010)

b. A CE-MRI should only be performed if an MRI-guided intervention is a possible option.

GCP

Grade of recommendation
A

a. The histological diagnostic investigation of unclear findings should be carried out via core biopsy, vacuum-assisted biopsy or excision biopsy. Core biopsy and vacuum-assisted biopsy can be performed mammographically and guided by ultrasound. Any interventions should be performed taking current quality recommendations into consideration.

Level of evidence
3a

(Albert US et al. 2008; NICE 2009b)

Grade of recommendation
A

b. Fine-needle biopsy should not be employed as the standard method for diagnostic confirmation of solid breast tumors.

Level of evidence
2b

(Albert US et al. 2008; NCCN 2011; NICE 2009b)

Grade of recommendation
A

c. In mammographic classification BI-RADS IV and V, intervention-guided tissue biopsy for histopathological confirmation of the diagnosis and for therapeutic planning should be performed using the imaging procedure which best represents the findings and is the least invasive.

Level of evidence
3a

(Albert US et al. 2008; NICE 2009b

Grade of recommendation
A

d. In the presence of microcalcifications without an accompanying focal lesion, stereotactically guided vacuum-assisted biopsy should preferably be performed.

Level of evidence
2b

(Nothacker M et al. 2007)

e. Vacuum-assisted biopsy should also be used for MRI-guided tissue sampling.

GCP

f. Following minimally invasive imaging-guided tissue sampling, the results should be verified by correlating the results of the imaging diagnostic studies with the histopathological findings.

GCP

(Albert US et al. 2008; Del Turco MR et al. 2010)

g. If the histopathological examination reveals a benign lesion according to BI-RADS classification IV or V, a follow-up imaging study should be performed with the appropriate imaging method in 6–12 monthsʼ time. The quality requirements set down in the Stage 3 Guidelines for Early Breast Cancer Detection in Germany must be observed.

GCP

(Albert US et al. 2008)

Grade of recommendation
0

h. When primary clinical and/or radiological findings suggest that axillary lymph nodes are involved, an imaging-guided core biopsy can be performed as a minimally invasive procedure for cytohistological diagnostics to avoid superfluous axillary surgeries.

Level of evidence
3a

(NICE 2009b)

a. Primary, open diagnostic excision biopsy should only be performed in exceptional cases, as when an imaging-guided intervention is not possible or too risky.

GCP

(Albert US et al. 2008; Gruber R et al. 2008)

Grade of recommendation
A

b. In the case of non-palpable changes, it is always important to perform preoperative marking. Adequate resection via imaging methods must also be demonstrated.

Level of evidence
3b

(Albert US et al. 2008)

Grade of recommendation
A

c. During the preoperative wire marking of non-palpable lesions, the wire should penetrate the focal lesion and project beyond the lesion by less than 1 cm. In cases where the wire does not penetrate the focal lesion, the distance between the wire and the margin of the lesion should be ≤ 1 cm. In non-space-occupying processes, marking of the surgically relevant target volume may be useful.

Level of evidence
3b

(Albert US et al. 2008)

d. The material collected during the operation should be clearly marked and sent to the pathologists without any incision of the tissue material obtained.

GCP

(Albert US et al. 2008)

e. An intraoperative decision as to whether a lesion is benign or malignant on the basis of a frozen section should be made only in exceptional cases. Prerequisites for a frozen section of surgical specimens are:

• The lesion is palpable intraoperatively and in the specimen

• The lesion is sufficiently large (generally > 10 mm)

GCP

(Albert US et al. 2008)

Grade of recommendation
A

In patients with locally advanced carcinomas and in cases where metastasis is suspected, the following individual studies should be performed for staging prior to the institution of treatment:

• chest x-ray

• ultrasound examination of the liver

• bone scan

Level of evidence
5

(Alderson PO et al. 1983; Crump M et al. 1996; NICE 2009b; NZGG 2009)

Once a histological finding has been established from a core/vacuum-assisted biopsy, the therapeutic strategy for preinvasive neoplasms should be elaborated by an interdisciplinary team consisting of a specialist in diagnostic radiology, a surgeon and a pathologist.

GCP

(NCCN 2011)

An individualized treatment strategy should be elaborated for and offered to every patient with ductal carcinoma in situ (DCIS) without invasive portions. The patient must be briefed on the arguments for and against the particular therapies and combinations of these therapies, as well as on the advantages with respect to the likelihood of local recurrence and the absence of an effect on the probability of survival.

GCP

(NICE 2009; NZGG 2009)

Grade of recommendation
A

a. The resection margin is an important prognostic factor in DCIS. The tumor-free distance to the excision margin should be at least 2 mm whenever postoperative radiation therapy is planned.

Level of evidence
2b

(Dunne C et al. 2009; NICE 2009; NZGG 2009)

Grade of recommendation
A

b. In DCIS, axillary dissection should not be performed. A sentinel node biopsy should only be performed when a secondary sentinel node biopsy is not possible for technical reasons.

Level of evidence
1b

(Christiaens M et al. 2007; NZGG 2009)

Grade of recommendation
A

a. Postoperative radiotherapy after breast-conserving surgery for DCIS lowers the rate of invasive and non-invasive local recurrences without any demonstrable effect on overall survival.

Level of evidence
1a

(Bijker N et al. 2006; Clarke M et al. 2005; Cochrane: Goodwin A et al. 2009; Cutuli B et al. 2002; Cuzick J et al. 2011; EBCTCG: Correa C et al. 2010; Emdin SO et al. 2006; Holmberg L et al. 2008)

Grade of recommendation
A

b. The absolute risk reduction in the local recurrence rate by radiotherapy after breast-conserving surgery for DCIS depends on individual factors.

Level of evidence
1b

(Baxter NN et al. 2005; Boyages J et al. 1999; Cochrane: Goodwin A et al. 2009; Cuzick J et al. 2011; EBCTCG: Correa C et al. 2010; Houghton J et al. 2003; Omlin A et al. 2006; Shelley W et al. 2006; Smith BD et al. 2006)

Tamoxifen can lower the risk for an ipsilateral and contralateral recurrence of a DCIS. There is no effect on survival. The decision for the adjuvant use of tamoxifen should be made individually after weighing the benefits and sideeffects.

GCP

(Fisher B et al. 1999; Fisher B et al. 2001b; Houghton J et al. 2003)

a. Tumor excision with a negative resection margin (R0 status) is the basis of therapy for all non-advanced breast carcinomas.

GCP

(Blichert-Toft M et al. 1998; Renton SC et al. 1996)

b. The resection margin status has a prognostic effect in invasive breast carcinoma. There is a significant relationship between the resection margin status (positive vs. close vs. negative) and the local recurrence rate.

Level of evidence
3a

(Houssami N et al. 2010)

Grade of recommendation
A

For this reason, the minimum safety distance in invasive breast carcinoma between the tumor (invasive carcinoma and associated DCIS) and the resection margin should be at least 1 mm.

Level of evidence
3a

(Houssami N et al. 2010; NZGG 2009)

a. The objective of surgical treatment is removal of the tumor. Breast-conserving treatment (BCT) followed by radiotherapy of the whole breast is equivalent in terms of survival to modified radical mastectomy (MRM) alone.

Level of evidence
1a

(EBCTCG 1995; Fisher B et al. 2001; Veronesi U et al. 2002; Wald NJ et al. 1995; Weaver DL et al. 2000)

b. For this reason, all patients should be briefed on the options of breast-conserving treatment (BCT) and modified radical mastectomy (MRM) with the possibility of primary or secondary reconstruction.

GCP

(NZGG 2009)

Grade of recommendation
A

The following constitute indications for modified radical mastectomy:

• diffuse, extensive calcifications of the malignant type

• multicentricity

• incomplete removal of the tumor (including the intraductal component), even after repeat excision

• inflammatory carcinoma of the breast, (including following neoadjuvant treatment)

• likelihood of an unsatisfactory cosmetic result with breast-conserving treatment

• postoperative radiotherapy clinically contraindicated after breast-conserving treatment

• patientʼs informed preference

Level of evidence
2b

(Fisher B et al. 1994; NZGG 2009; Voogd AC et al. 2001)

Grade of recommendation
A

Every patient due to undergo a mastectomy should be informed about the possibility of immediate or later breast reconstruction or of not having any reconstructive procedure at all; contact with other patients or self-help groups or organizations should also be offered.

Level of evidence
2b

(Lanitis S et al. 2010; NICE 2009; Potter S et al. 2011)

a. Determination of the histological node status (pN status) is part of the surgical treatment of invasive breast cancer. This should be done by means of sentinel lymph node biopsy (SLNB).

GCP

(Kuehn T et al. 2005; Lyman GH et al. 2005; NICE 2009; NZGG 2009)

b. SLNB is equivalent to axillary dissection in terms of local control in SLN-negative patients.

Level of evidence
1b

(Krag DN et al. 2010; NZGG 2009)

c. Morbidity after SLNB is significantly reduced compared with axillary dissection.

Level of evidence
1a

(Fleissig A et al. 2006; Mansel RE et al. 2006; NICE 2009; Veronesi U et al. 2003)

d. Axillary dissection must be performed in patients in whom no SLN is detected.

GCP

Grade of recommendation
A

e. In patients who exhibit a positive SLN (macrometastasis), axillary dissection with removal of at least 10 lymph nodes from levels I and II is indicated.

Level of evidence
1b

(NZGG 2009)

f. For patients with pT1-pT2/cN0 tumors undergoing breast-conserving surgery followed by tangential field irradiation and who exhibit one or two positive sentinel lymph nodes, there is the option of refraining from axillary dissection.

GCP

(Giuliano AE et al. 2010)

g. This procedure requires extensive preliminary information and briefing of the patient.
The process and outcome quality must be evaluated prospectively in conjunction with quality assuring measures.

GCP

h. Axillary dissection is not necessary if only micrometastases are present.

GCP

If the sentinel lymph node is removed, the quality criteria of the medical associations must be met.

GCP

(Kuehn T et al. 2005; Lyman GH et al. 2005; NICE 2009)

The surgical material should be identified with unambiguous topographical markings and sent to the pathologist without the prior removal of any tissue by the clinician or surgeon (or others).

GCP

(Amendoeira I 2006b; NCCN 2011)

All invasive carcinomas must be classified histologically (according to WHO 2003).

GCP

(Amendoeira I 2006b; NCCN 2011; NHMRC2001; The Association of Breast Surgery at BASO RCoSoE 2005; WHO 2003)

All invasive carcinomas are to be graded according to the WHO system (Elston and Ellis modification of the Bloom and Richardson grading (Elston CW et al. 1991)).

GCP

(Amendoeira I 2006b; NCCN 2011; NHMRC2001; The Association of Breast Surgery at BASO RCoSoE 2005; UICC2010; WHO 2003)

Grade of recommendation
A

a. In patients with invasive breast carcinoma, the primary diagnostic procedures should include determination of the estrogen and progesterone receptor status and of the HER2 status, preferably directly on the core biopsy.

Level of evidence
2a

(Hammond ME et al. 2010; ICSI 2005; NCCN 2011; NHMRC2001; NICE 2009; NZGG 2009; Wolff AC et al. 2007a)

b. The estrogen and progesterone receptor status should be determined by immunohistochemistry assay. The percentages of positive tumor cell nuclei and the mean color intensity should be stated for each receptor type. In addition, scores can be calculated, in which case the procedure used should be specified (Allred (Quick) Score, Immunoreactive Score of Remmele and Stegner). At least 1 % positive tumor cell nuclei are required for classification as ER- or PgR-positive.

GCP

(Hammond ME et al. 2010; NCCN 2011; NICE 2009; NZGG 2009

Grade of recommendation
A

c. HER2 positivity as a precondition for trastuzumab therapy is defined as protein overexpression with a score of 3+ demonstrated by immunohistochemistry assay, or gene amplification demonstrated preferably by fluorescence in situ hybridization (FISH) or chromogenic in situ hybridization (CISH).

Level of evidence
1b

(Carlson RW et al. 2006; Crump M 2005; NCCN 2011; NCRI 2005; Nothacker M et al. 2007; Wolff AC et al. 2007a)

d. It must be ensured that the detection method used to determine the hormone receptor and HER2 status is reliable. This involves internal test validation, the use of standardized protocols and internal controls, and regular successful participation in external quality assurance measures.

GCP

(Carlson RW et al. 2006; Hammond ME et al. 2010; NCCN 2011; NICE 2009; NZGG 2009; Wolff AC et al. 2007a)

The tumor characteristics and the patientʼs situation must be documented in order to be able to assess the course of the disease (prognosis) and the expected effect of systemic therapies (prediction).
The following should be documented as prognostic factors:

Grade of recommendation
A

a. pTNM status (tumor size, axillary lymph node involvement, distant metastasis)

Level of evidence
1a

(Bundred NJ 2001; Carter CL et al. 1989; NCCN 2011; NZGG 2009; Page DL et al. 1992; Page DL et al. 1998; Rosen PP et al. 1991; Rosen PP et al. 1993)

Grade of recommendation
A

b. Resection margin (R classification) and safety distances

Level of evidence
1b

(Bundred NJ 2001; Kurtz JM et al. 1989; NCCN 2011; NICE 2009; NZGG 2009; Park CC et al. 2000)

Grade of recommendation
A

c. histological type

Level of evidence
2b

(Fisher ER et al. 1990; NCCN 2011; NZGG 2009)

Grade of recommendation
A

d. tumor grade

Level of evidence
2a

(Elston CW et al. 1991; NCCN 2011; NZGG 2009)

The following should be documented as prognostic factors:
e. Lymphatic and vascular invasion (Lx, Vx)

Level of evidence
2b

(Colleoni M et al. 2007; Gasparini G et al. 1994; Kato T et al. 2003; NCCN 2011; NZGG 2009)

f. Age

GCP

Grade of recommendation
0

g. In the case of node-negative breast cancers, the determination of tumor concentrations of uPA and PAI-1 by ELISA can provide additional prognostic information.

Level of evidence
1a

(Harbeck N et al. 2009; Harris L et al. 2007; Janicke F et al. 2001; Look MP et al. 2002)

The following predictive factors for adjuvant therapy should be documented:

Grade of recommendation
A

h. Estrogen/progesterone receptor status for hormone therapy

Level of evidence
1a

(Bundred NJ 2001; EBCTCG 1992; EBCTCG 1998; NCCN 2011; Osborne CK 1998)

Grade of recommendation
A

i. HER2/neu status for targeted anti-HER2 treatment

Level of evidence
1b

(NCCN 2011; NICE 2009; Nothacker M et al. 2007; NZGG 2009)

Grade of recommendation
A

j. Menopausal status for use of antiestrogen therapy.

Level of evidence
1c

(EBCTCG 2000; NCCN 2011)

k. The prognostic and predictive value of the proliferation marker Ki-67 is not sufficiently documented. Outside of studies, therefore, it cannot be used clinically for subtyping ER-positive breast cancers (e.g. Ki-67 < 14 %: luminal A; Ki-67 ≥ 14 %: luminal B) as a basis for deciding on the use of systemic treatment.

GCP

(de Azambuja E et al. 2007; Dowsett M et al. 2011; Stuart-Harris R et al. 2008; Yerushalmi R et al. 2010)

l. The use of gene expression analyses – PCR-based or by microarray – for evaluation of the prognosis or response to treatment (prediction) is not sufficiently validated for routine use and can therefore not be recommended.

GCP

(EGAPP Working Group 2009; Marchionni L et al. 2008; Paik S et al. 2004; Paik S et al. 2006)

Grade of recommendation
A

Predictive factors that should be taken into account before administering neoadjuvant systemic treatment because they hold significant predictive value for the occurrence of a pathological complete remission (pCR)§:

• Age

• cT

• cN

• histological type

• histological grading

• ER and PgR status

• HER2 status

Level of evidence
1a

(von Minckwitz G et al. 2011)

An intraoperative decision as to whether a lesion is benign or malignant on the basis of a frozen section should be made only in exceptional cases.
Prerequisites for a frozen section of surgical specimens are:

• The lesion is palpable intraoperatively and in the specimen

• The lesion is sufficiently large (generally > 10 mm)

GCP

(Amendoeira I 2006b; NHMRC2001; NZGG 2009; OʼHiggins N et al. 1998)

The lymph node status is determined on the basis of histological examination of all the lymph nodes removed.
Documentation of the following is mandatory: number of lymph nodes removed and involved, capsule penetration, pN category (according to TNM classification, 76th Edition, UICC20 022010).

GCP

(ICSI 2005; NHMRC2001; NZGG 2009; The Association of Breast Surgery at BASO RCoSoE 2005; UICC2010)

Grade of recommendation
A

In patients with invasive carcinoma, irradiation of the affected breast is indicated after breast-conserving surgery.

Level of evidence
1a

(Clarke M et al. 2005; EBCTCG 2011: Darby S et al. 2011; EBMG 2006; Harnett A et al. 2009; NZGG 2009; Peto R 2006)

Grade of recommendation
A

a. The target volume of percutaneous adjuvant radiotherapy should encompass the entire residual breast and the adjoining chest wall.

Level of evidence
1a

(EBCTCG 2011: Darby S et al. 2011; EBMG 2006; NCCN 2007; NHMRC2001; NICE 2009; NZGG 2009; SIGN 2005)

Grade of recommendation
A

b. The dose should be approx. 50 Gy in conventional fractionation (5 × 1.8–2.0 Gy/week).

Level of evidence
1a

(Clarke M et al. 2005; EBCTCG 2011: Darby S et al. 2011; EBMG 2006; NCCN 2011; NHMRC2001; Peto R 2006; SIGN 2005)

Grade of recommendation
B

c. In older patients without locoregional lymph node involvement and with tumors < 5 cm who do not require chemotherapy, hypofractionated regimens can also be used as an alternative to conventionally fractionated radiotherapy for percutaneous homogeneous irradiation of the breast (e.g., 5 × 2.666 Gy per week up to 40 Gy).

Level of evidence
1a

(Goldhirsch A et al. 2011; Harnett A 2010; NCCN 2011; NICE 2009; Smith BD et al. 2011a; Whelan TJ et al. 2010)

Grade of recommendation
A

d. The application of a local booster dose (boost irradiation) to the tumor bed reduces the rate of local recurrence in the breast without conferring an advantage in terms of survival.
Boost irradiation is generally indicated. The recommended boost dose is (10–)16 Gy in conventional fractionation (5 × 1.8–2.0 Gy/week).

Level of evidence
1a

(Antonini N et al. 2007; Bartelink H et al. 2007; Jones HA et al. 2009; Livi L et al. 2009; Poortmans P 2007; Poortmans PM et al. 2008; Poortmans PM et al. 2009; Romestaing P et al. 1997; Romestaing P et al. 2009; Sautter-Bihl ML et al. 2007; SIGN 2005)

Grade of recommendation
C

e. In postmenopausal patients with a very low risk of local recurrence (in particular, age > 60 years, small tumors and favorable prognostic factors), the absolute advantage conferred by boost irradiation is small. In this subgroup, the administration of boost irradiation may be omitted if necessary.

Level of evidence
2a

(EBCTCG 2011: Darby S et al. 2011; NZGG 2009)

Partial breast irradiation as the sole form of intraoperative or postoperative radiation treatment is not standard therapy

Level of evidence
3b

(NCCN 2006; NCCN 2007)

a. Postoperative radiotherapy of the chest wall after mastectomy reduces the risk of locoregional recurrence.

Level of evidence
1a

(Clarke M et al. 2005; EBMG 2006; NCCN 2011; NHMRC2001; NICE 2009; NZGG 2009; Peto R 2006; Shafiq J et al. 2007; SIGN 2005; Whelan T et al. 2007)

b. In patients with a high risk of a local recurrence, overall survival is also improved.

Level of evidence
1a

(Clarke M et al. 2005; Darby S et al. 2009; Fernando SA et al. 2007; Gebski V et al. 2006; Harris EE 2008; Jagsi R et al. 2009; Kyndi M et al. 2008b; Kyndi M et al. 2008a; NCCN 2011; NICE 2009; Nielsen HM et al. 2006a; Nielsen HM et al. 2006b; NZGG 2009; Overgaard M et al. 2007; Peto R 2006; Poortmans P 2007; Rowell NP 2009; Rowell NP 2010; Voordeckers M et al. 2009; Whelan T et al. 2007)

c. Postoperative radiotherapy of the chest wall after mastectomy is therefore indicated in the following situations:

Grade of recommendation
A

• T3/T4

Level of evidence
1a

(NCCN 2011; NICE 2009; NZGG 2009)

Grade of recommendation
B

• pT3 pN0 R0 only in the presence of other risk factors (lymphatic vessel invasion, G3 grade, close resection margin, premenopausal status, age < 50 years)

Level of evidence
2b

(Floyd SR et al. 2009; Kunkler I 2010; McCammon R et al. 2008; Rowell NP 2009; Russell NS et al. 2009)

Grade of recommendation
A

• R1-/R2 resection and no possibility of a complete repeat resection

Level of evidence
1a

(NCCN 2011; NICE 2009; NZGG 2009)

Grade of recommendation
A

• pN+ (> 3 lymph nodes)

Level of evidence
1a

(NCCN 2011; NICE 2009; NZGG 2009)

Grade of recommendation
A

d. After primary (neoadjuvant) systemic therapy, the indication for radiotherapy should be based on the pretherapeutic T and N category, regardless of the degree of response to the primary systemic therapy.

Level of evidence
2a

(Buchholz TA et al. 2002; Buchholz TA et al. 2008; Buchholz TA 2009; Garg AK et al. 2007; Goldhirsch A et al. 2009; Huang EH et al. 2006; Kaufmann M et al. 2003; Kaufmann M et al. 2010; NCCN 2007; NCCN 2011)

Grade of recommendation
A

a. In a pN0 situation, the regional lymphatic drainage areas should not undergo adjuvant irradiation.

Level of evidence
3b

(NCCN 2011; NICE 2009)

b. Radiotherapy of the axilla is recommended only in the following situations:

Grade of recommendation
A

• residual tumor in the axilla

Level of evidence
2b

(NCCN 2011; NICE 2009; NZGG 2009; SIGN 2005; Truong PT et al. 2004; Truong PT et al. 2005b)

Grade of recommendation
A

• unequivocal clinical involvement and in the absence of axillary dissection.

Level of evidence
3b

(NCCN 2011; NICE 2009; NZGG 2009)

Grade of recommendation
A

c. The benefit of radiotherapy of the regional lymphatic drainage channels following detection of isolated tumor cells or micrometastases in regional lymph nodes (pNmic) is not substantiated and therefore it should not be performed.

Level of evidence
3b

(de Boer M et al. 2009; de Boer M et al. 2010; Lupe K et al. 2011; Tjan-Heijnen VC et al. 2009; Truong PT et al. 2008)

d. Radiotherapy of the internal mammary lymph node drainage region should not be performed.

GCP

(NICE 2009; NZGG 2009)

e. Radiotherapy of the supraclavicular and infraclavicular lymphatic drainage channels is recommended in the following situations:

Grade of recommendation
B

• patients with > 3 positive axillary lymph nodes (> pN2a)

Level of evidence
1b

(NICE 2009; NZGG 2009)

Grade of recommendation
B

• level III axillary involvement

Level of evidence
3b

(NZGG 2009; SIGN 2005)

Grade of recommendation
B

• where irradiation of the axilla is indicated (residual tumor in the axilla)

Level of evidence
3b

(NZGG 2009; SIGN 2005)

f. The indication for radiotherapy of the regional lymph drainage channels following primary systemic therapy should be dependent on the pretherapeutic baseline situation and independent of the response of the tumor manifestations to systemic therapy.

Level of evidence
3b

(Buchholz TA et al. 2002; Garg AK et al. 2007; Huang EH et al. 2006; Kaufmann M et al. 2010; McGuire SE et al. 2007; NCCN 2011)

g. Where irradiation of lymphatic drainage areas is indicated, radiotherapy is administered with approx. 50 Gy in conventional fractionation (5 × 1.8–2.0 Gy/week). For irradiation of the supraclavicular lymphatic drainage region, a single dose of 1.8 Gy should be preferred.

GCP

Grade of recommendation
A

a. Primary systemic therapy followed by surgery and postoperative radiotherapy is recommended for patients with primarily inoperable or inflammatory carcinomas.

Level of evidence
1b

(Kaufmann M et al. 2003; Kaufmann M et al. 2010; NCCN 2011; NICE 2009

b. If systemic therapy fails to achieve operability, radiotherapy – possibly in combination with simultaneous systemic therapy – is indicated.

GCP

(Kaufmann M et al. 2003; Kaufmann M et al. 2010; NCCN 2007; NCCN 2011; Shenkier T et al. 2004; Truong PT et al. 2004)

Grade of recommendation
B

The superiority of a particular chronological sequence of chemotherapy and radiotherapy has not been sufficiently established. As a basic rule, the postoperative sequence depends on the type of recurrence most likely to occur, especially since the optimal time is not sufficiently substantiated.

Level of evidence
1a

(Cochrane: Hickey BE et al. 2006; Kaufmann M et al. 2010; NCCN 2011; NICE 2009; Poortmans P 2007; Recht A 2003; Recht A 2010; Rouesse J et al. 2006; Tsoutsou PG et al. 2010)

The concurrent administration of trastuzumab and radiotherapy can be justified as long as no irradiation of the internal mammary lymph nodes is planned.

GCP

(Azria D et al. 2010b; Balduzzi A et al. 2010; Belkacemi Y et al. 2008; Chargari C et al. 2011a; Chargari C et al. 2011b; Halyard MY et al. 2009; Kirova YM et al. 2009; Romond EH et al. 2005; Shaffer R et al. 2009)

Endocrine treatment modalities can be performed concurrently or sequentially with radiotherapy.

Level of evidence
1a

(Ahn PH et al. 2005; Harris EE et al. 2005; Hoeller U et al. 2007; Pierce LJ et al. 2005; Whelan T et al. 2005)

A sentinel node biopsy should be performed before the beginning of neoadjuvant chemotherapy in patients with cN0; in those with cN1, the diagnosis can also be made by core biopsy or fine-needle biopsy.

GCP

Grade of recommendation
A

Pharmacotherapy of the primary disease is undertaken before or after surgery in the form of chemotherapy, endocrine therapy, anti-HER2 antibody therapy or a combination or sequence of these different forms.

Level of evidence
1a

(EBCTCG 2005; NCCN 2006)

The recurrence rate and mortality can be reduced by systemic therapy. This applies to polychemotherapy, in particular the administration of anthracyclines and taxanes, pharmacological suppression of ovarian function, tamoxifen, aromatase inhibitors and trastuzumab. The extent of this effect in absolute terms depends on the disease risk.

Level of evidence
1a

(Cochrane: Ferguson T et al. 2007; EBCTCG 1998; EBCTCG 2005; EBCTCG 2011; NIH 2001)

Optimal supportive therapy (e.g., stimulation of granulopoiesis, anti-emetic medication, provision of wigs, etc.) is an integral part of all systemic therapies. All patients should be briefed on possible side effects and late sequelae and offered prophylactic measures.

GCP

(NICE 2009)

Grade of recommendation
B

Older* patients should receive similar systemic adjuvant therapy to that given to younger patients. Changes in organ function and comorbidities should be taken into account when establishing the indication for and implementing adjuvant treatment measures.

Level of evidence
1a

(EBCTCG 2011)

Grade of recommendation
A

a. Endocrine therapy is indicated in patients with estrogen and/or progesterone receptor-positive tumors.

Level of evidence
1a

(EBCTCG 1998; EBCTCG: Davies C et al. 2011; Fisher B et al. 1997; NICE 2009; Thuerlimann B et al. 2001)

Grade of recommendation
A

b. This should not be initiated until after chemotherapy has been completed.

Level of evidence
1a

(EBCTCG 1998; EBCTCG: Davies C et al. 2011; Fisher B et al. 1997; NICE 2009; Thuerlimann B et al. 2001)

Grade of recommendation
A

In premenopausal patients, tamoxifen is the endocrine therapy of choice. Antihormonal therapy with tamoxifen 20 mg per day should be given over a period of 5 years or until recurrence.

Level of evidence
1a

(EBCTCG 1998; EBCTCG: Davies C et al. 2011)

a. In women who are definitely postmenopausal, third-generation aromatase inhibitors are superior to tamoxifen in terms of disease-free survival.

Level of evidence
1b

(Burstein HJ et al. 2010; NZGG 2009)

b. The following endocrine treatment regimens can be used:

• tamoxifen for 5 years

• aromatase inhibitors for 5 years

• tamoxifen for 2–3 years followed by aromatase inhibitors, up to a total treatment duration of 5 years

• aromatase inhibitors for 2–3 years followed by tamoxifen, up to a total treatment duration of 5 years

• tamoxifen for 5 years followed by aromatase inhibitors for 5 years

GCP

Grade of recommendation
A

a. All patients with receptor-negative tumors (pN0 and pN+) should receive adjuvant chemotherapy.

Level of evidence
1a

(EBCTCG 2011; NICE 2009; NZGG 2009)

Grade of recommendation
A

b. Chemotherapy should be administered at the recommended dosages.

Level of evidence
1a

(Budman DR et al. 1998; EBCTCG 2011; Fisher B et al. 1997; French Adjuvant Study Group 2001; Fumoleau P et al. 2003)

c. Underdosing or a reduction in the number of cycles is liable to cause a loss of effectiveness.

Level of evidence
1a

(Bonadonna G et al. 1995; Budman DR et al. 1998; Cady B et al. 1993; Fisher B et al. 1990; French Adjuvant Study Group 2001)

Grade of recommendation
A

Cytotoxic agents should be administered concurrently or sequentially.
Dose-dense treatments should be used in patients with an increased risk of recurrence.

Level of evidence
1b

(Bonadonna G et al. 1995; Citron ML et al. 2003; Eiermann W et al. 2011; Francis P et al. 2008; Moebus V et al. 2010; NIH 2001)

Grade of recommendation
B

An indication for adjuvant chemotherapy should be established in the case of:

• HER2-positive tumors

• Tumors that are not sensitive to endocrine therapy (ER- and PR-negative).

• node-positive tumors or node-negative tumors with a high risk of recurrence

• G III

• young age of disease onset (< 35 years)

Level of evidence
1a

(Cochrane: Ferguson T et al. 2007; EBCTCG 2005; EBCTCG 2011; EBM Reviews 2003; NIH 2001; NZGG 2009)

Grade of recommendation
B

Adjuvant chemotherapy should include a taxane. Anthracycline- and taxane-containing adjuvant standard chemotherapy lasts 18–24 weeks.

Level of evidence
1b

(Bria E et al. 2006; Citron ML et al. 2003; Clavarezza M et al. 2006; Cochrane: Ferguson T et al. 2007; Estevez LG et al. 2007; Henderson IC et al. 2003; Mamounas EP et al. 2005; Roche H et al. 2006)

Neoadjuvant (primary, preoperative) systemic therapy is now deemed the standard treatment for patients with locally advanced, primarily inoperable or inflammatory breast carcinoma within the context of a multimodal therapeutic strategy.

GCP

(Brito RA et al. 2001; Fisher B et al. 1997; Kaufmann M et al. 2006; von Minckwitz G et al. 2011)

Grade of recommendation
0

a. If chemotherapy is indicated, this can be undertaken preoperatively (neoadjuvant) or postoperatively (adjuvant). The two procedures are equivalent in terms of overall survival.
Neoadjuvant therapy can result in a higher rate of breast-conserving treatments.

Level of evidence
1a

(Kaufmann M et al. 2006; von Minckwitz G et al. 2011)

b. The effect is greatest on hormone receptor-negative carcinomas.

Level of evidence
1a

(Bear HD et al. 2006; von Minckwitz G et al. 2005; von Minckwitz G et al. 2011)

c. Resection within the new tumor margins is possible if R0 resection with a sufficient safety distance can be achieved.

Level of evidence
1a

(Kaufmann M et al. 2003; von Minckwitz G et al. 2011)

Primary hormonal therapy represents an option for postmenopausal patients with receptor-positive and HER2-negative tumors in cases where surgery is contraindicated or refused.

GCP

If a chemotherapeutic combination is used as neoadjuvant therapy, this should include an anthracycline and a taxane (trastuzumab if HER2-positive). The duration of preoperative therapy should be 6–8 cycles (equivalent to 18–24 weeks).

GCP

(von Minckwitz G et al. 2011)

Grade of recommendation
A

a. Patients with HER2-overexpressing tumors with a diameter ≥ 1 cm (immunohistochemical score 3+ and/or ISH-positive) should receive (neo-)adjuvant treatment with trastuzumab for one year.

Level of evidence
1b

(NICE 2009; NZGG 2009)

Grade of recommendation
B

b. Adjuvant treatment with trastuzumab should preferably be started simultaneously with the taxane phase of adjuvant chemotherapy.

Level of evidence
2a

(Petrelli F et al. 2011)

c. If there is an indication for chemotherapy in tumors < 10 mm, trastuzumab should be given additionally.

GCP

a. In patients with an in-breast recurrence (DCIS or invasive carcinoma), the best local tumor control is achieved by secondary mastectomy.

GCP

(Borner M et al. 1994; Dalberg K et al. 1998)

Grade of recommendation
0

b. In patients with a favorable baseline situation, e.g. patients with DCIS or invasive carcinoma with a long recurrence-free interval and no skin involvement, an organ-conserving surgical procedure can be performed in cases where this is deemed justified.

Level of evidence
4a

(Deutsch M 2002; Haffty BG et al. 1996; Kurtz JM et al. 1991; Whelan T et al. 1994)

c. The possibility of re-irradiation (partial breast irradiation) must be investigated in the case of breast-conserving surgery.

GCP

d. Patients who undergo organ-conserving surgery must be advised of the higher risk of a repeat in-breast recurrence.

GCP

An isolated recurrence in the chest wall should be removed completely by surgery (R0) where possible.

GCP

(Schmoor C et al. 2000)

In patients with an isolated regional recurrence, the aim should be to achieve local control of the disease by surgery and/or radiotherapy.

GCP

The value of postoperative systemic therapy following surgical resection of a locoregional recurrence in terms of improved overall survival has not been sufficiently substantiated. There is evidence that the disease-free interval can be prolonged by systemic therapy.

GCP

(Cochrane: Rauschecker H et al. 2001; Cochrane: Rauschecker HHF et al. 2008; Haffty BG et al. 1996)

a. The need for radiotherapy after surgery for a recurrence should be discussed and decided upon within an interdisciplinary team. Postoperative radiotherapy can be performed if radiotherapy was not administered previously or radical surgical excision of the local recurrence was not performed (R1–2).

GCP

(Aberizk WJ et al. 1986)

b. In patients with an inoperable local recurrence, palliative radiotherapy may be beneficial.

GCP

(Jones EL et al. 2005; Karasawa K et al. 2003; Semrau S et al. 2006; Sherar M et al. 1997)

A patient with demonstrated distant metastases of breast cancer should be briefed in particular detail about the therapeutic options and involved in the decision-making process. The patientʼs request for information about all the relevant available measures, including supportive and complementary treatment options, should be satisfied.

GCP

(NICE 2009)

The choice of treatment should be adapted to the disease and individually tailored to the patientʼs expectations, values and preferences, as well as her symptoms, comorbidities, age and general state of health, the aggressiveness of the disease and location of the metastases, the type of prior adjuvant and palliative treatment, HER-2 status, hormone-receptor status and menopausal status.

GCP

Grade of recommendation
A

The following prognostic and predictive factors should be determined before instituting treatment of metastatic breast cancer:

• hormone receptor status for hormonal therapy

• HER-2 status for treatment with anti-HER2 active substances

• bone metastases for the administration of bisphosphonates, or where applicable a RANK ligand inhibitor

• the previous response to chemoendocrine therapy for further systemic and local therapies

• the performance status for the effect and usefulness of chemotherapy

Level of evidence
1a

(Andersson M et al. 1999; Cheung KL et al. 1997; Hortobagyi GN et al. 1996; NICE 2009)

Grade of recommendation
A

Endocrine therapy is the treatment of choice for patients with a positive hormone receptor status.

Level of evidence
1b

(Fossati R et al. 1998; NICE 2009; Stockler M et al. 1997; Stockler M et al. 2000)

Grade of recommendation
A

Endocrine therapy is not indicated in the following cases:

• need to achieve rapid remission to prevent severe symptoms in the affected organ

• negative hormone receptor status

• brain metastases (no adequate/sufficient therapy).

Level of evidence
1b

(Fossati R et al. 1998; NICE 2009; Stockler M et al. 1997; Stockler M et al. 2000)

Grade of recommendation
A

Combined chemoendocrine therapy is not recommended. Although it can improve remission rates, it causes increased toxicity without prolonging either the progression-free interval or overall survival.

Level of evidence
1a

(Cochrane: Carrick S et al. 2005; Sledge Jr. GW et al. 2000)

Grade of recommendation
A

Suppression of ovarian function (GnRH analogs, oophorectomy, and ovarian ablation by radiotherapy) in combination with tamoxifen is the first-choice therapy in premenopausal patients.

Level of evidence
1b

(Klijn JG et al. 2001; NBOCC2010; NICE 2009)

Grade of recommendation
0

In premenopausal patients, ovarian suppression can be used subsequently in combination with an aromatase inhibitor. Treatment with high-dose progestins (MA/MPA) represents a further step.

Level of evidence
2c

(NICE 2009; Taylor CW et al. 1998; von Minckwitz G et al. 1991)

Grade of recommendation
A

In postmenopausal patients with metastases, the first step in endocrine treatment following adjuvant therapy with tamoxifen or no adjuvant endocrine therapy is the administration of an aromatase inhibitor.

Level of evidence
1a

(Cochrane: Gibson L et al. 2009; Ellis MJ et al. 2000; Fossati R et al. 1998; Hayes DF et al. 1995; Mouridsen H et al. 2001a; Mouridsen H et al. 2001b; NICE 2009)

Depending on the prior treatment, further steps in the cascade of endocrine therapy in postmenopausal women are the administration of antiestrogens, estrogen receptor antagonists, switch from a steroidal to a non-steroidal aromatase inhibitor (or vice versa), or the use of high-dose progestins.

GCP

(Fossati R et al. 1998; Robertson JF et al. 2003)

The patientʼs general condition and comorbidities must be established and compliance must be assessed before chemotherapy is administered.

GCP

Toxicity must be assessed both objectively and subjectively at regular intervals during therapy. The doses administered, as well as the intended time intervals, must conform to generally accepted standard or currently published therapeutic regimens. After a suitable and representative measurement parameter has been selected prior to the institution of therapy (e.g., symptoms, tumor markers, indicator metastasis), the therapeutic effect should be evaluated at least every 6–12 weeks, depending on the clinical requirements/studies. Cytotoxic maintenance therapy increases toxicity without improving survival. For this reason, cytotoxic therapy is recommended only in the event of progression (increased symptoms and/or progression of the tumor process).

GCP

Treatment should be stopped immediately if progression or intolerable toxicity occurs.

GCP

a. The administration of combination, as opposed to single-agent, chemotherapy may confer a slight advantage in terms of survival, but is often associated with a higher rate of toxicity.

Level of evidence
1a

(Cochrane: Carrick S et al. 2005; Cochrane: Carrick S et al. 2009; Fossati R et al. 1998)

Grade of recommendation
B

b. In patients with mild symptoms and slow tumor growth, as well as cases where endocrine therapy is ineffective, single-agent chemotherapy is useful.
In patients with severe symptoms and rapidly growing or aggressive tumors (i.e. where there is a strong pressure to achieve remission), combination chemotherapy should be administered.

Level of evidence
1a

(Cochrane: Carrick S et al. 2005; Fossati R et al. 1998)

The following substances, for example, may be used for single-agent chemotherapy: Anthracyclines (including those in liposomal form), alkylating agents, anthraquinones, taxanes, vinorelbine fluoropyrimidine, platinum complexes and halichondrin. In combination chemotherapy, these cytotoxic agents can be combined with each other or with other substances. The highest remission rates are achieved with a taxane in combination with an anthracycline or antimetabolite.
Patients should be checked to see whether they are eligible for inclusion in studies.

GCP

(Cochrane: Carrick S et al. 2005; Fossati R et al. 1998)

Grade of recommendation
B

After the benefits of anthracycline and taxane treatments have been exhausted, patients should not be denied further chemotherapies, e.g., to stabilize the disease or alleviate symptoms.

Level of evidence
2b

(Feher O et al. 2002; NBOCC2010; Vogel C et al. 1999)

Grade of recommendation
A

Dose-intensified and high-dose therapies do not exhibit any improvement in survival and should therefore not be used.

Level of evidence
1b

(Cochrane: Farquhar C et al. 2005; Stadtmauer EA et al. 2000)

The histology of the suspected metastatic lesion should be determined in advance of any therapy, if possible, to reassess the benign or malignant nature of the tumor and, where applicable, the hormone receptor and HER2 status.

GCP

(NICE 2009)

a. Treatment with HER-2 inhibitors is indicated in patients with HER-2-overexpressing tumors in combination with chemotherapy, or after remission induction as single-agent therapy, or after previous treatment with taxanes or anthracyclines with a non-cross-resistant chemotherapeutic agent.

GCP

(Burstein HJ et al. 2001; NBOCC2010; Seidman AD et al. 2001; Slamon DJ et al. 2001)

b. Any secondary therapy following progression during trastuzumab therapy should continue to include anti-HER2-directed therapy.

Level of evidence
2b

(NBOCC2010)

It is essential to monitor cardiac function before and during therapy with potentially cardiotoxic substances.

GCP

In patients with metastatic breast cancer receiving paclitaxel or capecitabine as first-line cytostatic therapy, bevacizumab can be administered additionally to improve the therapeutic outcome.

GCP

(NBOCC2010; Robert NJ et al. 2011)

Grade of recommendation
A

Radiotherapy should be used for local therapy in patients with symptomatic bone metastases, or those posing a risk of fracture. The following constitute indications for radiotherapy:

• local pain symptoms

• risk to stability (if necessary in combination with surgical stabilization)

• impairment of mobility and/or function, in particular neurological symptoms (spinal cord compression is an emergency)

• pathological fractures that cannot be surgically treated

• postoperatively following the surgical treatment of bone metastases if R0 resection was not possible

Level of evidence
1a

(Hoskin PJ et al. 2001; NICE 2009; Roos DE et al. 2000; Steenland E et al. 1999)

Surgical therapy of skeletal metastases is undertaken for pain management and to restore or preserve function and stability, as well as quality of life. The decision to operate is made on the basis of the urgency and the therapeutic objective of this surgery, where necessary by an interdisciplinary team including the surgeon (general surgeon, orthopedic surgeon or neurosurgeon), radiation oncologist, medical specialist with oncological expertise, and pain therapist.

GCP

(Ali SM et al. 2003; Wunder JS et al. 2003)

The following constitute indications for surgical therapy:

• pathological fractures (especially in the lower extremities and the acetabulum)

• unstable pathological vertebral fractures

• progressive spinal or radicular compression (the option of radiotherapy should be considered)

• impending fractures of the lower extremities

GCP

(Ali SM et al. 2003; Brown JE et al. 2003; Clohisy DR 2003; Fourney DE et al. 2003; Kelly CM et al. 2003; Koizumi M et al. 2003; Walker MP et al. 2003; Wunder JS et al. 2003)

The following constitute indications for bisphosphonate therapy: hypercalcemia, bone pain related to metastases, osteolytic metastases, and manifest osteoporosis induced by cancer therapy. Alternatively, RANK ligand inhibitor therapy can also be used.

GCP

(Conte PF et al. 1996; Hortobagyi GN et al. 1998; NICE 2009; OʼRourke N et al. 1995; Rosen LS et al. 2001; Stopeck AT et al. 2010; Theriault RL et al. 1999)

Grade of recommendation
0

An isolated brain metastasis can be treated by surgery, by single-session stereotactic irradiation (RS), or by fractionated radiotherapy (SFRT), especially if the extracerebral disease is under control.

Level of evidence
2a

(NICE 2009)

Grade of recommendation
A

In patients with multiple brain metastases, percutaneous irradiation of the entire cranium (whole brain radiotherapy), supported by steroid medication in patients with perifocal edema, is indicated for the control of existing neurological symptoms.

Level of evidence
2a

(Cochrane: Hart MG et al. 2004; Kondziolka D et al. 1999)

In individual cases that satisfy the following criteria, local therapy may be indicated for patients with visceral metastases (liver, lungs or other organs):

• no disseminated metastases

• metastases in only one lobe of the lungs or liver; if both lobes are affected, surgery is not indicated

• the metastasis did not occur during the first year after primary treatment.

GCP

(Bathe OF et al. 1999; Vogl TJ et al. 1999)

In cases where pleural carcinosis occurs with symptomatic effusion, pleurodesis may be indicated.

GCP

(Cardillo G et al. 2002)

a. Psycho-oncological measures are an integral part of the overall strategy of cancer therapy.

Level of evidence
1b

(Cochrane: Edwards AG et al. 2004; NICE 2009b; Sheard T et al. 1999)

Grade of recommendation
A

b. All patients and their relatives should be informed at an early stage of the possibilities of psycho-oncological assistance.

Level of evidence
1b

(NICE 2009b)

Grade of recommendation
A

The following psycho-oncological interventions should be offered, tailored to the patientsʼ individual requirement:

• relaxation techniques

• psychoeducative interventions

• individual psychotherapeutic interventions

• group psychotherapeutic interventions

• couple psychotherapeutic interventions

Level of evidence
1a

(Faller H et al. Metaanalysis in press)

To ensure the continuity of psycho-oncological care after inpatient treatment, the patient should be informed about continuing outpatient and aftercare options from professional helpers and self-help groups.

GCP

(NICE 2009a)

Grade of recommendation
B

The patientʼs quality of life should be assessed regularly in the course of the disease.

Level of evidence
2a

(Lemieux J et al. 2011; Velikova G et al. 1999; Velikova G et al. 2004)

Grade of recommendation
A

The patient should be made aware of the need for physical activity during chemotherapy and radiotherapy, as this can have a positive effect on patientsʼ physical fitness and thus help them to carry out activities of daily living (ADL).

Level of evidence
1a

(Cochrane: Markes M et al. 2006)

The tumor and its treatment by surgery, radiotherapy and systemic therapy can cause sequelae of varying degrees of severity that require targeted somatic and psychosocial rehabilitation measures. Patients should be informed at an early stage about the options for outpatient and inpatient rehabilitation measures and about additional claims arising under German social law. The patientʼs preferences should be taken into consideration when establishing the need for, and recommending, a particular type of rehabilitation.

GCP

(DRV Bund 2009)

Strength training, alone or in combination with endurance training, in the rehabilitation phase is a suitable way of improving the state of health and quality of life.

Level of evidence
1a

(Cheema B et al. 2008)

Movement programs are suitable for reducing fatigue (tiredness) due to cancer.

Level of evidence
1a

(Cochrane: Cramp F et al. 2008)

Grade of recommendation
A

Postoperative physiotherapy to mobilize the shoulder joint should start at an early stage.

Level of evidence
1a

(Chan DN et al. 2010; Cochrane: McNeely ML et al. 2010)

In patients with lymphedema, combined physiotherapy (skin care, manual lymph drainage, movement therapy, and compression bandages) is a suitable treatment method.

GCP

(Devoogdt N et al. 2010)

Follow-up care for breast cancer begins when locoregional primary treatment is completed. It consists of history-
taking, a physical examination, medical advice, support and continuing care, as well as diagnostic imaging procedures to detect locoregional recurrences.
In the event of abnormal findings, follow-up care should be designed so as to be symptom-oriented.

GCP

(Cochrane: Rojas MP et al. 2005; Grunfeld E et al. 2005; Gulliford T et al. 1997; Hurria A et al. 2003; Khatcheressian JL et al. 2006; NBOCC2010; Palli D et al. 1999; Pestalozzi BC et al. 2005; Rosselli DT et al. 1994)

As part of her follow-up care, the breast cancer patient requires intensive interdisciplinary support and continuing care. Oncology specialists and also other healthcare professionals such as psycho-oncologists, physiotherapists, oncological nursing staff, breast care nurses, etc., should be involved as needed. The patient should be given information appropriate to her individual needs about the options for further treatment and support.

GCP

(NBOCC2010; Selby P et al. 1996)

In asymptomatic women who have undergone breast-conserving therapy, regular instrumental diagnostic procedures (mammography and ultrasonography) in the area of the ipsilateral breast are indispensable.

GCP

(Grunfeld E et al. 2002; Khatcheressian JL et al. 2006; Loprinzi CL2004)

All patients should undergo annual follow-up mammograms (where necessary supplemented by ultrasonography) of the contralateral breast.

GCP

(Geller BM et al. 2003; Johnson RC et al. 2000; Jubelirer SJ 1998; Kollias J et al. 2000)

Grade of recommendation
A

Intensified instrumental and technical laboratory diagnostic procedures, including chest X-ray, bone scan, CT, PET or MRI, as well as blood counts, serum biochemistry or tumor marker determination, are used for the diagnostic workup of metastases and not for standard follow-up care, and are only indicated in the event of clinical abnormalities.

Level of evidence
1a

(Aguiar-Bujanda D et al. 2004; Bornhak S et al. 2007; Cochrane: Rojas MP et al. 2000; Cochrane: Rojas MP et al. 2005; GIVIO Investigators 1994; Hayes DF 2007; NBOCC2010)

Grade of recommendation
A

All patients who have undergone axillary lymphadenectomy must be briefed about the options for detection, prophylaxis and treatment of postoperative lymphedema.

Level of evidence
1b

(Armer J et al. 2004; Bani HA et al. 2007; Francis WP et al. 2006; Golshan M et al. 2003; Hamner JB et al. 2007; Harris SR et al. 2001; Hayes S et al. 2005; Moseley AL et al. 2007; NICE 2009; Sanjuan A et al. 2005; Torrenga H et al. 2004)

Follow-up visits should be scheduled four times a year during the first three years after local primary therapy, twice a year during the fourth and fifth years, and annually from the sixth year onwards. These visits should incorporate screening for early detection.

GCP

(Khatcheressian JL et al. 2006)

Patients should be encouraged to undertake physical activity (> 2–3 hours/week) and to normalize their bodyweight (if they have an increased BMI) as part of their follow-up care. Assistance should be provided.

GCP

(Grunfeld E et al. 2005; Hauner D. et al. 2011; Voskuil DW et al. 2010)

An essential part of follow-up care is the constant motivation of the patient to regularly take the medications prescribed for adjuvant therapy, particularly endocrine therapy (e.g., tamoxifen or aromatase inhibitors).
The patient should be questioned in detail about tolerability and/or side effects. Appropriate measures must be used to treat the symptoms.

GCP

Palliative medical measures are part of the overall strategy of oncological care.

GCP

The patient and her relatives should be informed about the possibilities of palliative medical measures and care structures.

GCP

All patients should be asked whether they employ complementary and/or alternative therapies. Patients who use such procedures should be briefed about the possible risks and, where applicable, about interactions with standard treatments.

GCP

The diagnostic measures based on scientifically unproven concepts and/or incorrect interpretations of the relationships between the different functions of the body that are offered in conjunction with complementary and alternative treatment strategies should not be recommended.

GCP

During chemotherapy, hormone therapy, or radiotherapy, food supplements such as vitamins and trace elements should be supplied, where possible, through the natural diet and according to physiological requirements.

GCP

(S3 Leitlinie Magenkarzinom 2011)

Mistletoe therapy does not prolong the survival of patients with breast cancer and an improvement in the quality of life is doubtful on the basis of current data.

Level of evidence
1a

(Cochrane: Horneber MA et al. 2008)

Alternative treatment procedures should not be recommended to patients. In a sympathetic counseling situation, the patient should be informed about the harm and benefit of this treatment in a value-neutral, competent and comprehensive way.

GCP

Findings, treatments, both primary and during the course of the disease, and relevant outcome events should be documented by hospitals, office-based physicians, and institutes responsible for care, used as needed at any time, and analyzed regularly.

GCP