Breast cancer ranks among the leading causes of female cancer-related deaths in the world. Surgical management remains the standard of care for non-invasive and localized invasive breast cancer, which may get combined with systemic endocrine therapy, chemotherapy, and/or radiation. With the publication of the National Surgical Adjuvant Breast and Bowel Project (NSABP) B-06 trial, which showed equivalent disease-free survival, distant disease-free survival and overall survival amongst women undergoing partial mastectomy with irradiation compared to radical mastectomy, breast conservation therapy (BCT) became standard of care for patients with tumors under 4 cm. These results received confirmation in multiple studies, including a 20-year follow-up of the NSABP B-06 trial, where partial mastectomy followed by breast radiation continues to be appropriate in the management for smaller invasive breast cancer tumors. Additionally, breast conservation therapy, when combined with radiation, became the standard of care for localized intraductal breast cancers (ductal carcinoma in situ: DCIS). This development occurred after the NSABP B-17 trial, where the addition of radiation significantly decreased the recurrence rate of noninvasive and invasive breast cancers. Identified advantages to breast conservation therapy include reduced operative time, diminished psychological burden when compared with mastectomy, improved cosmetic outcomes, and limited side effects. However, other studies have demonstrated no significant difference in depressive symptoms at one year post-operatively between women who underwent total mastectomy, breast conservation therapy, and breast reconstruction.
Proper staging is critical for determining the appropriate clinical treatment course and surgical planning. In 2018, the American Joint Committee on Cancer (AJCC) released the eighth edition of the Cancer Staging Manual for Breast Cancer. This staging includes the T (tumor), N (node) and M (metastases) staging, but incorporated biologic markers into the traditional staging system. Factors including estrogen receptor (ER), progesterone receptor (PR), human epidermal growth factor receptor 2 (HER2), tumor grade, and multigene assays were included to aid in determining prognosis and therapy as determined by a Clinical and Pathologic Prognostic Stage Group.
Breast conservation therapy should be a consideration when the surgeon feels that a tumor can undergo excision with clear margins with an acceptable cosmetic result. Adequate margins if there is "no ink on tumor" seen for invasive carcinomas, and 2 mm margins are the recommendation for DCIS. Lumpectomy is typically recommended for DCIS/Tis and T1-2 tumors if there are no other contraindications to adjuvant radiation. However, adjuvant radiation results in only a small improvement in locoregional recurrence, but not improved overall survival, distant disease-free survival or breast preservation in patients 70years-old or older with clinical stage I (T1N0M0), ER-positive carcinomas receiving adjuvant tamoxifen. Therefore, the omission of adjuvant radiation in these patients is reasonable.
Contemporary studies have addressed the role of breast conservation therapy following neoadjuvant chemotherapy for lesions greater than 5 cm. However, tumor size relative to breast size may be more important than exact measurements alone. Evaluation of breast size and discussion with the patient regarding postoperative expectations of her breast size are therefore critical to decide the best treatment course. Neoadjuvant chemotherapy has been shown to achieve comparable rates of disease-free survival and overall survival when compared with adjuvant therapy and may convert patients with large tumors to candidates for breast conservation therapy. In patients with locally advanced tumors who have an excellent response to neoadjuvant chemotherapy, BCT may offer a safe surgical option rather than total mastectomy.
Male patients have historically been recommended to undergo a mastectomy. While this is still the preferred surgical procedure, breast conservation therapy can be an option in patients with multiple comorbidities or those who desire to preserve their nipple-areolar complex. While male patients undergoing BCT were found to be less likely to receive standard of care therapy, breast cancer-specific survival was not affected by surgery type. However, recommendations typically include adjuvant radiation.
Following identification of a concerning lesion on imaging (calcifications or masses), core needle biopsy of the lesion is preferable over excisional biopsies for optimal surgical treatment. When performed, a small clip gets placed in the area where the biopsy was performed to confirm the concerning biopsied region as well as mark the area of concern for future surgical treatments. This clip is especially helpful for lumpectomies for non-palpable cancers or DCIS that require radiologic identification. Clip placement is crucial in patients undergoing neoadjuvant chemotherapy as localization of the tumor can become extremely difficult in patients who achieve significant clinical responses.
The most commonly used approach to this is wire-guided localization. A radiologist or operating surgeon typically performs this procedure on the same day as surgery. Under stereotactic or ultrasound guidance, a wire is inserted through the skin and terminates at the lesion or area of concern. Soft compression mammographic images are obtainable after wire localization is performed to confirm the relation of the wire to the suspected lesion for surgical planning. This wire then serves as a guide for surgical excision and gets removed with the surgical specimen.
There are disadvantages to wire-guided localization including the presence of a foreign body at the pathological assessment, wire transection, migration, patient discomfort, injury associated with wire barbs, and pneumothorax which have led to the development of alternative localization approaches. Additionally, if the operating surgeon is not performing the localization in the operating room, surgical scheduling may be more difficult as coordination with the performing radiologist is needed. Wireless localization of non-palpable lesions has, therefore, become increasingly popular. The most common wireless technologies used are markers that use radiofrequency, radar/infrared, or paramagnetic iron oxide. Radio-guided occult lesion localization involves a non-specific radio-isotope, commonly technetium-99 injected into the tumor and identified intra-operatively with a hand-held gamma probe. This technique has been deemed increasingly feasible. Other less utilized approaches include intra-operative ultrasound-guided resection, cryoprobe-assisted localization, carbon marking, methylene blue dye marking, and near-infrared fluorescence optical imaging.
Following a localization procedure, the lumpectomy is performed with the patient in the supine position with the ipsilateral arm at 90 degrees. The incision location can be planned either near or distant from the location of the lesion. Incisions may be placed within the Langer lines over the mass when possible and made large enough to avoid excess manipulation when delivering the specimen from the field. A short, curvilinear incision may be utilized for small tumors versus a radial incision for large tumors which may result in less distortion of the nipple-areolar complex. With more emphasis on cosmesis, the use of more conspicuous regions of the breast has become popular, which include periareolar, inframammary, or axillary incisions.
The incision is opened, and dissection carried down into the breast tissue. Skin flaps are raised in all directions over the mass or area of concern. Sufficient subcutaneous fat should be left in place to provide adequate blood supply to the flaps as they are elevated. Occasionally, the skin may need to be resected to obtain sufficient margins for superficial lesions or prevent ischemia. Dissection is carried down just above the identified tumor and then completed circumferentially. The tumor is excised with enough surrounding tissue to ensure that inked specimen margins are free of tumor. If needle localization is performed, identification of the thickened portion of the wire allows a better estimation of the lesion location and margins needed. Pectoral fascia and muscle are only removed if required to obtain tumor-free margins. The specimen is then oriented before removal from the surgical field with suture and/or ink. When performed, the specimen is inked on six sides, either by the operating surgeon or a pathologist. Intraoperative specimen imaging is then typically performed to confirm the location of the biopsy clip, possible marker (wire or wireless), and to ensure adequate margins if the lesion is visible. Mammogram of the specimen is common, although other modalities are also options. The cavity margins are inspected for remaining suspicious tissue. Re-excision of a suspected close margin may be performed by removing another 0.5 to 1 cm of tissue, appropriately oriented for the pathologist. Some surgeons also take "shave margins," where at least an additional 1 mm of tissue gets taken from the cavity. This practice may lower both margin positivity and re-excision rates. The cavity is then marked for guiding future radiation. Titanium clips are placed at the superior, inferior, medial, lateral and posterior margins. Three-dimensional, absorbable markers can also be utilized which may provide benefits for radiation guidance and result in overall lower tumor bed volume.
Oncoplastic techniques may be utilized to achieve adequate tissue resection and an acceptable cosmetic outcome without the need for breast reconstruction. Oncoplastic surgery is a form of breast conservation that utilizes volume replacement or tissue displacement techniques to optimize aesthetic results following partial mastectomy. With increasing popularity, several studies have examined the safety of oncoplastic surgery with evidence suggesting a decreased rate of re-excision and improved rate of negative margins, psychosocial and aesthetic benefits, and cost-effectiveness. However, patients should be carefully selected and counseled as tissue rearrangement procedures should be avoided in patients who actively smoke or have significant comorbidities that may impede wound healing or increase a patient’s risk for flap or tissue necrosis. Tissue rearrangement can be difficult in the extremely fatty breast. Patients with small breast sizes may also be at increased risk for deformity or decreased cosmetic outcomes. Overall, most studies have shown similar rates of surgical complications amongst patients who undergo oncoplastic surgery vs. standard breast conservation surgery. One single-institution study found that oncoplastic surgery resulted in fewer postoperative seromas compared to standard breast-conserving therapy but noted an increased rate of wound related-complications.
These procedures categorized as Level 1 and Level 2 procedure types. Level 1 procedures are considered when excising less than 20% of breast tissue in small to moderate-sized breasts. These procedures involve aesthetically placed incisions either at the inframammary crease, peri-areolar margin, or axilla. Following excision of the specimen, the surgeon creates dermoglandular planes using superficial and deep dissection to fill in the created tissue void; this is performed after marking the cavity for radiation. Examples of Level 1 procedures include local tissue rearrangement, crescent mastopexy, and doughnut mastopexy.
Level 2 procedures are those that require removal of 20 to 50% of breast tissue in moderate to large-sized breasts with moderate to severe ptosis. Level 2 techniques often involve the development of a pedicle with a circumvertical or wise skin incision pattern. Examples of level 2 procedures include circumvertical mastopexy design and reduction mammoplasty. Breast asymmetry has not been proven to be a significant issue as a contralateral symmetry procedure during or even after the index operation can be performed. Any procedure requiring the removal of more than 50% of breast tissue merits consideration for volume replacement reconstruction.
Regional lymph node staging is performed in conjunction with breast concerving therapy. The sentinel lymph node, the lymph node most likely to contain metastatic disease, is identified and removed via an axillary incision. Identification of the sentinel axillary lymph node is made using either a radiolabeled colloid, injection of isosulfane or methylene blue dye, or both. The use of dual tracer has shown to have higher rates of node identification and lower false-negative rates. Further need for axillary intervention is determined based on the number of positive nodes as outlined by the ACOSOG Z0011 trial. For patients with T1-T2 tumors with 1 to 2 positive sentinel lymph nodes (without gross extranodal extension) who plan to undergo whole breast radiation, no further axillary surgery is necessary.
Patients with invasive breast cancer who undergo breast conservation therapy should receive post-operative whole breast radiation as recommended by the NCCN guidelines. The purpose of radiotherapy is to eradicate any microscopic foci of remaining tumor cells in the conserved breast tissue to prevent local recurrence and distant metastasis. The addition of radiotherapy halved local recurrence rates, and there was an estimated 5% absolute reduction in breast cancer death at 15 years. However, interest in accelerated partial breast radiation, intraoperative radiation, and brachytherapy (with the placement of catheters in the resection cavity) has been increasing.
Additional adjunctive endocrine therapy is determined based on hormone receptor status, that is ER, PR, and HER-2-Neu status and is discussed elsewhere. For those patients with triple-negative expression, breast conservation therapy merits consideration, but chemotherapy is recommended. For patients with a diagnosis of ductal carcinoma in situ, considered to be a precursor for invasive carcinoma, similar considerations must be made to determine if breast conservation therapy is appropriate.
Following curative treatment of non-metastasized breast cancer with breast-conserving therapy, imaging surveillance is of utmost importance to monitor for locoregional recurrence. Bilateral mammography 6 to 12 months after completing radiation therapy followed by an annual screening mammogram and biannual breast exam is the recommended procedure. Routine use of annual contrast-enhanced MRI is generally not recommended except in high-risk patients such as those with familial/genetic risk of recurrence, dense breast tissue, and diagnosis under the age of 50. This approach should not replace annual mammography, but rather serve as an adjunct, often alternating with mammography for biannual imaging.
Interprofessional oncology teams incorporate a wide range of clinical specialists including those in surgery, medical oncology, radiation oncology, genetics, pathology, specialist cancer nurses, and oncology pharmacists to discuss the needs of patients with a confirmed cancer diagnosis. Globally, many healthcare systems address these needs at weekly interprofessional meetings. Nursing is usually responsible for any medication administration accompanying breast-conserving surgery, and the oncology pharmacist will weigh in for checking dosing and agent selection options, working in conjunction with the oncologist and other clinicians.
Retrospective studies have shown improved breast cancer survival rates when treated by an interprofessional team. Moving forward, it is essential not only to continue utilizing interprofessional team meetings but to optimize team dynamics and productivity to enhance patient-centered care and improve outcomes. [Level V]
Nursing interventions for the patient undergoing breast conservation therapy encompass the pre-operative period, immediate postoperative, and long-term monitoring and surveillance of the patient. The most important pre-operative action is to obtain arm measurements of the affected side; this provides the health care team with a baseline for lymphedema monitoring. Patients often fear lymphedema. Arm measurement is critical to providers but also reassures the patient that they receive close observation to ensure quick action if postoperative swelling does occur. This time also provides an opportunity to teach the patient a gentle range of motion exercises to prevent swelling.
Secondly, it is crucial to provide thorough education surrounding the operation. While surgeons do review the procedure and post-operative restrictions, many patients may be overwhelmed at that time. This stress may inhibit the patient, and their family, from thoroughly comprehending the information. A personal, one-on-one conversation can ensure the patient understands the operation. Reviewing the wire or wireless localization is necessary as many patients have a biopsy marker and may not understand why the area needs to be localized. The clinician should also review the purpose of sentinel lymph node biopsy should, as many patients misconstrue this, assuming cancer has spread to the lymph nodes.
In the immediate post-operative period, the nurse can address pain control. Education on the dosage of prescription and over the counter medication ensures patient safety. If a patient underwent oncoplastic surgery, she must understand that she must refrain from the use of ice on her breast for pain management as this may compromise wound healing.
During the balance of the patient’s postoperative period, education remains essential. Patients are anxious and eager about the “next step.” This patient counsel provides time to review the cadence of treatment and the role of other specialties. The clinician should also take arm measurements should beginning at three months postoperatively through 5 years to monitor for signs of lymphedema.
The nurse must monitor the patient undergoing breast conservation therapy postoperatively for possible adverse reactions, both immediate and long term.
Immediate monitoring focuses primarily on incision assessment. The nurse must watch for possible signs of infection, including warmth, erythema, fever, and purulent drainage. Also, the nurse should monitor for swelling as it may indicate a hematoma. The patient should be instructed to call the office if she develops any of these symptoms.
Long term monitoring includes assessment for signs and symptoms of lymphedema through visual observation and performing arm circumference measurements.
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