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eMedicine - Breast Reconstruction, Latissimus Flap : Article by

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Indications
RELEVANT ANATOMY
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Patient Education
Women's Health Center

Cancer and Tumors Center

Mastectomy Overview

Mastectomy Preparation

Breast Lumps and Pain Overview

Breast Self-Exam

Breast Cancer Overview


AUTHOR AND EDITOR INFORMATION

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Author: John YS Kim, MD, Assistant Professor, Department of Surgery, Division of Plastic Surgery, Northwestern Medical Faculty Foundation; Consulting Staff, Northwestern Plastic Surgery

John Y S Kim is a member of the following medical societies: American College of Surgeons and American Society of Plastic Surgeons

Coauthor(s): Jamal Bullocks, MD, Staff Physician, Department of Surgery, Division of Plastic Surgery, Baylor College of Medicine; Arturo Armenta, MD, Staff Physician, Department of Surgery, Division of Plastic Surgery, Baylor College of Medicine

Editors: Geoffrey L Robb, MD, Chair, Professor, Department of Plastic Surgery, University of Texas MD Anderson Cancer Center; Francisco Talavera, PharmD, PhD, Senior Pharmacy Editor, eMedicine; R Edward Newsome, MD, Associate Professor, Program Director and Chief, Department of Surgery, Section of Plastic Surgery, Tulane University Health Sciences Center; Nicolas (Nick) G Slenkovich, MD, Practice Director, Colorado Plastic Surgery Center at Swedish Medical Center; Michael J Miller, MD, FACS, Professor, Department of Surgery, Chief, Division of Plastic Surgery, Ohio State University College of Medicine

Author and Editor Disclosure

Synonyms and related keywords: breast reconstruction, lat dorsi, latissimus flap, breast cancer, breast implants, latissimus dorsi

INTRODUCTION

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Breast reconstruction after mastectomy has evolved over the last century to be an integral component in the therapy for patients with breast cancer. Breast reconstruction originally was designed to reduce postmastectomy complications and to correct chest wall deformity, but its value has been recognized to extend past this limited view of use. The goals for patients undergoing reconstruction are to correct the anatomic defect and to restore form and breast symmetry. The surgical options for breast reconstruction involve the use of endoprostheses (implants), autogenous tissue transfers, or a combination of both.

Within the last 30 years the technical emphasis has focused on the use of tissue expanders with implants, latissimus dorsi myocutaneous transfer, and the transverse rectus abdominis myocutaneous (TRAM) flap to achieve adequate breast restoration. Although all of these methods are individually sufficient for reconstruction, surgical feasibility and patient preference dictate their use.

Reconstruction with the latissimus dorsi myocutaneous flap produces a breast with ptosis and projection while maintaining the natural consistency and feel of normal tissue. This flap provides ample bulk for reconstruction due to the large surface of the muscle. In many patients, the flap can be used without the use of an implant, restoring volumes of up to 1.5 L in large patients or with the use of modified techniques (Delay, 1998). It restores the anterior chest wall with healthy tissue, particularly of benefit in patients who previously have undergone irradiation. The flap also provides trophic stimulation to the surrounding tissues without increased disease morbidity or interference with mammographic evaluation.

For excellent patient education resources, visit eMedicine's Women's Health Center and Cancer and Tumors Center. Also, see eMedicine's patient education articles Mastectomy, Breast Lumps and Pain, Breast Self-Exam, and Breast Cancer.

History of the Procedure

Iginio Tansini first used the technique of transfer of the latissimus dorsi muscle on its anterior arc of rotation in 1897. This Italian surgeon presented his novel concept for the coverage of chest wall defects that resulted from breast amputation as it was performed during this period. The latissimus dorsi muscle flap and overlying skin were rotated anteriorly about the axillary insertion. Later, in 1912, Stefano d'Este performed a version of this procedure described by Tansini for reconstruction of the mastectomy defect.

In 1936, Hutchins went into extensive detail of his use of the latissimus dorsi for prevention of lymphedema that occurred after mastectomy. He hypothesized that the ipsilateral arm and chest morbidity was due to the destruction of the axillary lymphatics and subsequent scarring that occurred after removing the pectoralis major and minor. Therefore, by re-establishing the axillary lymphatic framework imparted by these muscles with the transfer of the latissimus dorsi, he found that lymphedema could be attenuated. The latissimus dorsi was believed to be a mirror image of the pectoralis muscles, and it could serve to mimic the soft tissue defect left after removal of these structures. Hutchins described 12 successful cases in his report, in which he also noted that the latissimus dorsi transfer was useful in preventing edema while concurrently providing a healthy base for skin grafts and laying the foundation for reconstruction of the breast using transposed abdominal fat grafts.

Davis in 1949 and Darrell Campbell in 1950 made use of the flap for correction of anterior thoracic wall defects. Davis reconstructed a 30 x 14-cm defect created after resection of rib chondrosarcoma. The lesion, which extended from the midaxillary line to the sternum and spanned the fourth to seventh ribs, was covered using a fascia lata graft and an overlying pedicle graft from the anterior portion of the latissimus muscle.

Around the same time, Campbell included the use of the latissimus dorsi anterior pedicle in a description of a procedure for repair of thoracic wall lesions that were the result of surgical extirpation of locally invasive malignancy. In his procedure, he also used a fascia lata graft with latissimus dorsi, which subsequently was covered by a split-thickness skin graft. The experience of both surgeons corroborated Hutchins' findings that the latissimus dorsi anterior pedicle muscle flap was a reliable flap that provided protection and elasticity to the chest wall as well as adequate nutrition to adjacent structures.

In 1974, Brantigan published the results of 10 years of experience using the same procedure. Brantigan treated 22 patients using the Hutchins modification of the radical mastectomy and reported excellent cosmetic results vis-à-vis the typical radical mastectomy. He also demonstrated the use of this flap in covering more extensive resections involving the internal mammary lymph chain, giving the surgeon the security of having mobile tissue between the pleura and skin.

The work done in the late 1970s presaged the contemporary use of the latissimus dorsi flap for breast reconstruction. With the understanding of the vascular connections to the skin provided by the underlying muscle and the idea of a myocutaneous flap proposed by McCraw in 1977, the use of the latissimus dorsi was expanded to include the overlying skin island. William Schneider reported successful transfer of the muscle and skin combination. He found the latissimus dorsi myocutaneous flap particularly useful for restoration of breast volume, replacement of the lost subclavicular contour once provided by the pectoralis major muscle, and restoration of deficient skin following mastectomy. Olivari, in 1976, and Muhlbauer and Olbrisch, in 1977, further exploited the latissimus dorsi myocutaneous flap for breast reconstruction after mastectomy in patients with radiation damage to the skin and chest wall.

In 1977, Bostwick elaborated on the indication and strategy of postmastectomy breast reconstruction. His experience with the latissimus dorsi flap involved 52 patients over a 2-year period and included the use of the muscle flap alone, the use of the myocutaneous island flap, and permutations of both involving silicone prostheses. His technique, with minor variation from those previously described, consistently provided adequate skin coverage and replacement of the breast mound contour, resulting in increased breast symmetry and improved cosmetic result.

Since Tansini's original idea, the latissimus dorsi flap has evolved to incorporate a wide range of applications for breast and chest wall reconstruction. The most recent advances involve subtleties in procedure and planning that have improved aesthetic and functional outcomes. Even with its loss of popularity secondary to the use of the TRAM flap in recent years, the latissimus dorsi flap remains an acceptable and reliable option for breast reconstruction in the appropriate patient population.


INDICATIONS

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Patient selection

  • Thin habitus
  • Previous abdominal operations (including abdominoplasty)
  • Preferred dorsal donor site
  • Failed implant or TRAM reconstruction
  • Patients desiring future pregnancy

Adequate evaluation of candidates for breast reconstruction is dependent on many factors, including patient health, body habitus, contralateral breast size and shape, extent of mastectomy, site of mastectomy scar, and patient preference. Generally, healthy patients may be considered candidates for all reconstructive options, while those with significant comorbidities may be unable to tolerate complex autogenous transfers. The extent of the mastectomy defect, with consideration of the infraclavicular and axillary defects, also contributes to the reconstructive decision. Assessment of the quality of the remaining tissue and the amount of skin and soft tissue required to create acceptable symmetry ultimately impacts the decision of which procedure to perform.

Recently, because of the increased use of the TRAM flap, the latissimus dorsi flap often is reserved for patients in whom TRAM reconstruction is contraindicated. This subset of patients includes extremely thin patients in whom the infraumbilical soft tissues are limited and patients who previously have undergone abdominoplasty or other abdominal operations or who have abdominal scars that may entail compromise of the rectus abdominis pedicle. Relative to TRAM reconstruction, the latissimus dorsi is more resistant to the effects of impaired wound healing posed by smoking and diabetes. Additionally, latissimus dorsi reconstruction does not compromise the abdominal wall, which may be of issue in patients desiring future pregnancy.


RELEVANT ANATOMY

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The latissimus dorsi is a flat, triangular-shaped muscle located on the posterior trunk. Its inferior origin arises from the posterior aspect of the iliac crest, lumbar fascia, supraspinal ligament, and the spines of the lower 6 thoracic vertebrate and sacral vertebrate. These muscle fibers traverse the posterior thorax cephalad and receive additional fibers of origin from the lower 4 ribs and the inferior angle of the scapula. At the level of the scapula, around the lower border of the teres major muscle, the fibers begin to merge as they form the posterior wall of the axilla. The insertion of the latissimus dorsi muscle tendon is on the crest of the lesser tubercle of the humerus anterior to the insertion of the teres major muscle.

The distribution of the muscle fibers is superficial to those of the posterior trunk (serratus anterior, serratus posterior, erector spinae) inferiorly and is deep to the trapezius at the superior medial margin. The contraction of these fibers results in the extension, adduction, and medial rotation of the humerus. When contraction is compromised, the teres major and subscapularis muscles compensate these actions.

Innervation

The innervation of the latissimus dorsi muscle is through the thoracodorsal nerve, from the posterior cord of the brachial plexus. This nerve provides motor stimulus originating from the sixth through eighth cervical segments. Posterior branches of the lateral cutaneous segments of the lower intercostal nerves accomplish the sensory innervation to the skin overlying the muscle. This sensory component usually is lost due to the division of these nerves during dissection. The thoracodorsal nerve joins the thoracodorsal artery and vein 3-4 cm prior to entering the lateral edge of the muscle.

Vascular supply

The blood supply to the latissimus dorsi arises from one dominant pedicle and is supported by many segmental vessels (type V pattern of circulation). The thoracodorsal artery branches from the subscapular artery just distal to the circumflex scapular artery and enters the muscle in the posterior axilla 10-11 cm inferior to the origin of its insertion. Just proximal to the entrance of the thoracodorsal artery into the muscle, it gives one or two branches to the serratus anterior. This vascular architecture allows continued perfusion if the proximal portion of the artery is damaged through collateral connections with the lateral thoracic artery.

The segmental arterial contribution is separated into medial and lateral rows. The medial row originates from several segmental branches of the lumbar artery and supplies the muscle origin around the lumbar spine. The posterior intercostal arteries contribute 4-6 perforators to feed the inferior lateral muscle fibers. Venous drainage is accomplished by venae comitantes of their corresponding arteries.

Coverage

The standard arc of rotation of the latissimus dorsi myocutaneous flap is based on its thoracodorsal neurovascular pedicle and humeral insertion. Posteriorly, the flap can be rotated in a cephalad orientation to cover up to the parietal skull. The anterior arc of rotation extends from the middle third of the face to the upper abdomen. Both the anterior and posterior arcs can be used to cover the anterior and posterior upper extremities, respectively, and have been used for functional muscle transfer to correct elbow flexion deformity. Additionally, the standard arc can be extended 5-10 cm in all directions with the detachment of the muscle from its humeral insertion. The standard anterior arc of rotation of the muscle flap provides transfer of the latissimus dorsi for breast reconstruction.


CONTRAINDICATIONS

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  • Posterior thoracotomy
  • Implants not desired
  • Severe cardiac disease
  • Severe pulmonary disease


TREATMENT

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Preoperative details

Preoperative planning

Considerations

  • Mastectomy defect
  • Neurovascular pedicle integrity
  • Previous radiation
  • Contralateral breast size and shape
  • Posterior scar location

Planning the flap harvest and inset requires an adequate assessment of the patient's profile, particularly with respect to the anterior chest wall defect to be reconstructed. Repairing a segmental defect has significantly different ramifications than planning reconstruction after modified or radical mastectomy. A partial transfer of the latissimus dorsi muscle flap may suffice to fill a segmental defect. However, the same transfer is far from adequate for filling the subclavicular and anterior axillary loss noticed by patients who have undergone more involved procedures.

In secondary reconstruction, the existing mastectomy scar may pose challenges to planning flap inset. Compared to an oblique mastectomy scar, a vertical or horizontal scar may be difficult to conceal or may compromise projection. Proper flap placement requires attention to breast symmetry with preservation of ptosis and contour of the inferior breast pole. If the flap position is too high, which may be imposed by inset into a vertical or horizontal incision, the bulk of the muscle is out of position to accomplish this goal. Sacrifice of the inferior breast skin flap or inset into an additional incision at the projected inframammary fold and placement of the skin flap into an inferior lateral position can guarantee inferior projection.

When considering the latissimus dorsi for autogenous reconstruction, communication with the surgeon who performed the mastectomy is critical. Ligation of the neurovascular pedicle is not an uncommon complication of axillary dissection. In the preoperative assessment for delayed reconstruction, innervation can be tested indirectly by evaluation of isometric contraction of the muscle. To test muscle function, have the patient put both hands on her waist and push downward. Contraction of viable muscle is assessed by palpation of the lateral edge of the latissimus dorsi from the posterior axilla to the iliac crest and by contralateral comparison. Electrical stimulation or electromyography can be used for further evaluation of muscle function in ambiguous cases. If muscular contraction is not elicited by any of the above techniques, assume that muscle has been denervated, which results in an atrophic flap.

Posterior markings include identification of the muscle projection and, if used, isolation of the skin island. Orientation of the skin segment depends on the extent of the anterior chest defect and patient preference. Loss of the pectoralis major muscle after radical mastectomy results in significant tissue loss that leaves an undesired subclavicular space, with projection of the superior ribs through the skin. In this or similar situations, arranging the skin island in a horizontal pattern is beneficial.

Transposition of this skin island to an inferolateral location in the reconstructed breast causes most of the muscle to shift superiorly. This arrangement allows the muscle to reach the superior defect while still maintaining bulk in the inferior pole. After modified radical mastectomy in which the superior defect is less of an issue, an oblique skin island may be adequate. This orientation positions the medial portion of the skin island farther away from the pivot point so as to allow greater reach on the anterior chest.

The ultimate location of the back scar also is taken into account. Traditionally, the horizontal scar was favored because it can be camouflaged conveniently with the brassiere strap. The preoperative markings can be made with the patient wearing the brassiere to ensure proper placement. The oblique pattern results in a lower, less conspicuous scar. Oblique skin islands also can be planned to create scars along the relaxed skin tension lines of the back, which reduces the chance of hypertrophic scarring that is more common with horizontal scars.

The skin island should measure approximately 8 cm in width by 20 cm in length. Wider islands tend to be difficult to close primarily. The shape is an ellipse with a slightly wider portion at the inferomedial pole. This distribution provides the widest piece to the inferior breast for creation of the lower curvature. The superolateral end of the ellipse should begin at the posterior axillary line below the tip of the scapula. This ensures a skin island location that is anterior to the muscle flap.

Intraoperative details

Operative preparation

  • Preparation for the operation includes the standard medical clearance and assessment of anesthetic risks.
  • Once in the operating room, position the patient with pneumatic compression stockings after Foley catheterization. The preferred position is lateral decubitus because it allows exposure of both the anterior and posterior operating fields. This is useful for planning and enables room for the assistant to prepare the recipient site.
  • In cases of immediate reconstruction, the general surgery team can perform the mastectomy at the time of flap harvest. If this is not possible, then simply prepare and drape the patient in the lateral decubitus position after the mastectomy is complete.
  • Once the patient is in position, take care to ensure that the dependent points of the patient are padded to prevent pressure necrosis. The ipsilateral arm should be flexed to 90°, partially abducted, and stabilized using a Mayo stand. This configuration concurrently gives maximal exposure of the axilla and adjacent thorax. Then prepare and drape the patient to isolate an operative field that does not obscure the necessary bony landmarks for dissection.

Intraoperative details

  • The procedure then begins by incising the skin island and dissecting through the subcutaneous tissue to the muscle. Bevel this tissue away to maximize the number of vascular perforators from the muscle to the skin island.
  • Once into the subcutaneous tissue, continue this plane of dissection inferiorly to elevate the skin from the remainder of the muscle.
  • Using electrocautery, skin elevation proceeds until visualization of the muscle's inferior and medial origins at the spinous processes and posterior iliac spine.
  • In the lateral direction, identify the full vertical edge of the muscle and free it from the skin in this plane of dissection. Continue this action superiorly from the skin island at the tip of the scapula to the axilla to identify the superior origins of the muscle.

Flap elevation

  • The next step is to release and elevate the muscle flap completely from its origin. This is accomplished by identifying the plane of dissection beneath the muscle that is superficial to the deep posterior muscles of the thorax. Starting laterally, the approximate location of the origin of fibers from the lower ribs is at a position that is one-third the distance of the muscle's insertion. In this area the serratus anterior and external oblique lie deep to the muscle.
  • An avascular plane can be created with careful dissection medially. This plane continues to the inferior points of origin overlying the serratus posterior inferior muscle. Once this point has been reached, transect the inferior origin of the muscle medial to lateral through the thoracodorsal fascia. With the muscle detached, elevate it and reflect it from the thorax from inferior to superior.
  • At this point in the procedure, the medial and lateral rows of the segmental arteries that feed the muscle come into view. Clip and coagulate these perforators that arise from the lumbar and intercostal arteries to ensure hemostasis and to prevent postoperative hematoma.
  • Once the muscle is reflected completely, detach the superior border of the muscle from the tip of the scapula. In this area, the teres major, serratus anterior, and rhomboids meet with the connective tissue of the superior origin of the latissimus dorsi. Completely detach all points of origin and tether the muscle to the axilla by its insertion and neurovascular pedicle.
  • With the muscle reflected, using scissor dissection, isolate the pedicle and separate the thoracodorsal nerve. Further assess the integrity of the vascular anatomy and excise the nerve.

Flap transfer

  • The anterior chest incision now is made to prepare flap inset. Position this incision using either the old mastectomy scar or creating a fresh curvilinear incision at the inframammary fold. With the anterior skin flap elevated in the subcutaneous plane, create an axillary tunnel to connect the anterior and posterior wounds. Creating this tunnel high in the axilla with the exact amount of space needed for the flap to pass through is essential. This prevents the implant from slipping to the back and replenishes the anterior axillary defect that remains after mastectomy.
  • Bring the flap into position on the anterior chest by gently pushing it through the tunnel. Inset the transferred skin flap into its proposed position to ensure adequate reach without compromising the vascular pedicle.
  • If additional length or mobility is needed, the flap can be extended either by dividing the muscle from its point of insertion or by ligating the thoracodorsal vascular branches to the serratus anterior. Before dividing these branches to the serratus, ensuring that perfusion is occurring through the primary thoracodorsal vessel and not through retrograde flow from these branches is imperative. Intraoperatively, a Doppler flow meter can aid in assessment of flow through the thoracodorsal trunk.
  • Once a satisfactory length and position is achieved, close the back incision in 3 layers using absorbable sutures over drains.

Creation of the breast mound

  • Attention now is directed at implant placement and molding of the breast mound. The flap can be placed into the anterior breast pocket and the entire wound covered with a sterile occlusive dressing while the patient is repositioned and draped in the supine position.
  • Elicit further dissection from the lateral border of the pectoralis major to create a subpectoral pocket, which eventually will be the location for the implant. This dissection should be limited to secure a permanent space for the implant, which prevents excessive movement of the implant.
  • Position a temporary implant sizer into this newly created space to function as a template for the future permanent prosthesis. The sizer can be inflated and deflated with saline so that the proper implant size can be chosen based on comparison with the contralateral breast. Then replace the sizer with the implant of choice and bring the latissimus flap into position.
  • If the pectoralis major muscle is insufficient to cover the implant completely or is too thin to ensure stability of the implant, the implant can be placed in a subcutaneous position covered with the latissimus flap.
  • In primary reconstruction, the location of the inframammary fold easily is appreciated due to the immediacy of reconstruction, especially if the general surgery team is cognizant of its preservation. Regardless, proper alignment can be accomplished by suturing the structure into position using permanent suture. In situations in which the inframammary fold is recreated using the previously formed curvilinear incision, the skin island can be positioned in an inferolateral orientation. This allows the bulk of the muscle flap to provide ptosis and the inferior curvature of the breast.
  • When an acceptable position is attained, suture the flap to the chest wall with absorbable sutures, ensuring security of the lateral border and implant fixation. Position a suction drain at the dependent portion of the wound and tunnel to exit though the axilla. Then close the skin island in two layers.

Alternative procedures

Extended latissimus dorsi flap

Variations to this procedure are available to adapt this flap to larger reconstructive tasks. In patients in whom the volume defect is substantial, a variant of the standard flap can be used to supply an increased amount of tissue. Such reconstructive scenarios include irradiated anterior chest wall and breast with significant skin loss, large mastectomy scars, and desire for completely autogenous reconstruction. This situation may arise when planning reconstruction in robust women with small breasts, in whom an implant is not necessary to match the fullness of the contralateral breast.

In these circumstances, a fleur-de-lis skin island can be used, or simply greater amounts of adipose tissue and fascia can be included with the dissection of the standard skin island. The fleur-de-lis pattern consists of an inverted T-shaped island with 7-cm wings that increase the amount of soft tissue available for reconstruction. This pattern can be used to provide volumes up to 400 mL.

Another variation to the extended flap harvest is to excise the standard flap skin paddle with the inclusion of the parascapular and iliac subcutaneous tissue and fascia. This dissection begins superiorly to the teres major muscle and is carried inferiorly to the iliac crest. Chang et al recently reviewed an institutional experience of the extended latissimus dorsi flap. Their review revealed successful outcomes for varying volumes of reconstruction, negating the need for an additional prosthesis. However, the authors advise caution with the use of the extended flap in obese patients who are at higher risk for postoperative donor-site complications.

Small reconstructions

Conversely, correction of segmental defects does not use the entire muscle flap and may not require the use of a skin island. The posterior dissection is accomplished by harvesting the necessary muscle through a horizontal incision inferior to the scapula. Since the inframammary fold, nipple, and general breast shape are intact, these should be conserved. The anterior preparation is limited to a lateral breast incision or opening the previous breast wound. The flap then is brought into position either superficial to the pectoralis major beneath remaining breast tissue or deep to the elevated skin surrounding the defect. The former option may yield superior aesthetic results since it better prevents deformity of the superior slope of the breast.

Additionally, flap harvest can be accomplished using laparoscopic assistance. By incorporating the preexisting mastectomy scar, a feasible muscle flap can be attained without the addition of a posterior wound.

Postoperative details

  • Once the operation is complete, dress the breast with antibiotic ointment along the incisions.
  • Wrap the superior chest wall with a loosely applied dressing, placing fluffed gauze at the inferolateral breast curvature and foam tape at the upper breast pole. This dressing is used to prevent implant migration during the immediate healing period and may be changed 48 hours postoperatively.
  • The dressing then is changed each day for 2 weeks, after which the patient is encouraged to proceed with the use of a wireless brassiere.
  • The suction drains usually are kept in place until they drain less than 30 mL in a 24-hour period.
  • Physical therapy, for upper extremity strengthening and range-of-motion exercises, is begun within the first postoperative week.


COMPLICATIONS

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  • Implant contracture
  • Implant rupture
  • Hematoma
  • Seroma
  • Flap necrosis
  • Hypertrophic scarring of donor site
  • Infection

Most complications related to this procedure stem from issues related to the implant or to donor site closure. Implants alone carry the risk of displacement contracture and rupture. These risks mandate a thorough discussion with and acceptance by the patient preoperatively of the possibility of further operations to correct implant position. In addition, the patient should be warned that the implant will have to be replaced at some point in the future, since its viability is finite.

Inadequate hemostasis and postoperative drainage of chest wounds predisposes to hematoma and seroma formation. Conservative management of the drains postoperatively is best to prevent this complication. Although flap necrosis is a possible complication, actual problems with flap inset and wound healing are rare. These issues are more significant in the patient who has undergone irradiation. Lastly, as with any wound under extremes of tension, the posterior donor site may tend to form hypertrophied scars. This can be avoided by creating an oblique incision or skin island to better distribute the opposing forces on the wound.

Generally, latissimus dorsi breast reconstruction is a safe procedure with a small risk of complication. Kroll compared his experience with the latissimus dorsi to implant and TRAM reconstruction. He found that complications and reconstructive failure were considerably less using the latissimus dorsi versus expander with implant reconstruction and equal to those experienced with TRAM procedures. The safety of the procedure was demonstrated in Roy's review of 111 cases in which no life-threatening sequelae were identified.


OUTCOME AND PROGNOSIS

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Outcomes are expected to be as follows:

  • High level of patient satisfaction
  • Acceptable symmetry achieved without manipulation of the contralateral breast
  • Aesthetically excellent results with soft contour and sensitivity
  • Reconstruction that does not interfere with detection of recurrent disease

Based on the experience of many centers, breast reconstruction using the latissimus dorsi has favorable outcome with significant patient satisfaction. In a review of 170 patients who underwent latissimus dorsi reconstruction, Moore revealed that more than 90% of patients were satisfied with the results and would recommend the procedure to other patients. In the same review, physician evaluators concurred that 80% of patients had satisfactory size and shape compared to the opposite breast and 5% were found to have firm breasts. Also, of those patients who experienced disease recurrence, this method of reconstruction did not delay or mask its detection.

Delay found similar results with respect to patient satisfaction and aesthetic approval in his experience with 100 patients who underwent the procedure. Additionally, in subsequent studies, patients reported objective and subjective fine sensitivity in their reconstructed breasts, which greatly improved satisfaction.


FUTURE AND CONTROVERSIES

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Latissimus dorsi miniflap

Mastectomy is often recommended for patients who are candidates for breast conservation therapy based on tumor stage, when the tumor to breast volume ratio is too large to allow acceptable cosmetic results. The latissimus dorsi miniflap (LDMF) has been considered a technique for extending breast conservation, allowing wide local excision of large tumors with preservation of the breast envelope and nipple areola complex.

The procedure, as described above for small reconstructions, involves harvesting the latissimus dorsi muscle with or without the overlying subcutaneous tissue. This can proceed through a lateral incision used for tumor excision or axillary dissection. Alternatively, the miniflap is harvested through a short posterior horizontal incision.

Nano and Gendy have recently published their experience with the latissimus miniflap. In their series, women with large tumor-to-breast-size ratios underwent partial mastectomy with miniflap reconstruction. Quality-of-life assessment revealed high patient satisfaction regarding psychological morbidity, cosmesis, and preservation of nipple sensation. Compared to patients who had skin-sparing mastectomy and standard latissimus dorsi flap reconstruction, the patients who underwent LDMF endured fewer postoperative complications.

LDMF reconstruction is a useful adjuvant in a select group of patients with large tumor-to-breast-volume ratio, allowing breast conservation in early-stage disease. However, further oncologic evaluation is warranted to determine outcomes with this modality of treatment with respect to local control and prognosis in this group of patients.

Serratus branch transfer

Because of the relative approximation of the thoracodorsal vasculature to the nerve, the vessels may be injured in patients in whom the thoracodorsal nerve was damaged. Significant compromise of the pedicle can reduce the bulk of the proposed flap, warranting the consideration of alternative reconstruction options. Techniques have been described that achieve transfer based on retrograde blood flow through the vascular branches of the serratus anterior. Several reports of serratus branch transfer have been documented; however, this technique has been most successful for small-volume transfers or when the vascular supply has been delayed or enhanced via microsurgical augmentation. Although success has been achieved under these conditions, because of the operative modifications to preserve the collateral circulation and the delicacy of the atrophied muscle, acceptable aesthetic results may be difficult to achieve.

Sensate latissimus dorsi myocutaneous flap

Owing to the extent of dissection during mastectomy and latissimus dorsi harvest, the lateral branches of the cutaneous nerve to both the breast and latissimus dorsi skin island are sacrificed. These losses of cutaneous innervation pose a significant disadvantage with regard to achieving sensation of the reconstructed breast mound. Without sensory neurorrhaphy, spontaneous recovery of sensation in breast reconstruction with myocutaneous flaps has been reported; however, recovery was slow and incomplete.

Yano and colleagues recently presented a technique in which the lateral cutaneous branch of the of the seventh thoracic nerve is anastomosed to the lateral cutaneous branch of the fourth intercostal nerve. In their experience, there was gradual recovery of perception of touch, pain, and temperature that equaled the normal side within a year. This technique is dependent upon the preservation of the third through fifth cutaneous branches of the intercostal nerves, which may not be feasible during mastectomy secondary to tumor location or associated technical issues.


ACKNOWLEDGMENTS

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The authors and editors of eMedicine gratefully acknowledge the contributions of previous author, Saleh M Shenaq, MD†, to the development and writing of this article.


MULTIMEDIA

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Media file 1:  Latissimus dorsi breast reconstruction.
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Media file 2:  Latissimus dorsi breast reconstruction; nipple reconstruction.
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Media file 3:  Latissimus dorsi breast reconstruction.
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Media file 4:  Preoperative markings.
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Media file 5:  Latissimus dorsi breast reconstruction; flap inset.
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Media file 6:  Latissimus dorsi breast reconstruction; implant placement.
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Media file 7:  Latissimus dorsi breast reconstruction.
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REFERENCES

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Breast Reconstruction, Latissimus Flap excerpt

Article Last Updated: Sep 18, 2007