Breast shape varies among patients, but knowing and understanding the anatomy of the breast ensures safe surgical planning (see the image below). When the breasts are carefully examined, significant asymmetries are revealed in most patients. Any preexisting asymmetries, spinal curvature, or chest wall deformities must be recognized and demonstrated to the patient, as these may be difficult to correct and can become noticeable in the postoperative period. Preoperative photographs with multiple views are obtained on all patients and maintained as part of the office record. [1, 2, 3, 4, 5, 6, 7]
The blood supply to the breast skin depends on the subdermal plexus, which is in communication with deeper underlying vessels supplying the breast parenchyma. The blood supply is derived from the following:
The internal mammary perforators (most notably the second to fifth perforators)
The thoracoacromial artery
The vessels to serratus anterior
The lateral thoracic artery
The terminal branches of the third to eighth intercostal perforators
The superomedial perforator supply from the internal mammary vessels is particularly robust and accounts for some 60% of the total breast blood supply. This rich blood supply allows for various reduction techniques, ensuring the viability of the skin flaps after surgery. 
Sensory innervation of the breast is dermatomal in nature. It is mainly derived from the anterolateral and anteromedial branches of thoracic intercostal nerves T3-T5. Supraclavicular nerves from the lower fibers of the cervical plexus also provide innervation to the upper and lateral portions of the breast. Researchers believe sensation to the nipple derives largely from the lateral cutaneous branch of T4.
The breast is made up of fatty tissue and glandular, milk-producing tissues (see the image below). The ratio of fatty tissue to glandular tissue varies among individuals. In addition, with the onset of menopause (ie, decrease in estrogen levels), the relative amount of fatty tissue increases as the glandular tissue diminishes.
The breast overlies the pectoralis major muscle as well as the uppermost portion of the rectus abdominis muscle inferomedially. The nipple should lie above the inframammary crease and is usually level with the fourth rib and just lateral to the midclavicular line. The average nipple–to–sternal notch measurement in a youthful, well-developed breast is 21-22 cm; an equilateral triangle formed between the nipples and sternal notch measures an average of 21 cm per side
The breast lies over the musculature that encases the chest wall. The muscles involved include the pectoralis major, serratus anterior, external oblique, and rectus abdominis fascia. The blood supply that provides circulation to these muscles perforates through to the breast parenchyma, thus also supplying blood to the breast. By maintaining continuity with the underlying musculature, the breast tissue remains richly perfused, thus preventing complications from arising from aesthetic or reconstructive surgery that requires the placement of a breast implant.
The pectoralis major muscle is a broad muscle that extends from its origin on the medial clavicle and lateral sternum to its insertion on the humerus. The thoracoacromial artery provides its major blood supply, while the intercostal perforators arising from the internal mammary artery provide a segmental blood supply. The medial and lateral anterior thoracic nerves provide innervation for the muscle, entering posteriorly and laterally. The action of the pectoralis major is to flex, adduct, and rotate the arm medially.
The pectoralis major is extremely important in aesthetic and reconstructive breast surgery because it provides muscle coverage for the breast implant. In reconstructive surgery, the pectoralis major muscle covers the implant, providing a decreased risk of exposure of the implant, since the skin and underlying subcutaneous tissues are often thin following mastectomy. The muscle also provides additional tissue between implant and skin, thus decreasing palpability of the implant.
Often, placement of the implant beneath the muscle causes it to be noticeable when the pectoralis is contracted. In these instances, it may be helpful to release the pectoralis muscle from its inferior and medial attachments to decrease the incidence of noticeable contractions. In addition, with inferior release of the pectoralis muscle, lower positioning of the implant can be achieved, resulting in a more aesthetically pleasing appearance.
The serratus anterior muscle is a broad muscle that runs along the anterolateral chest wall. Its origin is the outer surface of the upper borders of the first through eighth ribs, and its insertion is on the deep surface of the scapula. Its vascular supply is derived equally from the lateral thoracic artery and from branches of the thoracodorsal artery. The long thoracic nerve serves to innervate the serratus anterior, which acts to rotate the scapula, raising the point of the shoulder and drawing the scapula forward toward the body. Transection of the long thoracic nerve is carefully avoided during an axillary lymph node dissection because its loss results in “winging” as the scapula is released from the chest wall and moves upward and outward.
Because the serratus anterior underlies the lateral aspect of the breast, in aesthetic surgery, blunt elevation of the pectoralis major laterally inadvertently elevates a small portion of the serratus muscle. Often the serratus anterior must be elevated sharply to obtain a sufficient muscle layer to provide coverage of the implant.
The rectus abdominis muscle demarcates the inferior border of the breast. It is an elongated muscle that runs from its origin at the crest of the pubis and interpubic ligament to its insertion at the xiphoid process and cartilages of the fifth through seventh ribs. It acts to compress the abdomen and flex the spine. The 7th through 12th intercostal nerves provide sensation to overlying skin and innervate the muscle. Vascularity of the muscle is maintained through a network between the superior and inferior deep epigastric arteries.
When placing an implant for breast reconstruction, in attempting to achieve complete coverage with muscle, the rectus fascia must often be elevated to place the implant sufficiently caudal. This dense, thick fascia is often intimately adherent to the ribs below it. Once the fascia is elevated and released, proper positioning and expansion of the implant can proceed.