Breast Augmentation With Implant—Subfascial Placement


Introduction

The pectoral fascia is a thin layer of dense connective tissue, covering the surface of the pectoralis major muscle. It can be easily dissected along the subfascial implant insertion. The pectoral fascia helps support the breast implant, and even in slim patients a smoother transition is achieved in the breast upper pole if the fascia is firmly attached to the muscle.

Various approaches can be used to perform a subfascial breast augmentation (transaxillary, inframammary fold [IMF], periareolar, vertical, and short horizontal incisions), which makes this technique more versatile. Capsular contracture seems to be less frequent in subfascial placement compared with the subglandular pocket, probably because of a higher vascularized tissue (pectoralis major muscle).

Subfascial implant placement avoids the negative aspects of a submuscular pocket (animation deformity) and provides a shorter recovery. In this chapter the authors describe their technique on subfascial breast augmentations, including indications, operative techniques, postoperative care and expected outcomes, management of complications, and secondary procedures for revisions.

Indications and Contraindications

Any size and shape of implants can be used in subfascial breast augmentation cases and all kinds of approaches, depending on whether the procedure is only breast augmentation or mastopexy augmentation. There are no contraindications for this technique because of the maneuver of muscle coverage superomedially and fat transfer if necessary to avoid rippling in slim patients.

Patients with tuberous breasts usually present with lower pole hypoplasia and some degree of nipple–areola complex weakness and prolapse. In these cases, a subfascial pocket is created, the fascia is incised radially in lower pole, and fat can be added in this region to allow shape improvement.

Secondary mammaplasty that is primarily subglandular can be performed, removing the anterior capsule and elevating the fascia and posterior capsule to create a new pocket for the new implant. If the implants were submuscular primarily, a new subfascial pocket is created in the secondary procedure.

Preoperative Evaluations and Special Considerations

All patients can be provided a subfascial implant placement, especially thin patients. Ideal primary patients have hypomastia, no ptose, and the presence of a soft tissue envelope to cover the implant. In very slim patients with absence of soft tissue coverage, subglandular placement is difficult. In these cases, a spreader maneuver is done in the muscle fibers at the superomedial pole of the breast and in some cases fat transfer is done, as shown in Figs. 4.1; 4.2A, B; and 4.3 . It is also important to measure breast height and base to properly choose the implant volume.

Fig. 4.1, Preoperative drawing of the axillary fold incision, subcutaneous tunnel, and breast pocket for the implant. The triangle drawn contains a great concentration of lymphatic vessels.

Fig. 4.2, (A) The inframammary approach going direct to the fascia and opening it at the level of the areola. (B) The implant in the subfascial plane.

Fig. 4.3, Zig-zag skin marks.

Breast augmentation mammaplasty and breast augmentation mastopexy cases can be performed with a subfascial implant pocket.

Differences in breast sizes usually can be handled by using different implant volumes. Adding fat in the smaller breast at the end of the procedure can be helpful if similar implants are used. When concomitant mastopexy is performed, excessive tissue from a larger breast can be resected and a similar size of implants can be used.

Cases of mild to moderate tuberous breast can be managed properly with a transaxillary or inframammary breast augmentation. However, more severe cases must be treated with mastopexy techniques (e.g., periareolar breast augmentation).

Radial incisions in the fascia should be performed to smooth the fibrous ring and improve breast contour. Fat transfer to the lower pole can be done at the end of the procedure.

Slim patients are very challenging because of the absence of adequate tissue coverage. Some muscle fibers (pectoralis major muscle) can be elevated with the fascia in the superior part of the pocket to create a smoother transition in the upper pole breast. Fat grafting can be done to camouflage rippling (composite breast augmentation).

Surgical Techniques

Relevant Surgical Anatomy

The pectoral fascia is a dense connective tissue that originates from the clavicle and sternum, covers the pectoralis major muscle, and continues down with rectus abdominis fascia. It can be bluntly dissected along the subfascial plane and has some specific characteristics.

At the second rib level, the pectoral fascia tightly connects with the superficial fascia of the breast, and it is difficult to dissect the pocket. This is usually the upper undermining point, which defines breast limits.

Along the point that corresponds to the fourth intercostal space, a horizontal septum originating from pectoral fascia connects with the nipple. This septum is a guide to dissection, especially in infraareolar and periareolar mammoplasties and mastopexies cases.

The pectoral fascia is a well-defined anatomic structure made of dense and consistent connective tissue. It can be used to minimize implant edge appearance and make the breast implant less noticeable. A subfascial pocket can be used even in slim patients.

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