Chest and Back Reconstruction


Introduction

The structure of the chest and back serves multiple functions that are important to be aware of and maintain during reconstruction. The chest and back protect the vital heart, lungs, great vessels, and spine, and provide a pressure environment for inspiration and expiration. This structure also serves as the foundation for upper limb movement and support of the head and trunk.

Chest and back defects have various causes and each scenario requires careful thought about the etiology and possible effects of the reconstructive process. Defects may be caused by tumor resection infection, specifically, sternal wound infections, chronic empyema, and bronchopleural fistulas, osteoradionecrosis, trauma, congenital, and exposed hardware.

Preoperative Considerations

As with any surgical patient, the surgeon should complete a full history and physical exam and identify any medical comorbidities that need to be optimized prior to recon­struction. Certain comorbidities, such as end-stage renal disease and chronic obstructive pulmonary disease, have been associated with increased mortality in patients undergoing chest reconstruction. With back reconstruction, it is important to assess whether the patient is ambulatory. While indicated in both the ambulatory and the non-ambulatory patient, perforator flap reconstruction is preferred over muscle flap reconstruction in the ambulatory patient.

It is also important to understand all previous operations, as this can affect which flap options are available. If the patient has had a previous thoracotomy or axillary irradiation, the latissimus dorsi may be affected and would not be an ideal reconstructive option. Previous laparotomies may have compromised the rectus abdominis or omentum. Prior internal mammary artery harvest does not preclude a superior-based rectus abdominis flap, as there is collateral flow through the musculophrenic and lower intercostal vessels, however there may be a need to supercharge the outflow and/or inflow. In previous spine surgery, the posterior intercostal perforators may have been divided and their presence should be confirmed with Doppler prior to performing a paraspinous or latissimus dorsi flap reconstruction.

When approaching the defect, one should consider what needs to be addressed prior to definitive reconstruction. Prior irradiation may have rendered tissue rigid and scarred and led to further healing complications if not adequately debrided. Similarly, infected wounds should be precisely debrided prior to definite reconstruction. Any exposed prostheses or hardware need to be assessed and it needs to be determined whether the hardware must be removed or if it remains a critical structure to work around and properly cover. If hardware is well fixed and the infection is early, the area should be scrupulously debrided and the hardware can be salvaged. Spinal hardware infection that has been present for longer than 6 months typically requires removal, due to prolonged microbial contamination. In back wounds, any dural tears need to be identified and treated appropriately with the involvement of neurosurgery.

Imaging may be helpful, but is not essential. Chest and spine X-rays can give information on hardware and general lung condition. One should consider obtaining a CT scan if spinal hardware is present and there is concern for infection or fluid collections. In these cases, fluid collections deep to the muscle are usually an indication of deep hardware infection.

Indications

There are six main objectives of reconstruction:

  • 1.

    Debride devitalized and/or infected tissues

  • 2.

    Obliterate dead space

  • 3.

    Cover exposed prostheses, hardware, and vital structures

  • 4.

    Cover large surface area defects

  • 5.

    Buttress organ repairs

  • 6.

    Structural support.

The aims of providing structural support are to maintain shoulder function and eliminate any discomfort from resected structures. Skeletal reconstruction of the ribcage is indicated if more than four consecutive ribs are resected, or there is >5 cm of lateral chest wall resected. Otherwise, the patient may experience flail chest and severe respiratory compromise. This number can be increased to five consecutive ribs if the patient had previous radiation due to increased fibrosis of the chest wall. There are many options for skeletal reconstruction, including synthetic or biologic meshes, titanium ribs, bone grafts or vascularized osseous flaps. With sternal wounds, one should also consider sternal plating as this may reduce postoperative pain. Contraindications to sternal plating are osteoporosis, infection, extreme obesity, or significant bone loss.

Free flap reconstruction should be considered if:

  • 1.

    Prior reconstructions, ablations, or radiation have rendered regional options useless

  • 2.

    Large surface area defects are not adequately covered with regional options

  • 3.

    No locoregional flap options are available based on location:

    • Lower cervical back (large defects)

    • Lower lumbar/sacral midline (large defects)

    • Posterolateral iliac crest.

Reconstruction by Region

Anterolateral Chest

Pectoralis Major

Coverage:

  • Advancement flap – upper two-third sternum

  • Island – complete sternum

  • Clavicle

  • Axilla

  • Turnover flap – lower two-third sternum

Advancement/Island Flap

Details of pectoralis flap anatomy and dissection can be found in Chapter 34 . Briefly, the pectoralis major is accessed via the midline sternotomy wound and the muscle edge is identified by dissecting the skin approximately 1 cm ( Fig. 17.1A ). Dissection then proceeds on the undersurface of the muscle superior, to the clavicle, inferior, with elevation of the rectus abdominis fascia, and lateral, until there is enough advancement to midline ( Fig. 17.1B ). This usually extends to between the midclavicular and anterior axillary line. The thoracoacromial pedicle is encountered on the deep surface of the muscle at the junction of middle and lateral third of the clavicle. If more advancement is needed, the muscle can be released from the origin on the clavicle and the insertion on the humerus. When the pectoralis major is being used to reconstruct an area on the anterolateral chest, a similar dissection is performed with rotation into the defect. For axillary defects, an island flap can be used.

Figure 17.1, Pectoralis major advancement and island flap.

Turnover Flap

The pectoralis major muscle is exposed to the lateral extent needed for coverage. Next, the muscle and thoracoacromial pedicle are split laterally. The anterior axillary line may be preserved by splitting the muscle vertically at the lateral border of pectoralis minor and suturing the remaining lateral pectoralis major to the underlying pectoralis minor and rib periosteum or by making an L-shaped cut preserving the inferolateral pectoralis major. The undersurface of pectoralis major is then dissected free and the origin at the clavicle is divided. The internal mammary perforators pierce the muscle in the intercostal space 1.5–2 cm from the sternal border and dissection is stopped once these are encountered. The muscle can be split horizontally to interdigitate with the contralateral pectoralis major flap if needed for coverage ( Fig. 17.2 ). This is helpful for small (<5 cm) remaining inferior sternal defects.

Figure 17.2, Pectoralis major turnover with modifications.

Rectus Abdominis

Coverage:

  • Sternum up to sternal notch

  • Anterolateral chest

Details of rectus abdominis flap anatomy and dissection can be found in Chapter 37 . Briefly, the rectus abdominis muscle is dissected out via a midline abdominal incision. The deep inferior epigastric vessels and the inferior tendonous insertion to pubic symphysis are divided. The muscle is then passed either subcutaneously or transdiaphragmatically to fill the defect. As mentioned previously, this flap may still be used despite prior internal mammary harvest, but dissection should only extend up to the costal margin, which according to some reports, will only allow coverage of the inferior wound. If skin is needed, a vertical rectus abdominis myocutaneous flap can be performed which includes an ellipse of skin overlying the muscle ( Fig. 17.3 ).

Figure 17.3, Anterolateral chest defects covered by vertical rectus abdominis myocutaneous flap.

A fasciocutaneous flap, sparing the underlying rectus abdominis, is an alternative. Perforating vessels at the costal margin should be preserved. If a greater arc of rotation is needed, a cuff of rectus abdominis, including the superior epigastric vessels can be included at the costal margin.

Omentum

Coverage:

  • Sternum

  • Anterolateral chest up to root of neck

  • Axilla

Details of omentum anatomy and dissection can be found in Chapter 36 . Once the omentum is dissected free, the flap is then passed into the chest defect via either a subcutaneous tunnel, which creates a hernia, or preferably via a right transdiaphragmatic route with the liver buttressing the defect. Use of the right gastroepiploic artery provides 5–10 cm greater arc of rotation and if the pedicle needs to be lengthened, internal longitudinal dissection can be performed due to the secondary arcade (Barkow's arch) ( Fig. 17.4 ). Transdiaphragmatic harvest is also an option to avoid laparotomy for harvest.

Figure 17.4, Omentum flap.

Latissimus Dorsi

Coverage:

  • Sternum

  • Anterolateral chest

  • Axilla

Details of latissimus dorsi anatomy and dissection can be found in Chapter 41 . Briefly, the flap is raised based on the thoracodorsal vessels and a subcutaneous tunnel is created in the axilla to the chest defect. If more reach is needed, the flap can be tunneled under pectoralis major or detached from the humeral insertion to gain approximately 5–10 cm. If a larger flap is needed, the latissimus dorsi can be taken with the serratus anterior ( Fig. 17.5 ). If a smaller flap is needed, the muscle can be split by taking muscle overlying only one of the thoracodorsal branches, thus preserving the other portion. The latissimus dorsi can be completely spared by raising a thoracodorsal artery perforator flap.

Figure 17.5, Anterior chest defects covered by latissimus dorsi and serratus anterior.

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