Jaime R. Garza

Endoscopically assisted "components separation" for closure of abdominal wall defects.

Learning Objectives: After studying this article, the participant should be able to: 1. Discuss the complexities related to repair of midline ventral hernias. 2. Describe the anatomic structures of the anterior abdominal wall. 3. Discuss the four objectives for successful anterior herniorrhaphy. 4. Discuss the potential advantages of endoscopically assisted components separation. The repair of ventral hernia defects of the abdominal wall challenges both general and plastic surgeons. Ventral herniation is a postoperative complication in 10 percent of abdominal surgeries; the repair of such defects has a recurrence rate as high as 50 percent. The “components separation” technique has successfully decreased the recurrence rates of ventral abdominal hernias. However, this technique has been associated with midline dehiscence and a prolonged postoperative stay at the authors’ institutions. The purpose of this study was to determine whether endoscopically assisted components separation could minimize operative damage to the vasculature of the abdominal wall and decrease postoperative wound dehiscence. The study group consisted of seven patients who underwent endoscopically assisted components separation; the control group consisted of 30 patients who underwent open components separation. The two groups were similar regarding demographic data and defect size. The endoscopic group had a higher initial success rate than the open group (100 versus 77 percent). Recurrence rates were not significantly different between the two groups. However, the endoscopically assisted components separation patients had fewer postoperative and long-term complications. In the authors’ experience, endoscopically assisted components separation has proved to be a safe and effective method for the repair of complicated and recurrent midline ventral hernias.

Relative maxillary retrusion as a natural consequence of aging: Combining skeletal and soft-tissue changes into an integrated model of midfacial aging

The contribution of maxillary retrusion to the formation of the nasolabial fold is evaluated in the present study. Clinical observation of patients from the craniofacial unit with concomitant maxillary retrusion revealed prominent signs of midfacial aging: specifically these individuals displayed a prominent nasolabial fold at an early age. This observation led to the hypothesis that relative maxillary retrusion occurs as a normal feature of the aging process. Retrusion of the lower facial skeleton below the soft tissue of the nasolabial fold causes the nasolabial fold to appear more prominent. To test this hypothesis, computed tomographic data were assembled retrospectively and included both males and females, young and old. The age range of the males (n = 14) was 18 to 24 years (young) and 43 to 57 years (old); the age range of the females (n = 14) was 15 to 30 years (young) and 43 to 57 years (old). All individuals had complete upper dentition and had no bony facial injury. Computed tomographic data were reconstructed into three-dimensional images, and a technique was developed to create a standardized lateral view which eliminated rotational variance. Analysis of anterior-posterior changes showed that there is a tendency for the lower maxillary skeleton at pyriform to become retrusive with age relative to the upper face in individuals with complete dentition. Findings were very significant for both males and females (p = 0.0001 and p = 0.002, respectively). In both groups, a slight increase in vertical maxillary dimension was noted, consistent with previous studies. It is suggested that relative maxillary retrusion is a factor in the development of the nasolabial fold. The skeletal features of normal midfacial aging can be combined with the soft-tissue features such as ptosis and atrophy into an integrated model of midfacial aging. A model such as this has significance regarding both the timing and choice of procedure used to restore the aging midface.

Variability of the midfacial muscles: Analysis of 50 hemifacial cadaver dissections

&NA; The region of the midface represents a challenging area to both reconstructive and aesthetic surgeons. An anatomic study was performed that attempted to identify patterns and variations of the muscular anatomy. The goals of this study were twofold: to identify patterns and variability of the midfacial muscles that might impact on reconstructive efforts and to attempt to correlate this anatomy with features of the overlying soft tissues, specifically the nasolabial crease. Fifty hemifacial cadaver dissections were performed. The information collected was assembled into a large data base, and statistical significance was analyzed using Fishers exact probability test. Results demonstrated that, although a great degree of variability exists with respect to the midfacial muscles, seven distinct patterns of these muscles did emerge. The most common pattern was the presence of a levator alae nasi, levator labii superioris, and zygomaticus major, which occurred in 44 percent of specimens. Specimens that possessed a risorius, zygomaticus minor, or both, were relatively uncommon. The consistent presence of the levators suggests adding a superior vector to recreate a smile in facial reanimation surgery. Two important anatomic variations were noted. A bifid zygomaticus major was found to be present in 34 percent of individuals. Because the inferior bundle had a dermocutaneous insertion, this anomaly may represent the anatomic correlate of a cheek “dimple.” A second anomaly noted was the lateral cheek crease, which appeared to be associated with a cutaneous attachment from the underlying platysma muscle. However, no correlation could be found for facial muscle pattern and the overlying nasolabial crease structure. This lack of correlation may indicate that the facial muscles alone do not dictate the structure of the nasolabial crease and that other dynamic factors are involved in determining this feature of the aging face. (Plast. Reconstr. Surg. 102: 1888, 1998.)

The Malar Septum: The Anatomic Basis of Malar Mounds and Malar Edema

The anatomy of malar mounds and malar edema is evaluated in a series of 18 fresh cadaver dissections. Dye injection, histologic evaluation, and gross anatomic dissection are used to identify a previously unrecognized fascial structure of the lower eyelid and cheek. The malar septum originates from orbital rim periosteum superiorly and inserts into cheek skin 2.5 to 3 cm inferior to the lateral canthus. This fascial structure acts as a relatively impermeable barrier that allows tissue edema and hemoglobin pigment to accumulate above its cutaneous insertion. The malar septum, which acts as both a functional and a structural barrier, defines the lower boundary of several clinical entities: malar mounds, malar edema, malar festoons, and periorbital ecchymosis. The permeability characteristics of the malar septum suggest that, at least in some persons, malar mounds may be accentuated by chronic lower eyelid edema, and these characteristics may imply a time course in the progressive development from malar edema to malar mounds and, ultimately, to malar festoons. The anatomy of the malar septum is clinically relevant because it defines the four anatomic compartments of the malar mound that should be considered during surgery: the superior compartment of suborbicularis oculi fat, orbicularis oculi muscle, and superficial cheek fat and cheek skin superior to the cutaneous insertion of the malar septum.

Double or bifid zygomaticus major muscle: Anatomy, incidence, and clinical correlation

The anatomy of the double or bifid zygomaticus major muscle is investigated in a series of 50 hemifacial cadaver dissections. The double zygomaticus major muscle represents an anatomical variation of this muscle of facial expression. This bifid muscle originates as a single structure from the zygomatic bone. As it travels anteriorly, it then divides at the sub‐zygomatic hollow into superior and inferior muscle bundles. The superior bundle inserts at the usual position above the corner of the mouth. The inferior bundle inserts into the modiolus below the corner of the mouth. The incidence of the double zygomaticus major muscle was 34% in the present study, as it was found to be present in 17 of 50 cadaver dissections. This study shows that variation in the individual morphology of the mimetic muscles can be a common finding. Clinically, the double or bifid zygomaticus major muscle may explain the formation of cheek “dimples.” The inferior bundle was observed in several specimens to have a dermal attachment along its mid‐portion, which tethers the overlying skin. When an individual with this anatomy smiles, traction on the skin may create a dimple due to this dermal tethering effect. Clin. Anat. 11:310–313, 1998.

Adult Facial Growth: Applications to Aesthetic Surgery

Background: Reshaping of the face with age is a result of volume change and loss of support. It is not well understood which tissues are involved in this process. Recent publications suggest that adult bone growth may have a significant role. Objective: We report a longitudinal cephalometric analysis of midfacial growth in adults to determine the role of bone in facial aging. Methods: The Behrents modification of the Bolton Cephalometric study in patients up to age 83 was reviewed. A trigonometric analysis targeted orbital and anterior maxillary growth. Results: Facial bone growth is shown to continue throughout adulthood. Anterior descent creates increased bone projection. Conclusions: The appearance of facial aging is caused by attrition of soft tissue volume and loss of support. The deficiency of maxillary bone projection seen in some patients, with tear trough depression and negative vector eyelid (polar bear), preexists adulthood and is unmasked with age.

Low fistula rate in palatal clefts closed with the furlow technique using decellularized dermis

Background: Despite the advances in cleft palate closure over the past 20 years, postoperative fistulas are still a significant problem. Fistula rates average 10 to 23 percent, and it has been suggested that wide clefts have a higher rate of fistula formation. Methods: In an attempt to improve closure rates, the authors placed decellularized dermal graft within the closure of 31 consecutive palatal cleft closures using the Furlow technique, with one attending surgeon. A retrospective review of this series of patients was analyzed for cleft width, Veau type, and rate of healing. Results: Average cleft width was 12.2 mm (range, 8 to 15 mm). There were one Veau type I, five Veau type II, 20 Veau type III, and six Veau type IV patients. The average age at time of palate repair was 11.75 months (range, 8 to 28 months). One patient (Veau type IV, 15-mm width) developed fistula (3.2 percent fistula rate overall). There was no evidence of rejection, scarring, or impaired palatal motion by examination. Conclusions: A low fistula rate was obtained in Furlow technique palatal cleft repairs using decellularized dermis when compared with historical controls. Decellularized dermis may provide an additional barrier to wound breakdown in the postoperative period and may improve fistula rate.

Anatomy of a 'black eye': A newly described fascial system of the lower eyelid

The anatomy of a black eye is examined in a series of cadaver dissections in which a previously unreported fascial system of the lower eyelid is identified. This fascia originates at the orbital rim, and is in continuity with the orbital septum and with the periosteum of the orbital floor and anterior maxillary wall. This fascia contributes to the thickened area along the orbital rim called the arcus marginale.

Use of double gloves to protect the surgeon from blood contact during aesthetic procedures.

The potential for blood contact with nonintact skin puts operating room personnel at an increased risk of exposure to hepatitis or HIV virus. Frank needle-stick injury to the surgeon has been shown to occur once every 20–40 operations. It has been shown that blood contact exposure during aesthetic surgery occurs in 32% of the operations in which a single pair of surgical gloves is used (surgeon 39.7%, assistant 23%). The reduction of blood contact exposure during aesthetic surgical procedures by using two pairs of gloves was tested and demonstrated. Contact rates decreased by 70%. Outer-glove perforations occurred in 25.6% of the cases, while inner-glove perforations occurred in only 10% of the cases (surgeon 8.7%, assistant 3.5%). All of the inner-glove perforations occurred during procedures that lasted longer than two hours, and in no case was there an inner-glove defect without a corresponding outer-glove perforation. The nondominant index forger (33%) was the most common location. Double gloving during aesthetic procedures reduced the operating room personnels risk of blood contact exposure by 70% when compared with single-glove use.

The anatomy of the labiomandibular fold

The anatomy of the labiomandibular fold was evaluated in a series of 12 fresh hemifacial cadaver dissections. The techniques of methylene blue dye injection, histologic evaluation, and gross dissection all confirm that the labiomandibular fold has distinct anatomic boundaries. The superior boundary is formed by the cutaneous insertion of the depressor anguli oris muscle at the labiomandibular crease. The inferior boundary is determined by the mandibular ligament, which has been previously described. The cutaneous insertion of the depressor muscle and the mandibular ligament act as relative points of fixation. The dynamic forces of both aging and facial animation act about these two points to create the typical appearance of the labiomandibular fold. This anatomy is consistent with that seen in other areas of the face such as the nasolabial and nasojugal folds, where the dermal insertion of muscle and/or fascia defines an anatomically distinct region. Clinically, this anatomy may suggest that a subcutaneous plane of dissection during the face lift procedure may allow manipulation and reduction of the fat that was noted lateral to the dermal insertion of the depressor anguli muscle. Subcutaneous dissection also avoids lateral pull on the platysma muscle, which may tend to accentuate and distort the labiomandibular crease due to its intimate association with the overlying depressor muscle.