Anatomic reconstruction of the nasal tip cartilages in secondary and reconstructive rhinoplasty

Most techniques for secondary rhinoplasty assume that useful residual remnants of the tip cartilages remain, but frequently the alar cartilages are missing--unilaterally, bilaterally, completely, or incompletely--with loss of the lateral crura, middle crura, and parts of the medial crura. In such severe cases, excision of scar tissue and the residual alar remnants and their replacement with nonanatomic tip grafts have been recommended. Multiple solid, bruised, or crushed cartilage fragments are positioned in a closed pocket or solid shield-shaped grafts are fixed with sutures during an open rhinoplasty. These onlay filler grafts only increase tip projection and definition. Associated tip abnormalities (alar rim notching, columellar retraction, nostril distortion) are not addressed. Problems with graft visibility, an unnatural appearance, or malposition have been noted. Fortunately, techniques useful in reconstructive rhinoplasty can be applied to severe cosmetic secondary deformities. Anatomic cartilage replacements similar in shape, bulk, and position to normal alar cartilages can be fashioned from septal, ear, and rib cartilage, fixed to the residual medial crura and/or a columellar strut, and bent backward to restore the normal skeletal framework of the tip. During an open rhinoplasty, a fabricated and rigid framework is designed to replace the missing medial, middle, or lateral crus of one or both alar cartilages. The entire alar tripod is recreated. These anatomic alar cartilage reconstructive grafts create tip definition and projection, fill the lobule and restore the expected lateral convexity, position the columella and establish columellar length, secure and position the alar rim, and brace the external valve against collapse, support the vestibular lining, and restore a nostril shape. The anatomic form and function of the nasal tip is restored. This technique is recommended when alar cartilages are significantly destroyed or absent in secondary or reconstructive rhinoplasty and the alar remnants are insufficient for repair. Anatomically designed alar cartilage replacements allow an aesthetically structured skeleton to contour the overlying skin envelope. Problems with displacement are minimized by graft fixation. Graft visibility is used to the surgeon's advantage. A rigidly supported framework with a nasal shape can mold a covering forehead flap or the scarred tip skin of a secondary rhinoplasty and create a result that may approach normal. Anatomic alar cartilage reconstructions were used in eight reconstructive and eight secondary rhinoplasties in the last 5 years. Their use in the repair of postrhinoplasty deformities is emphasized.     

The hanging ala

The relationship of the alar rim to the columella can be altered during rhinoplasty. This may be especially true when a long nose has been shortened. In thin-skinned individuals, elevation of the ala may be accomplished by resection of the caudal aspect of the lateral crus without trimming the lining. In thick-skinned individuals, elevation of the ala may be accomplished by resection of the nasal lining at the cephalad border of the alar cartilage.     

A rotational method of bilateral cleft lip nose repair

Repairs of the bilateral cleft lip nasal deformity have focused on lengthening the lower columella by adding lip, nasal structure, or a piece of ear. In these methods, the raised true columella worsens the dorsal dislocation of the lateral crura of the alar cartilages and the lateral and dorsal displacement of the alar domes. We believe that lengthening the upper columella from above is more anatomic and reasonable than lengthening the lower columella. A method for reconstructing the upper columella by medial and ventral rotation of the dislocated alar domes is described. Figi's "flying bird" incision was extended to the columellar base along the nostril margin. Through this incision, the lower one-third of the nose, including the alae and nostril floors, was undermined widely. The inner layers, the nostrils, were freed from the surrounding tissues, except in the region of the columella and the septum, and rotated medially in the opposite direction of Cronin's technique. The resulting nasal shape, involving the columellar length and the concavity between the nasal tip and lateral ala, improved in 11 patients.     

Nasal tip sutures part II: the interplays

The achievement of consistently superior results in rhinoplasty is rendered difficult in part by a number of complex interplays between the anatomical structures of the nose and the techniques used for their alteration, such as tip sutures. The effects of sutures depend largely on the magnitude of suture tightening, the intrinsic forces on the cartilages, cartilage thickness, and the degree of soft-tissue undermining. The tip complex is perhaps the most intricate of the nasal structures, exhibiting subtle but evident responses to manipulations of the lower lateral cartilages. The three-dimensional effects of nine suture techniques that are frequently used in nasal tip surgical procedures are discussed and illustrated. (1) The medial crura suture approximates the medial crura and strengthens the support of the tip. The suture also has effects that are less conspicuous immediately. There is slight narrowing of the columella, caudal protrusion of the lobule, and minimal caudal rotation of the lateral crura. (2) The middle crura suture approximates the most anterior portion of the medial crura. There is greater strengthening of the tip and some approximation of the domes with this suture. (3) The interdomal suture approximates the domes and can equalize asymmetric domes. However, the entire tip may shift to the short side if there is a significant difference in the heights of the domes because of short lateral and medial crura. (4) Transdomal sutures narrow the domal arch while pulling the lateral crura medially. The net results are increased tip projection, alar rim concavity, and the potential need for an alar rim graft. In addition, depending on suture position, cephalic or caudal rotation of the lateral crura may be observed. (5) The lateral crura suture increases the concavity of the lateral crura, reduces the interdomal distance, and may retract the alar rims. Perhaps the most significant inadvertent results of this suture are caudal rotation of the tip and elongation of the nose. This is important because patients who undergo rhinoplasty would often benefit from cephalic, rather than caudal, rotation of the tip. (6) The medial crura-septal suture not only increases tip projection but also rotates the tip cephalically and retracts the columella. (7) The tip rotation suture shifts the tip cephalad while retracting the columella. (8) The medial crura footplate suture approximates the footplates, narrows the columella base, and improves undesirable nostril shape. (9) The lateral crura convexity control suture alters the degree of convexity of the lateral crura. The nuances of these sutures and their multiplanar effects on the nasal tip are discussed.     

Alar rim deformities

Alar disharmony is one of the most common abnormalities observed after a rhinoplasty. This article describes three classes in addition to Gunter's classifications of alar/columella deformities, which include concave ala, convex ala caused by convex lateral crus, and convex ala caused by thick alar tissues. These deformities are best visualized from the basilar view. The different surgical techniques for correction of true alar abnormalities are presented. The alar convexity, when it is the result of a misshapen cartilage, is corrected using a lateral crura spanning suture, posterior transection of the lateral crura, or transdomal suture. A thick ala, resulting in convexity, can be thinned through either a direct incision on the ala or an incision in the alar base. A lateral crura strut, an onlay graft, or a rim graft eliminates the concavity. For a slight retraction, an alar rim cartilage graft is an optimal choice. For significant alar retractions, the author's preferred technique is an internal V-to-Y advancement, which is described in detail. An elliptical excision of the alar lining will effectively correct the hanging ala. These techniques have been used to correct alar disharmonies on 58 patients. One patient from the V-Y advancement group exhibited a small area of alar necrosis, and two early patients demonstrated an overcorrection; all were easily resolved with revision surgery. By carefully identifying nasal base and alar abnormalities, harmony can be established to correct an undesirable appearance.     

Congenital isolated absence of the nasal columella: reconstruction with an internal nasal vestibular skin flap and bilateral labial mucosa flaps

Congenital aplasia of the nasal columella is a very rare anomaly. The deformity is characterized by the isolated absence of the columella from the nasal tip to the root of the philtrum, including the medial crura of the alar cartilages; surrounding structures such as the septum, nose, and upper lip are normal. To the best of our knowledge, only four such cases have been described to date. The embryopathogenesis for this uncommon disease is presently unknown. Our report describes a 14-year-old girl with congenital agenesis of the columella as an isolated anomaly. Her family history was positive for the presence of the same congenital deformity, which also affected her older brother; there was, however, no consanguinity between the parents. The columella defect was reconstructed with an internal nasal vestibular skin flap and bilateral upper labial mucosa flaps. There are many techniques available to repair columella defects, including free grafts from the ear, local flaps from the forehead, face, upper lip, and nose, distant flaps such as tube pedicle flaps, and free flaps from the ear. Each of these techniques has advantages and disadvantages. Because of this, the treatment of columella defects should be individualized.     

Management of the droopy tip: a comparison of three alar cartilage-modifying techniques

The droopy tip is a common nasal deformity in which the tip is inferiorly rotated. Five hundred consecutive rhinoplasty cases were studied to assess the incidence and causes of the droopy tip deformity and to evaluate the role of three alar cartilage-modifying techniques--lateral crural steal, lateral crural overlay, and tongue in groove--in correcting such a deformity. The external rhinoplasty approach was used in all cases. Only one of the three alar cartilage-modifying techniques was used in each case, and the degree of tip rotation and projection was measured both preoperatively and postoperatively. The incidence of droopy tip was 72 percent, and the use of an alar cartilage-modifying technique was required in 85 percent of these cases to achieve the desired degree of rotation. The main causes of droopy tip included inferiorly oriented alar cartilages (85 percent), overdeveloped scrolls of upper lateral cartilages (73 percent), high anterior septal angle (65 percent), and thick skin of the nasal lobule (56 percent). The lateral crural steal technique increased nasal tip rotation and projection, the lateral crural overlay technique increased tip rotation and decreased tip projection, and the tongue-in-groove technique increased tip rotation without significantly changing the amount of projection. The lateral crural overlay technique resulted in the highest degrees of rotation, followed by the lateral crural steal and finally the tongue-in-groove technique. According to these results, the lateral crural steal technique is best indicated in cases with droopy underprojected nasal tip, the lateral crural overlay technique in cases of droopy overprojected nasal tip, and the tongue-in-groove technique in cases where the droopy nasal tip is associated with an adequate amount of projection.     

Caudal nasal deviation

Caudal nasal deviation, manifested by a "crooked tip," asymmetric nostrils, and a deviated columella, is one of the most challenging deformities encountered in rhinoplasty. This entity is often ignored by rhinoplasty surgeons, on the basis of the assumption that correction of other segments of the deviated nose will improve the caudal nose. Failure to correct this imperfection (or, occasionally, deformity) invariably produces suboptimal results. The nasal structures involved in caudal nasal deviation, namely, the septum, the lower lateral cartilages, and the anterior nasal spine, must be evaluated for identification of the anatomical blocks that have a causative role in caudal nasal deviation. The specific structures with abnormalities related to this deformity are discussed, as are techniques for the correction of the deformities. These techniques significantly augment the surgeon's repertoire of methods for addressing the subtleties of caudal nasal deviation correction and achieving predictable results.     

Alar rim raising.

The relationship of the alar rim to columella visibility and nostril proportion is crucial to a good aesthetic result. The alar rim has been a neglected part of the nose in primary and secondary rhinoplasty procedures for want of a natural contouring operation. Results of directly excising the alar rim and its indications are presented with adequate follow-up. Indications for the procedure include (1) recontouring of the cleft lip nose with anterior webbing, (2) equalizing asymmetrical nostrils, (3) enlarging small nostrils, (4) correcting a hanging (sigmoid) ala, and (5) converting round to oval nostrils.     

Asymmetric incision for open rhinoplasty in cleft lip nasal deformity.

One of the problems in the correction of the unilateral cleft lip nasal deformity is the alar web deformity on the mediosuperior side of the nostril. A number of methods for the correction of the alar web deformity have been introduced, but no single procedure has been identified as the standard. In this report, the incision line of the open rhinoplasty was modified and the alar web deformity was corrected by using an incision and closure. Open rhinoplasty with the asymmetric incision was performed on 18 patients with unilateral cleft lip nasal deformity. The incision line used in the normal side was the usual intranasal rim incision line and that used for the columella was the transcolumella incision line. For the cleft side, an intranasal rim incision line was plotted after the rim was lifted upward with forceps to achieve symmetry of the nasal tip. After removal of the forceps, the incision line of the cleft side was displaced outside the nostril. After such an incision, the alar cartilage mobilization and suspension were performed with or without the conchal cartilage graft. All patients used nasal retainers for 6 months after the procedures. So far, satisfactory results have been obtained with the modification of the incision line for open rhinoplasty. This method is unique in designing the incision line, and its procedure is rather simple. The postoperative follow-up period has been 12 to 26 months. A long-term follow-up is still needed, especially in growing children.     

Primary correction of the unilateral cleft nasal deformity

An 18-year experience with the management of the unilateral cleft nasal deformity in 1200 patients is presented. A primary cleft nasal correction was performed at the time of lip repair in infancy; a secondary rhinoplasty was done in adolescence after nasal growth was complete. The technical details of the authors' primary cleft nasal correction are described. Exposure was obtained through the incisions of the rotation-advancement design. The cartilaginous framework was widely undermined from the skin envelope. The nasal lining was released from the piriform aperture, and a new maxillary platform was created on the cleft side by rotating a "muscular roll" underneath the cleft nasal ala. The alar web was then managed by using a mattress suture running from the web cartilage to the facial musculature. In 60 percent of cases, these maneuvers were sufficient to produce symmetrical dome projection and nostril symmetry. In the other 40 percent, characterized by more severe hypoplasia of the cleft lower lateral cartilage, an inverted U infracartilaginous incision and an alar dome supporting suture (Tajima) to the contralateral upper cartilage were used. Residual dorsal hooding of the lower lateral cartilage was most effectively managed with this suture. This primary approach to the cleft nasal deformity permits more balanced growth and development of the ala and domal complex. Some of the psychological trauma of the early school years may be avoided. Also, because of the early repositioning of the cleft nasal cartilages, the deformity addressed at the time of the adult rhinoplasty is less severe and more amenable to an optimal final result.     

The Goldman tip in secondary rhinoplasty

The ingenious division and suture of the mesial crura of the lower lateral cartilages devised by Goldman has found little utilization in recent years, even by surgeons familiar and experienced with this procedure. However, in secondary rhinoplasty, many of the disadvantages inherent in the Goldman tip can be turned to the surgeon's advantage and used to correct nasal tip defects which might otherwise prove refractory to treatment. Cartilage deficit, tip asymmetry, unacceptable bifidity, excessive tip elevation, hanging columella, and insufficient bulk are readily corrected with the Goldman tip and variations on its basic theme. This report covers the authors' 20-year experience with the Goldman tip, including a recent increase in the utilization of this procedure for secondary rhinoplasty.     

Extended incision in open-approach rhinoplasty for asians

The purpose of this study was to introduce an extended incision in open-approach rhinoplasty for obtaining greater satisfaction in aesthetic rhinoplasty for Asians. This incision is the same as for the usual open rhinoplasty incision, but it is extended along the caudal border of the footplates of the medial crura onto the floor of the nasal vestibule to access the footplates of the medial crura more easily. This simple extended incision enabled the authors to achieve further tip projection because the pressure of the skin flap on the tip was reduced. By approximating the lateral curves of the medial crural footplates, the width and the length of the columella were narrowed and lengthened, respectively. The columella was also advanced caudally; thus, the shape of the nostrils could also be elongated. In addition, a cartilage graft or an implant insertion for alar base augmentation could be performed through this extended incision without an additional incision. Another advantage was that in correction of caudal septal deviation, displaced septal cartilage could be repositioned by suturing to the periosteum or soft tissue around the anterior nasal spine without drilling into it through an intraoral incision. Fifty-one consecutive patients who underwent this extended open-approach rhinoplasty between August of 1999 and September of 2000 were included in this study. A total of 40 patients had an adequate follow-up time of over 6 months. Patient satisfaction and postoperative complications were recorded. The majority of the patients (35 of 40) were satisfied with the results of the procedure. Two patients had complications of nostril-scar contracture requiring close follow-up. There were no cases of implant extrusion, displacement, or infection. No patients experienced transcolumellar or extended-incision scarring. Although further studies and longer follow-up are needed to determine the value of this incision, the authors believe that the addition of the extended incision in open-approach rhinoplasty is safe and reliable for effecting better results for Asians.     

A new technique in nasal-tip reduction surgery.

This article presents a technique for the reduction of the overprojected nasal tip with a proportional reduction of the nostril-margin circumference. To achieve these reductions, a modified open rhinoplasty technique is used, which is unique in that it involves the total transection of the columella through the medial crura of the alar cartilage. The alar cartilage is raised with the flap.The technique was first developed and introduced by the senior author (R.A.S.) 25 years ago and has since been refined through the execution of several thousand rhinoplasties. The results continue to be consistent and pleasing from both the patients' and the surgeon's points of view.     

The nasal tip: anatomy and aesthetics.

New anatomic observations and expanded aesthetics are presented based on an in-depth analysis of 50 patients undergoing primary open rhinoplasty. The alar cartilages can be conceived of as three crura (medial, middle, and lateral), each composed of two segments, plus distinct intervening junction points of aesthetic importance. The classic four-dot tip aesthetics can be expanded and wrapped around the nasal lobule in a three-dimensional fashion. Three nasal tip angles are easily defined (angle of tip rotation, angle of domal definition, and angle of domal divergence) and can be created surgically.     

Radical correction of secondary nasal deformity in unilateral cleft lip patients presenting late

It is universally acknowledged that correction of a cleft lip nasal deformity continues to be a difficult problem. In developing countries, it is common for patients with cleft lip deformities to present in their early or late teens for correction of severe secondary lip and nasal deformities retained after the initial repairs were carried out in infancy or early childhood. Such patients have never had the benefit of primary nasal correction, orthodontic management, or alveolar bone grafting at an appropriate age. Along with a severe nasal deformity, they present with alveolar arch malalignments and anterior fistulae. In the study presented here, a strategy involving a complete single-stage correction of the nasal and secondary lip deformity was used.In this study, 26 patients (nine male and 17 female) ranging in age from 13 to 24 years presented for the first time between June of 1996 and December of 1999 with unilateral cleft lip nasal deformity. Eight patients had an anterior fistula (diameter, 2 to 4 mm) and 12 patients had a secondary lip deformity. An external rhinoplasty approach was used for all patients. The corrective procedures carried out in a single stage in these patients included lip revision; columellar lengthening; repair of anterior fistula; augmentation along the pyriform margin, nasal floor, and alveolus by bone grafts; submucous resection of the nasal septum; repositioning of lower lateral cartilages; fixation of the alar cartilage complex to the septum and the upper lateral cartilages; augmentation of nasal dorsum by bone graft; and alar base wedge resections. Medial and lateral nasal osteotomies were performed only if absolutely indicated. The median follow-up period was 11 months, although it ranged from 5 to 25 months. Overall results have been extremely pleasing, satisfactory, and stable.In this age group (13 years of age or older), it is not fruitful to use a technique for nasal correction that corrects only one facet of the deformity, because no result of nasal correction can be satisfactory until septal deviations and maxillary deficiencies are addressed along with any alar repositioning. The results of complete remodeling of the nasal pyramid are also stable in these patients because the patients' growth was nearly complete, and all the deformities could be corrected at the same time, leaving no active deforming vector. These results would indicate that aesthetically good results are achievable even if no primary nasal correction or orthodontic management had been previously attempted.     

Rhinoplasty: large nostril/small tip disproportion

Surgeons must recognize large nostril/small tip disproportion as a distinct challenge in rhinoplasty surgery. The critical first step is to correctly analyze the intrinsic and extrinsic factors that contribute to the deformity. The nostril axis is drawn between the nostril apices and extended in both directions. It is then subdivided into a nostril and intrinsic tip component. The ratio of nostril to tip should be 55:45; a ratio of 60:40 is acceptable. The surgical solution requires both an increase in intrinsic tip projection by lengthening the infralobular segment and a nostril reduction. The anatomical deformity consists of three components: (1) the alar cartilages are highly divergent, (2) the infralobular segment is quite short, and (3) the domal segment is flat and ill defined. The operative technique advocated by the author combines a three-stitch tip procedure, including an interdomal suture over a straight strut, plus nostril sill/alar wedge resections.     

The "levator septi nasi muscle" and its clinical significance

It is strange that all textbooks of anatomy describe the depressor septi nasi muscle singly, without an antagonist. Incidentally, in 1986, a small rod of soft tissue was found between the medial crura of the two alar cartilages during a rhinoplastic operation with the external approach technique of Anderson and Ries. From 1990 through 1995, anatomic dissections of the nasolabial region under 3.5x loupe magnification were performed on 14 Chinese formalin-preserved cadavers, one fresh Chinese cadaver, and one fresh American white female cadaver. The small soft-tissue rod was found in every one of the dissected cadavers, and it was seen to be a pair of muscles. Each one of these paired small muscles arose from the aponeurosis on the dorsum of the nose and inserted into the muscular substance of the upper lip at the base of the columella and to the anterior spine of the maxilla. Histologic examinations of these muscles stained with hematoxylin and eosin and Masson trichrome showed that they were striated muscles. According to its origin and insertion, this newly found muscle was called the "levator septi nasi." Its clinical significance in cleft lip deformity and its relations to the orbicularis oris muscle, the dermocartilaginous ligament of Pitanguy, and the nasal superficial musculoaponeurotic system of Letourneau and Daniel are all discussed.     

Dynamic rhinoplasty for the plunging nasal tip: functional unity of the inferior third of the nose

To achieve permanent results for the correction of a drooping nasal tip, it is important to understand the mechanism responsible for the caudal rotation of the tip when a person speaks or smiles. This mechanism can be considered to depend on a "functional unity" formed by three components: (1) the cartilaginous framework (alar cartilages and accessories acting as a single structure); (2) muscular motors (m. levator labii superioris alaeque nasi and depressor septi nasi); and (3) gliding areas (apertura piriformis, the valvular mechanism between the upper lateral cartilages and alar cartilages, the lax tissue of the nasal dorsum, and the membranous septum). We describe a new anatomical and functional concept responsible for the plunging of the nasal tip. When a person smiles, the functional unit is activated by a combination of two forces acting simultaneously in opposite directions that rotate the tip caudally and elevate the nasal base. The levator moves the alar base upward and the depressor pulls the tip caudally. To correct the drooping tip, the transcartilaginous incision is extended laterally, and the lateral portion of the alar arch is dissected free from the skin and the mucosa, thus exposing the accessory cartilages. The arch is then severed at the level of the accessories to allow the cephalad rotation of the domes. The muscle insertions are dissected free from the accessories and a section of the muscle and, if necessary, the accessory cartilages, is removed. From January of 1991 onward, 312 patients have had this ancillary procedure performed in addition to the basic rhinoplasty technique.