Isolated Congenital Nasal Bifid Septum Separated by a Wide Layer of Soft Tissue

Article information

Arch Plast Surg. 2015;42(5):640-642
Publication date (electronic) : 2015 September 15
doi : https://doi.org/10.5999/aps.2015.42.5.640
1Department of Plastic Reconstructive and Aesthetic Surgery, Necmettin Erbakan University School of Medicine, Konya, Turkey.
2Department of Ear, Nose and Throat, Necmettin Erbakan University, Konya, Turkey.
Correspondence: Zeynep Karacor-Altuntas. Department of Plastic Reconstructive and Aesthetic Surgery, Necmettin Erbakan University School of Medicine, 42080 Meram, Konya, Turkey. Tel: +90-332-223-60-00-7033, Fax: +90-332-323-61-81, zeynepkaracor@yahoo.com
Received 2015 April 03; Revised 2015 June 30; Accepted 2015 July 14.

Congenital nasal anomalies are rare, with an incidence of 1%-4%. These anomalies range from simple pathology, such as septal deviation or asymmetry of the nostrils, to severe problems accompanied by different craniofacial anomalies [1]. Here, we report the case of a 19-year-old boy with an aesthetic problem of the nose. His physical examination revealed a depression on the supratip area of his nose. During open rhinoplasty, the cause of this depression was found to be congenital bifid septum separated by a wide layer of soft tissue. We have reported this interesting case because the condition had not been diagnosed until the age of 19 years, and even then, it was diagnosed incidentally during surgery. Further, we applied specific junctional surgery to this nasal bifid septum.

A 19-year-old male patient underwent an aesthetic operation on his nose due to a cosmetic problem. He had no complaints of any other systemic disease or malformation. His physical examination revealed a wide depression in the supratip area of his nose and a small fistula in the middle of his columella (Fig. 1). The patient underwent open rhinoplasty. A columellar incision was made in accordance with the fistula line. Upon exploration, we observed that the fistula was a blind fistula ending at the base of the septum. The fıstula was completely excised between the lower cartilages, and both the lower lateral cartilages were explored. During surgical exploration, the nasal septum was found to be a single unit along 1/4 of the posterior segment, while it was divided by a wide layer of fibroadipose soft tissue along 3/4 of the anterior segment (Fig. 2). We removed the intervening fibroadipose soft tissue, corrected both anterior septal deviations, and joined the anterior double septum to the midline with a 4/0 monofilament synthetic absorbable suture to ensure the continuation of the posterior single septum (junctional surgery) (Fig. 3). The other parts of the nose were normal. Later, routine rhinoplasty steps were performed. The lower lateral cartilages were shaped with sutures. No osteotomy was done. After closing the nasal skin, bilateral alar wedge excision was performed. The silicone nose pads were removed on the seventh day, and no complications were observed postoperatively (Fig. 4).

Fig. 1

Wide depression on the supratip of the nose in a preoperative view.

Fig. 2

The septum was divided by a wide layer of fibroadipose soft tissue along 3/4 of the anterior segment.

Fig. 3

Anterior double septum was joined to the midline to ensure the continuation of the posterior single septum.

Fig. 4

Postoperative images.

External nose formation begins in the fourth and fifth weeks of gestation; at this time, five identifiable primordial structures including the frontonasal prominence and the right and the left maxillary prominences are identifiable. The frontonasal prominence is responsible for nasal development during the third to tenth weeks of gestation. On the lateral aspects of the frontal prominence, neural crest cells proliferate and form the nasal placodes. The nasal placodes invaginate to form the olfactory pit, which further invaginates to form the nasal processes. Forming on the outer edge of the pits are the lateral nasal processes. Those on the inner side are the medial nasal processes. The lateral rounded angles of the medial prominence are the globular processes. These processes continue posteriorly as plates called the nasal laminae. The nasal laminae fuse with the nasofrontal process in an anterior-to-posterior direction, creating the nasal septum and initially partitioning the nasal cavity into left and right divisions. The nasal septum continues to grow posteriorly and begins fusion with the palatine processes during the ninth week of gestation. Chondrification and ossification begin around the twelfth week, but ossification does not fully complete until puberty [2].

Losee et al. [3] studied 261 patients with congenital nasal anomalies, excluding cleft lip nasal deformities. From this database, a systematic morphogenic classification system was devised. All congenital nasal anomalies were classified into the following scheme: (1) Type 1, hypoplasia and atrophy (62%); (2) Type 2, hyperplasia and duplications (1%); (3) Type 3, clefts (16%); (4) Type 4, neoplasms and vascular anomalies (20%).

According to this study, hyperplasia and duplications have an incidence of 1%. In the literature, true nasal duplication or polyrhinia, where two distinct noses are present, each having two nostrils and nasal cavities, has been reported only twice. In addition, a few nostril duplications and one case of double columella associated with adermoid cyst and bifid caudal septum and resulting in two separate columellae, have been reported [34].

Our case could be classified as a Type 2 anomaly (hyperplasia and duplications) according to the classification system of Losee et al. Therefore, our case is characterized as being a very rare congenital nasal anomaly due to the entry of this class with an incidence of just 1%. Further, to the best of our knowledge, an isolated congenital bifid septum has not been reported thus far.

In fact, preoperative examination revealed the depression on the supratip area to be due to the excessive separation of the lower lateral cartilages from each other. However, upon exploration, we found that the lower lateral cartilages were in their normal location, while the reason for the depression was the congenital bifid septum separated by a wide layer of tissue.

In our opinion, the importance of this case involves the intraoperative detection of the isolated congenital nasal bifid septum, which has not been previously described, and the aesthetic repair of this congenital anomaly with a case-specific junctional surgical technique.

Notes

No potential conflict of interest relevant to this article was reported.

References

1. Hartikainen-Sorri AL, Sorri M, Vainio-Mattila J, et al. Aetiology and detection of congenital nasal deformities. Int J Pediatr Otorhinolaryngol 1983;6:83–88. 6668107.
2. Neskey D, Eloy JA, Casiano RR. Nasal, septal, and turbinate anatomy and embryology. Otolaryngol Clin North Am 2009;42:193–205. 19328886.
3. Losee JE, Kirschner RE, Whitaker LA, et al. Congenital nasal anomalies: a classification scheme. Plast Reconstr Surg 2004;113:676–689. 14758236.
4. Rawat SS, Gupta HK. Congenital double columella. Br J Plast Surg 1975;28:153–154. 1191854.

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Fig. 1

Wide depression on the supratip of the nose in a preoperative view.

Fig. 2

The septum was divided by a wide layer of fibroadipose soft tissue along 3/4 of the anterior segment.

Fig. 3

Anterior double septum was joined to the midline to ensure the continuation of the posterior single septum.

Fig. 4

Postoperative images.