Archives of Plastic Surgery

Korean Society of Plastic and Reconstructive Surgeons (대한성형외과학회)
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Oribicularis Oris Muscle Defects in Philtral Deformities in the Repaired Cleft Lip

구순열 수술 후 인중의 변형과 구륜근 결손

  • Kim, Suk-Wha (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital) ;
  • Jeong, Yeon-Woo (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital) ;
  • Cheon, Jung-Eun (Division of Pediatric Radiology, Seoul National University Children's Hospital) ;
  • Park, Chan-Young (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital) ;
  • Oh, Myung-June (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital) ;
  • Kim, Jung-Hong (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital) ;
  • Choi, Tae-Hyun (Division of Pediatric Plastic Surgery, Seoul National University Children's Hospital)
  • 김석화 (서울대학교 어린이병원 소아성형외과) ;
  • 정연우 (서울대학교 어린이병원 소아성형외과) ;
  • 천정은 (서울대학교 어린이병원 소아영상의학과) ;
  • 박찬영 (서울대학교 어린이병원 소아성형외과) ;
  • 오명준 (서울대학교 어린이병원 소아성형외과) ;
  • 김정홍 (서울대학교 어린이병원 소아성형외과) ;
  • 최태현 (서울대학교 어린이병원 소아성형외과)
  • Received : 2009.09.28
  • Accepted : 2010.01.22
  • Published : 2010.07.10
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Abstract

Purpose: The purpose of this study is to estimate muscle defect by ultrasonography in the patients with secondary deformities of the lip. We investigated the association between the muscle defect in the repaired cleft lip and the philtral appearance not only at resting state but also maximal puckering. Methods: From December 2006 to November 2007, 52 children were evaluated after primary or secondary cheiloplasty. Digital photographs were taken both from the front and both three quarter views in repose and at maximal pucker. Video clips were also taken in repose and at maximal pucker. A panel of four, scored the philtral ridge and dimple seen on these photographs and videos by using two visual analog scales. Eminence of the philtral ridge was scored by a 5 point grading scale, from "conspicuous groove" to "normal philtral ridge" and the philtral dimple was scored by 3 point grading scale, from "no dimple" to "prominent dimple". Ultrasound images of the upper lip were made using a linear array transducer at the resting position of the lip and evaluated by a single radiologist. Results: The philtral ridge eminence scored $2.79{\pm}0.54$ and $1.40{\pm}0.53$ at resting and maximal pucker, correlating with "flat" and "conspicous groove". The philtral dimpling scored $1.44{\pm}0.53$ and $2.27{\pm}0.66$ at resting and maximal pucker, correlating with "no dimple" and "slight dimple". Ultrasound imaging showed the average muscle dehiscence to be $3.78{\pm}2.14$ mm at resting position. Correlation between the muscle defect in ultrasound imaging and philtral ridge eminence at rest was statistically significant (p<0.050), but was not significant (p=0.756) at maximal pucker using Spearman's rank correlation. Correlation between the muscle defect in ultrasound imaging and philtral dimpling was not statistically significant both at rest (p=0.920) and at maximal pucker (p=0.815) using Spearman's rank correlation. Conclusion: Quantitative assessment of the muscle defect using ultrasonography correlates with the static philtral appearance, but does not correlate with the dynamic appearance. Also, the size of the muscle defect does not show any correlation with the philtral dimpling. Our findings reveal that ultrasound imaging partially reflect static appearance of philtrum but cannot reflect dynamic appearance and suggest the need for further research to evaluate dynamic appearance.

Keywords

References

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