Fan Huan scite author profile

The aim of this study was to compare the changes of diplopia and enophthalmos in patients with blowout fractures. Three hundred sixty-two patients who presented with blowout fractures between March 2006 and February 2011 were analyzed. The sequential time changes of diplopia and enophthalmos were measured in the operated group and the observed group according to (1) the duration of preoperative observation (early: within 7 days, late: 8-14 days, delayed: >15 days); (2) the defect size (minimal: <1 cm(2), small: 1.1-2.0 cm, medium: 2.1-3.0 cm(2), large: >3.0 cm(2)); and (3) the age of the patients (<20, 21-40, 41-60, >61 years).Among the 362 patients, 242 (66.9%) had an operation, and 120 (33.1%) did not. The duration of preoperative observation did not affect the postoperative diplopia or enophthalmos. There were significant differences of enophthalmos among the operated groups with a different defect size at the preoperative period (P = 0.036 [Pearson χ(2)]). There were significant differences of diplopia among the operated groups with different defect sizes at the 6 months' follow-up period (P = 0.014 [Pearson χ(2)]). The diplopia in the older age group (>60 years) was significantly greater than that of the other 3 groups at 6 months (P = 0.023) and at 12 months (P = 0.023, [Pearson χ(2)]).We think surgery should be delayed until the swelling is decreased unless the medial rectus muscle is incarcerated. We also think that the defect size is not an important factor for whether to perform surgery. We think that the reason for the greater diplopia in the older age group is that the adaptation of binocular convergence is decreased in the older age group.

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Mapping Thickness of Nasal Septal Cartilage

Hwang¹,

Huan²,

Kim³

2010

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The aim of this study was to elucidate the thickness of the septal cartilage relating to septal advancement surgery. Fourteen Korean adult cadavers were used. A rectangular coordinate was used, with the x-axis horizontal on the maxillary crest and the y-axis a vertical right angle to the x-axis on the anterior nasal spine. The length and the height of the septal cartilages were divided evenly in 5 dimensions, and the thickness was measured of intersecting points of grating.The mean length and height of the cartilaginous septum was 3.31 +/- 0.53 and 2.99 +/- 0.47 cm, respectively. The thickness of the septal cartilage varied according to the site (0.74-3.03 mm). The thickest area was the septal base (0% of the septal height) anterior to the vomer (2.19-3.03 mm). The thinnest area (0.74-0. 97 mm) was just above the base area at 20% of the septal height. The anterior-inferior part of the site above the thinnest area was 1.03 to 1.22 mm in thickness and the superior-posterior part was 1.26 to 1.50 mm. The anterior-inferior part was thinner than the superior-posterior one.The thickness map of the nasal septum might be usefully applied in septal surgery, particularly in septal advancement.

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Muscle fibre types of the lumbrical, interossei, flexor, and extensor muscles moving the index finger

Hwang

Huan²,

Kim

2013

Journal of Plastic Surgery and Hand Surgery

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The aim of this study was to determine the fibre types of the muscles moving the index fingers in humans. Fifteen forearms of eight adult cadavers were used. The sampled muscles were the first lumbrical (LM), first volar interosseous (VI), first dorsal interosseus (DI), second flexor digitorum profundus (FDP), second flexor digitorum superficialis (FDS), and extensor digitorum (ED). Six micrometer thick sections were stained for fast muscle fibres. The procedure was performed by applying mouse monoclonal anti-skeletal myosin antibody (fast) and avidin-biotin peroxidase complex staining. Rectangular areas (0.38 mm × 0.38 mm) were photographed and the boundaries of the muscle areas were marked on the translucent film. The numbers and sizes of the muscle fibres in each part were evaluated by the image analyser program and calculated per unit area (1 mm(2)). The proportion of the fast fibres was significantly (p = 0.012) greater in the intrinsic muscles (55.7 ± 17.1%) than in the extrinsic muscles (45.9 ± 17.1%). Among the six muscles, the VI had a significantly higher portion (59.3%) of fast fibres than the FDS (40.6%) (p = 0.005) or the FDP (45.1%) (p = 0.023). The density of the non-fast fibres was significantly (p = 0.015) greater in the extrinsic muscles (539.2 ± 336.8/mm(2)) than in the intrinsic muscles (383.4 ± 230.4/mm2). Since the non-fast fibres represent less fatigable fibres, it is thought that the extrinsic muscles have higher durability against fatigue, and the intrinsic muscles, including the LM, should move faster than the FDS or FDP because the MP joint should be flexed before the IP joint to grip an object.

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Muscle Fiber Types of Human Orbicularis Oculi Muscle

Hwang¹,

Huan²,

Kim³

2011

Journal of Craniofacial Surgery

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The aim of this study was to elucidate the muscle type of the preseptal, pretarsal, and ciliary parts of the orbicularis oculi muscle in humans using immunostaining. The eyelids of 5 Korean adult cadavers were used (3 male and 2 female cadavers; age range, 50-85 years). A 1:1000 mouse monoclonal anti-skeletal myosin antibody solution (fast, M4276; Sigma, St Louis, MO) was used for immunostaining. On sagittal sections, preseptal, upper pretarsal, midpretarsal, lower pretarsal, and ciliary (muscle of Riolan) parts were selected, and 0.38 × 0.038-mm rectangular areas (0.1444 mm) were photographed. The number and size of the muscle fibers in each part of the orbicularis oculi muscle were evaluated by the image analyzer program and calculated per unit area (1 mm).On the whole, fast fibers (mean, 87.8% ± 3.7%; range, 85.6%-91.7%) occupied a significantly larger portion of the muscle (P = 0.000 [t-test]) than nonfast fibers (mean, 12.2% ± 3.7%; range, 8.3%-14.4%). Among the 3 areas (preseptal, pretarsal, and ciliary parts), the ciliary part had a significantly (P = 0.019 [Scheffé]) higher portion (91.7%) of fast fibers than the pretarsal part (86.6%). The diameter of the fast fibers (mean, 17.7 ± 2.6 μm) was significantly greater (P = 0.000 [t-test]) than the nonfast fibers (mean, 13.0 ± 2.1 μm).Our results showed that the eyelid has a higher proportion of fast muscle fibers than the mouth (pars peripheralis, 73% fast fibers; and pars marginalis, 66% fast fibers). Thus, closing of the eyelids is faster than closing of the mouth; however, the duration or power associated with closing of the mouth is stronger than closing of the eyelids.

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Fan Huan

Myofibroblasts and Capsular Tissue Tension in Breast Capsular Contracture

Diplopia and Enophthalmos in Blowout Fractures

Mapping Thickness of Nasal Septal Cartilage

Muscle fibre types of the lumbrical, interossei, flexor, and extensor muscles moving the index finger

Muscle Fiber Types of Human Orbicularis Oculi Muscle

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