MYH3基因中的新型杂合突变导致挛缩、翼状胬肉和脊柱-腕-跗骨融合综合征1:病例报告
Novel heterozygous mutation in MYH3 causes contractures, pterygia, and spondylocarpostarsal fusion syndrome 1: A case report.
作者信息
Zhu Xuefen, Yao Qiang
机构信息
Department of Neonatology, Hangzhou Women's Hospital, Hangzhou, Zhejiang Province, China.
出版信息
Medicine (Baltimore). 2025 Aug 8;104(32):e43884. doi: 10.1097/MD.0000000000043884.
RATIONALE
Contractures, pterygia, and spondylocarpotarsal fusion syndrome (CPSFS) comprises a group of extremely rare genetic disorders characterized by congenital craniofacial and musculoskeletal abnormalities. With fewer than 500 cases reported globally, this scarcity contributes to limited clinical recognition, frequent diagnostic delays or errors, and missed opportunities for timely intervention. We present this case to enhance awareness of CPSFS and report a novel pathogenic variant in MYH3 (previously undocumented in the literature) that broadens the known mutational spectrum of MYH3 and enriches the phenotypic profile of CPSFS.
PATIENT CONCERNS
A female neonate was born at 29 weeks, prenatal ultrasound and magnetic resonance imaging revealed scoliosis and vertebral fusion. The postnatal examination showed microstomia, low-set ears, a short neck with webbing, and flexion contractures at shoulders, elbows, knees, and hands. The whole genome sequencing found novel variants, namely NM_002470.4: c.1914del C; p. Lys639Argfs*18 and NM_002470.4: c.-68 + 4A > T, in the MYH3.
DIAGNOSES
CPSFS 1.
INTERVENTIONS
Immediately after birth, noninvasive ventilatory support was initiated. The surgical team conducted comprehensive evaluations, while concurrent genetic testing was performed. Given the infant's multiple systemic skeletal malformations and inability to sustain spontaneous respiration, surgical intervention was deemed nonviable.
OUTCOMES
Due to severe thoracic deformity and bronchopulmonary dysplasia, the infant required continuous noninvasive ventilation from birth and remained ventilator-dependent. At a corrected gestational age of 36 weeks and 4 days, life-sustaining therapy was withdrawn following thorough counseling and parental deliberation. The infant died shortly thereafter.
LESSONS
Prenatal ultrasound and fetal magnetic resonance imaging can reliably detect characteristic manifestations including scoliosis, joint developmental abnormalities, and clubfoot. Thus, regular prenatal surveillance plays a critical role in early disease identification. For suspected cases, genetic counseling and diagnostic testing enable informed parental decision-making regarding management of affected offspring and future reproductive planning.
原理
挛缩、翼状胬肉和脊椎腕跗骨融合综合征(CPSFS)是一组极为罕见的遗传性疾病,其特征为先天性颅面和肌肉骨骼异常。全球报告的病例不到500例,这种稀缺性导致临床认知有限、频繁的诊断延迟或错误,以及错失及时干预的机会。我们展示此病例以提高对CPSFS的认识,并报告MYH3中的一种新的致病变异(文献中此前未记载),该变异拓宽了已知的MYH3突变谱,并丰富了CPSFS的表型特征。
患者情况
一名女性新生儿在孕29周时出生,产前超声和磁共振成像显示脊柱侧弯和椎体融合。产后检查显示小口畸形、低位耳、颈部短且有蹼,以及肩部、肘部、膝部和手部的屈曲挛缩。全基因组测序在MYH3中发现了新的变异,即NM_002470.4:c.1914del C;p.Lys639Argfs*18和NM_002470.4:c.-68+4A>T。
诊断
CPSFS 1。
干预措施
出生后立即开始无创通气支持。手术团队进行了全面评估,同时进行了基因检测。鉴于婴儿存在多种全身性骨骼畸形且无法维持自主呼吸,手术干预被认为不可行。
结果
由于严重的胸廓畸形和支气管肺发育不良,婴儿从出生起就需要持续无创通气,且一直依赖呼吸机。在矫正胎龄36周零4天时,经过充分咨询和家长商议后停止了维持生命的治疗。婴儿此后不久死亡。
经验教训
产前超声和胎儿磁共振成像能够可靠地检测包括脊柱侧弯、关节发育异常和马蹄内翻足等特征性表现。因此,定期产前监测在疾病早期识别中起着关键作用。对于疑似病例,遗传咨询和诊断检测能够使家长就是否治疗患病后代及未来生育计划做出明智的决策。
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