Department of Internal Medicine B, Pneumology, University Hospital Greifswald, F.-Sauerbruchstr, 17475, Greifswald, Germany.
DRK-Hospital Berlin, Berlin, Germany.
BMC Pulm Med. 2023 Mar 29;23(1):104. doi: 10.1186/s12890-023-02391-x.
Primary muscular disorders (metabolic myopathies, including mitochondrial disorders) are a rare cause of dyspnea. We report a case of dyspnea caused by a mitochondrial disorder with a pattern of clinical findings that can be classified in the known pathologies of mitochondrial deletion syndrome.
The patient presented to us at 29 years of age, having had tachycardia, dyspnea, and functional impairment since childhood. She had been diagnosed with bronchial asthma and mild left ventricular hypertrophy and treated accordingly, but her symptoms had worsened. After more than 20 years of progressive physical and social limitations was a mitochondrial disease suspected in the exercise testing. We performed cardiopulmonary exercise testing (CPET) with right heart catheterization showed typical signs of mitochondrial myopathy. Genetic testing confirmed the presence of a ~ 13 kb deletion in mitochondrial DNA from the muscle. The patient was treated with dietary supplements for 1 year. In the course of time, the patient gave birth to a healthy child, which is developing normally.
CPET and lung function data over 5 years demonstrated stable disease. We conclude that CPET and lung function analysis should be used consistently to evaluate the cause of dyspnea and for long-term observation.
原发性肌肉疾病(包括线粒体疾病的代谢性肌病)是呼吸困难的罕见原因。我们报告了一例由线粒体疾病引起的呼吸困难病例,其临床表现模式可归类于已知的线粒体缺失综合征的病理学中。
该患者 29 岁时因儿童期即出现心动过速、呼吸困难和功能障碍来我院就诊。她曾被诊断为支气管哮喘和轻度左心室肥厚,并接受了相应的治疗,但症状仍在恶化。经过 20 多年的渐进性身体和社会功能受限,我们怀疑她患有运动试验中的线粒体疾病。我们进行了心肺运动测试(CPET)并进行了右心导管检查,显示出典型的线粒体肌病征象。基因检测证实肌肉中线粒体 DNA 存在约 13kb 的缺失。患者接受了 1 年的饮食补充剂治疗。随着时间的推移,患者生下了一个健康的孩子,其发育正常。
CPET 和 5 年来的肺功能数据显示疾病稳定。我们得出结论,CPET 和肺功能分析应被一致地用于评估呼吸困难的原因,并进行长期观察。