Pulmonary Endpoints in Duchenne Muscular Dystrophy: Evaluation of the Structure and Function of Respiratory Muscles by Ultrasonography

Respiratory muscle weakness is common in neuromuscular disorders and leads to significant respiratory difficulties. Therefore, reliable and easy assessment of respiratory muscle structure and function in neuromuscular disorders is crucial. In the last decade, ultrasound and MRI emerged as promising imaging techniques to assess respiratory muscle structure and function. Respiratory muscle imaging directly measures the respiratory muscles and, in contrast to pulmonary function testing, is independent of patient effort. This makes respiratory muscle imaging suitable to use as tool in clinical respiratory management and as outcome parameter in upcoming drug trials for neuromuscular disorders, particularly in children. In this narrative review, we discuss the latest studies and technological developments in imaging of the respiratory muscles by US and MR, and its clinical application and limitations. We aim to increase understanding of respiratory muscle imaging and facilitate its use as outcome measure in daily practice and clinical trials.

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Structure and Function of the Respiratory Muscles

The Thorax -- Part A ◽

10.1201/9781420000665-19 ◽

1995 ◽

pp. 237-270

Keyword(s):

Respiratory Muscles ◽

Structure And Function ◽

And Function

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Noninvasive evaluation of respiratory muscles in pre-clinical model of Duchenne Muscular Dystrophy

Pesquisa Veterinária Brasileira ◽

10.1590/s0100-736x2016000400007 ◽

2016 ◽

Vol 36 (4) ◽

pp. 290-296

Author(s):

Daniela M. Oliveira ◽

Stefano C. Hagen ◽

Amilton C. Santos ◽

Maria A. Miglino ◽

Antônio C. Assis Neto

Keyword(s):

Duchenne Muscular Dystrophy ◽

Muscular Dystrophy ◽

Respiratory Muscles ◽

Experimental Models ◽

Noninvasive Evaluation ◽

Control Group ◽

Clinical Model ◽

Intercostal Muscles ◽

Invasive Method ◽

Clinical Conditions

Abstract Since respiratory insufficiency is the main cause of death in patients affected by Duchenne Muscular Dystrophy (DMD), the present study aims at establishing a new non-invasive method to evaluate the clinical parameters of respiratory conditions of experimental models affected by DMD. With this purpose in mind, we evaluated the cardiorespiratory clinical conditions, the changes in the intercostal muscles, the diaphragmatic mobility, and the respiratory cycles in Golden Retriever Muscular Dystrophy (GRMD) employing ultrasonography (US). A control group consisting of dogs of the same race, but not affected by muscular dystrophy, were used in this study. The results showed that inspiration, expiration and plateau movements (diaphragm mobility) were lower in the affected group. Plateau phase in the affected group was practically non-existent and showed that the diaphragm remained in constant motion. Respiratory rate reached 15.5 per minute for affected group and 26.93 per minute for the control group. Expiration and inspiration movements of intercostal muscles reached 8.99mm and 8.79mm, respectively, for control group and 7.42mm and 7.40mm, respectively, for affected group. Methodology used in the present analysis proved to be viable for the follow-up and evaluation of the respiratory model in GRMD and may be adapted to other muscular dystrophy experimental models.

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The Duchenne muscular dystrophy gene and cancer

Cellular Oncology ◽

10.1007/s13402-020-00572-y ◽

2020 ◽

Author(s):

Leanne Jones ◽

Michael Naidoo ◽

Lee R. Machado ◽

Karen Anthony

Keyword(s):

Duchenne Muscular Dystrophy ◽

Muscular Dystrophy ◽

Muscle Protein ◽

Neuromuscular Disorders ◽

Becker Muscular Dystrophy ◽

Gene Products ◽

Large Gene ◽

Cancer Types ◽

And Function ◽

Dystrophin Protein

Abstract Background Mutation of the Duchenne muscular dystrophy (DMD) gene causes Duchenne and Becker muscular dystrophy, degenerative neuromuscular disorders that primarily affect voluntary muscles. However, increasing evidence implicates DMD in the development of all major cancer types. DMD is a large gene with 79 exons that codes for the essential muscle protein dystrophin. Alternative promotor usage drives the production of several additional dystrophin protein products with roles that extend beyond skeletal muscle. The importance and function(s) of these gene products outside of muscle are not well understood. Conclusions We highlight a clear role for DMD in the pathogenesis of several cancers, including sarcomas, leukaemia’s, lymphomas, nervous system tumours, melanomas and various carcinomas. We note that the normal balance of DMD gene products is often disrupted in cancer. The short dystrophin protein Dp71 is, for example, typically maintained in cancer whilst the full-length Dp427 gene product, a likely tumour suppressor, is frequently inactivated in cancer due to a recurrent loss of 5’ exons. Therefore, the ratio of short and long gene products may be important in tumorigenesis. In this review, we summarise the tumours in which DMD is implicated and provide a hypothesis for possible mechanisms of tumorigenesis, although the question of cause or effect may remain. We hope to stimulate further study into the potential role of DMD gene products in cancer and the development of novel therapeutics that target DMD.

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