key: cord-0027572-nh4tjtkz authors: Brusa, Chiara; Gadaleta, Giulio; D’Alessandro, Rossella; Urbano, Guido; Vacchetti, Martina; Davico, Chiara; Vitiello, Benedetto; Ricci, Federica S.; Mongini, Tiziana E. title: Psychopharmacological Treatments for Mental Disorders in Patients with Neuromuscular Diseases: A Scoping Review date: 2022-01-28 journal: Brain Sci DOI: 10.3390/brainsci12020176 sha: c91ed7080c27f7766939e6480abb78ccfadb8abc doc_id: 27572 cord_uid: nh4tjtkz Mental disorders are observed in neuromuscular diseases, especially now that patients are living longer. Psychiatric symptoms may be severe and psychopharmacological treatments may be required. However, very little is known about pharmacotherapy in these conditions. We aimed to summarize the current knowledge on the use of psychopharmacological treatments for mental disorders in patients living with a neuromuscular disease. A scoping review was performed using the methodology of the Joanna Briggs Institute. Four databases were searched from January 2000 to July 2021. Articles were screened based on titles and abstracts. Full-text papers published in peer-reviewed journals in English were selected. Twenty-six articles met eligibility criteria, all being case reports/series focusing on the psychopharmacological control of psychiatric symptoms for the following conditions: myasthenia gravis (n = 11), Duchenne (n = 5) and Becker (n = 3) muscular dystrophy, mitochondrial disorders (n = 3), glycogen storage disease (n = 1), myotonic dystrophy (n = 1), hyperkalemic periodic paralysis (n = 1), and congenital myasthenic syndrome (n = 1). None of the articles provided details on the decision-making process to choose a specific drug/regimen or on follow-up strategies to monitor safety and efficacy. Larger studies showing real-world data would be required to guide consensus-based recommendations, thus improving current standards of care and, ultimately, the quality of life of patients and their families. Neuromuscular diseases encompass a wide range of disorders due to genetic or acquired etiologies and are characterized by the anatomic localization of the pathology within the motor unit. The motor unit consists of the motor neuron in the ventral horns of the spinal cord and brainstem motor nuclei, the peripheral nerve, the neuromuscular junction, and the muscle fiber. Defects in any of these components result in weakness, a common feature of motor neuron disorders, neuropathies, neuromuscular junction disorders, and muscle fiber disorders (the latter being further subdivided into categories based on histopathology features on muscle biopsy: dystrophies, congenital myopathies, mitochondrial diseases, metabolic disorders affecting the muscle, inflammatory myopathies, and infectious myositis). Each neuromuscular disease is "rare" according to the European Union definition of a disease that affects no more than 1 person in 2000, and some of them are very rare. Yet, collectively, these conditions are quite common [1] , and a general pediatrician/practitioner will care for at least one neuromuscular patient on average at any one time. In addition, with more patients being now defined genetically [2] , the incidence and prevalence rates for some disorders have increased from earlier pregenetic studies. On top of that, prevalence rates directly reflect duration of life, and the introduction and adoption of supportive care options for neuromuscular disorders over the last decades [3] [4] [5] [6] [7] have contributed to improving the overall survival of these patients. Furthermore, the recent availability of innovative drug therapies for some patients-in particular those with infantile-onset Pompe disease (IOPD) [8] and spinal muscular atrophy (SMA) type 1 [9] [10] [11] -have further contributed to prolonging their survival. Overall, neuromuscular diseases may present from prenatal development to adulthood, and are usually characterized by a chronic course-especially when the underlying origin is a genetic defect. Physical impairment and morbidity are often substantial, and motor difficulties may be complicated by respiratory, cardiac, nutritional, and skeletal compromise, with resultant impaired independent functioning throughout life. Therefore, combined efforts of multiple specialists are often required to evaluate and manage such patients to optimize their potential and quality of life. Now that patients with neuromuscular diseases are living longer, more and more attention has been paid to their health-related quality of life and psychological care. People living with chronic medical conditions-as most people with a neuromuscular disease-are at higher risk of developing mental disorders like anxiety and depression. To investigate the effect of the burden of the disease on mental health, patient reported outcome measures (PROM) and quality of life (QOL) instruments are available, both general and diseasespecific ones, e.g., for Spinal Muscular Atrophy (SMA) and Duchenne Muscular Dystrophy (DMD) [12] [13] [14] [15] . For the pediatric population, questionnaires for parents are available to report information about their child, and age-specific questionnaires using appropriate language for that child's development have been created and validated [16, 17] . In addition to the mental disorders generally experienced by people living with a chronic disease, specific comorbid neurodevelopmental or other psychiatric disorders have been described as part of the clinical phenotype of some neuromuscular diseases. High rates of intellectual disability-ID (17-27%), learning disabilities (26%), autism spectrum disorder-ASD (15%), attention-deficit hyperactivity disorder-ADHD (32%), and anxiety (27%) have been reported in people with DMD [5, [18] [19] [20] . Similarly, ASD, ADHD, alexithymia, and other behavioral problems have been described in patients with Myotonic Dystrophy type 1 (DM1) [21, 22] . Published data for over nearly half of a century have demonstrated an association between Myasthenia Gravis (MG) and mood disorders [23] . Patients with mitochondrial disorders can present with primary psychiatric symptomatology, including anxiety, depression, bipolar disorder, psychosis, and obsessivecompulsive disorder, which are mainly described in those with a diagnosis of mitochondrial encephalomyopathy with lactic acidosis and stroke-like episodes (MELAS) [24] . Patients with psychiatric or behavioral issues should be referred to a mental health care professional for assessment and management. Milder symptoms may benefit from nonpharmacological interventions. Should these interventions not be effective, e.g., due to the increased severity of symptoms, psychopharmacological treatments might be required. However, very little is known about psychopharmacological management of mental disorders in patients with neuromuscular diseases, as regards to both their efficacy and safety profile. Studies on real world data in large populations are lacking. No guidelines for clinicians dealing with neuromuscular patients are available in terms of recommended medications (type, regimen, drug interactions) and follow-up schedules to monitor clinical outcomes and adverse events. Such guidelines would be of significant help for neuromuscular patients who might experience more frequent and/or more severe adverse events due to their comorbidities, especially from a cardiac point of view, and due to the interferences with the considerable number of medications they might already be on. In this scoping review, we first aim to explore and summarize the current knowledge on psychopharmacological treatments for mental disorders in patients with neuromuscular diseases. Secondly, by providing up-to-date information on the use of psychiatric medications in real-world neuromuscular settings and on available recommendations/expert opinions, we aim to raise awareness on this topic. We believe sharing data on day-to-day management of patients living with a neuromuscular conditions and experiencing a mental disorder would add significant insight into ways to improve the current standards of care for neuromuscular diseases and, in turn, the quality of life of patients and their families. The Joanna Briggs Institute (JBI) methodology for scoping reviews, described in the online JBI Reviewer's Manual [25] , was employed to conduct the review. The results are presented following the Preferred Reporting Items for Systematic reviews and Meta-Analyses extension for Scoping Reviews (PRISMA-ScR) Checklist [26] . No a priori protocol was registered. Further information on the process can be obtained from the corresponding author on request. The inclusion criteria used to select the articles for this review are based on the Population, Concept, and Context (PCC) elements reported below. Population. We searched for articles reporting the use of medications for mental disorders in patients with neuromuscular conditions including spinal muscular atrophies, neuromuscular junction disorders (myasthenia gravis, congenital myasthenic syndromes), muscular dystrophies (dystrophinopathies, congenital muscular dystrophies, limb-girdle muscular dystrophies, facioscapulohumeral dystrophy, myotonic dystrophies), structural congenital myopathies, non-dystrophic myotonias, mitochondrial myopathies, glycogen storage diseases, and myositis. For this review, we did not consider neuropathies, fibromyalgia, or motor neuron disorders other than spinal muscular atrophies. As regards to the age range, we included articles considering both the adult and the pediatric population. Concept. We selected articles analyzing the use of the following psychopharmacological agents: anxiolytics, antidepressants, antipsychotics, and central nervous system stimulants. Context. No cultural, geographical, race, or gender-specific limits were considered for our review, with the reason being that there are no previous data suggesting any differences in the pharmacological effects of these agents according to the above mentioned categories. The review covers data published between January 2000 and July 2021. Selected keywords were combined to create search strategies, adjusted for each screened database. Articles were searched in the following databases: PubMed/MEDLINE, Embase, PsycINFO, and Scopus. Search terms included: "neuromuscular diseases", "spinal muscular atrophies", "neuromuscular junction disorders", "myasthenia gravis", "congenital myasthenic syndromes", "muscular dystrophies", "limb-girdle muscular dystrophies", "facioscapulohumeral dystrophy", "structural congenital myopathies", "myotonic dystrophies", "nondystrophic myotonias", "myositis", "inflammatory myopathies", "mitochondrial myopathies", "glycogen storage diseases", "psychopharmacology", "psychotropic drugs", "anti-anxiety agents", "anti-depressive agents", "antipsychotic agents", "central nervous system stimulants", "mental disorders", "anxiety disorders", "obsessive-compulsive disorder", "panic disorder", "bipolar disorder", "mood disorders", "depressive disorder", "neurodevelopmental disorders", "attention deficit disorder with hyperactivity", "conduct disorder", "autism spectrum disorder", "psychotic disorders", and "schizophrenia" Supplementary Material File S1 (online supporting information) shows the search process (search string and search terms) used to retrieve the final articles from PubMed/MEDLINE. References from relevant articles were searched for inclusion of additional papers not previously identified through the systematic search. Articles were initially screened based on titles and abstracts according to the PCC elements previously described. Duplicates were removed. Only full-text papers published after 2000 in peer-reviewed journals and in the English language were selected. The articles were examined by two authors (CB and GG), and eligibility for inclusion was performed independently; in case of discordant opinion between the reviewers, the eligibility of the article was discussed until consensus was reached. All data relevant to inform the scoping review objectives and questions were extracted and are summarized in Tables 1-8. The strength of evidence for each article was assessed according to the Levels of Evidence developed by the Joanna Briggs Institute (JBI) [25] . Results were grouped according to the following neuromuscular diseases: myasthenia gravis, Duchenne muscular dystrophy, Becker muscular dystrophy, MELAS, glycogen storage disease type 1, myotonic dystrophy type 2, hyperkalemic periodic paralysis, and congenital myasthenic syndrome (Tables 1-8). A total of 26 articles on the use of psychiatric medications for mental disorders in patients with a neuromuscular disease were included after screening and selection, focusing on the control of various behavioral and emotional symptoms in the context of myasthenia gravis (n = 11), Duchenne muscular dystrophy (n = 5), Becker muscular dystrophy (n = 3), MELAS (n = 3), glycogen storage disease type 1 (n = 1), myotonic dystrophy type 2 (n = 1), hyperkalemic periodic paralysis (n = 1), and congenital myasthenic syndrome (n = 1). We found 11 articles reporting on the use of psychopharmacological treatments in patients suffering from anxiety, somatic, depressive, psychotic, or bipolar disorder symptoms, or a combination of two or more psychiatric symptoms. In particular, we found 10 case reports and a case series, as shown in Table 1 . Five articles reported on psychopharmacological treatments of neurodevelopmental disorders (i.e., ID, ASD, ADHD, tic disorders) often aimed at controlling associated behavioral and emotional symptoms. Two papers were case reports, 2 were case series, and 1 was an observational study with no control group, as shown in Table 2 . Three articles reported on medications to treat symptoms of neurodevelopmental, anxiety, psychotic, and depressive disorders in 2 case reports and a case series, as shown in Table 3 . We found 2 case reports and 1 case series on the use of psychiatric medications for depressive, psychotic, and obsessive-compulsive symptoms, respectively, as shown in Table 4 . One case report documented the use of psychiatric medications to control psychotic symptoms in a patient with GSD-1, as shown in Table 5 . We found 1 case report detailing the use of psychopharmacological treatments to control psychotic symptoms in a patient with DM2, as shown in Table 6 . One case report documented the use of multiple psychopharmacological treatments for bipolar disorder in a patient with HPP, as shown in Table 7 . We found 1 case report on the use of antidepressants for major depressive symptoms in a patient with a CMS, as shown in Table 8 . This review confirms that data published over the last 20 years on the use of psychopharmacological treatments for mental disorders in patients with neuromuscular diseases are scarce. Only 26 articles have been found on this topic, generally with low level of evidence as most of them are case reports or very small case series/observational studies, with the exception of 2 large case series. However, even these two larger studies did not detail the decision making process leading to the choice of a specific psychiatric drug or regimen, nor did they describe follow-up strategies to monitor efficacy and safety. The scarcity of data is in contrast with the high frequency of psychiatric comorbidities reported for many neuromuscular diseases. As already mentioned above, chronic medical conditions-such as neuromuscular disorders-represent significant risk factors for developing depression and anxiety. In literature, symptoms of depression and anxiety have been reported among people living with a neuromuscular disorder, especially those with MG [23, 53] . In addition to depression and anxiety, neurodevelopmental disorders such as ASD and ADHD-with or without comorbid intellectual disability and other behavioral and emotional difficulties-have been reported in DMD, BMD [39, 43] , and DM1 [54] . Psychiatric symptoms may be a manifestation of primary mitochondrial disorders such as MELAS [55] . It is worth considering that mental health disorders due to living with a disability-e.g., depression and anxiety-and psychiatric symptoms, which are part of the neuromuscular phenotype, are different entities likely requiring different approaches. Similarly, mental disorders due to living with a life-limiting disease like DMD might deserve different treatment strategies as compared to the ones observed in neuromuscular diseases with normal life expectancy (e.g., MG). Currently, specific recommendations for clinicians are in place only for conditions such as DMD [5] and DM1 [21, 22] . Mental health and quality of life screening is suggested for these patients at each neuromuscular clinic visit, and the involvement of a mental health clinician is warranted for further assessment and management in the case of a positive screening. However, authors agree on the fact that there is little research, in terms of real-world data and guidelines, that clinicians can rely on when taking care of neuromuscular patients with moderate-to-severe psychiatric manifestations. Management of such symptoms with psychosocial and/or psychotherapeutic approaches alone can be significantly challenging, and a psychopharmacological intervention may be required. The use of psychiatric drugs in neuromuscular patients may be hampered by multiple factors. As regards to efficacy monitoring, there is no consensus on the standardized outcome measures that could be used to evaluate the effect of psychiatric medication in this population. As to safety monitoring, patients with neuromuscular diseases are already at risk of multisystemic complications, especially considering their cardiac involvement, which, in turn, may represent a contraindication to the administration of psychiatric medications (e.g., some antidepressants, atypical antipsychotics, or central nervous system stimulants). On top of that, the longer the patients survive, the higher the risk of more severe complications and, therefore, the more complex the management of mental disorders. This is particularly true for specific populations such as adults living with DMD, as highlighted during an ENMC International Workshop in 2014 [56] , and in the recently published consensus guidelines for adults with DMD produced by the UK Adult North Star Network [57] . In addition, neuromuscular patients may be already on medications that can worsen psychiatric symptoms (e.g., corticosteroids for DMD and MG). Additionally, patients may present neuromuscular conditions for which a number of medications are contraindicated. This is the case, for instance, of primary mitochondrial diseases. On this regard, an international Delphi-based consensus has been published in 2020 [58] . The authors of this document expressed a strong consensus on the safe use of antidepressants, antipsychotics, and benzodiazepines in this population when clinically indicated. However, they also agreed on the lack of large studies, making it impossible to directly draw recommendations for the clinical practice from their consensus. We believe that this scoping review identifies a significant gap in the knowledge of psychopharmacological treatments for mental disorders in patients with neuromuscular diseases. To date, the limited number of reports and the overall low level of evidence of published data do not allow us to make recommendations on this topic. Large longitudinal studies would be strongly required to share clinical experiences and gather more insights on the management of psychopharmacological medications in patients with neuromuscular diseases. Standardized outcome measures should be used to objectively evaluates outcomes, and longitudinal follow-up should be planned to monitor side effects. Multidisciplinary efforts, especially involving mental health professionals (psychiatrists, psychologists) and cardiologists, are fundamental to minimize adverse events. Considering that mental health status is strongly related to the quality of life of patients and their families, raising awareness on this topic is becoming of utmost importance now that patients are living longer thanks to the improvements in standards of care and the availability of innovative drug therapies. In conclusion, mental disorders are commonly observed in people living with a neuromuscular disorder, in both the pediatric and the adult population. As shown by our review, psychiatric symptoms may be severe, and psychopharmacological treatments may be required. Administering psychotropic drugs might be challenging in neuromuscular patients who are already at risk of developing complications, especially cardiac ones, and who might already be on several other medications. Larger studies showing real-world data would be required to guide consensus-based recommendations, thus improving the current standards of care and, ultimately, the quality of life of patients living with a neuromuscular disease and their families. 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