Spinal muscular atrophy type 1: A fatal case in a 1-year-old girl with delayed diagnosis.

Key Clinical Message: Spinal muscular atrophy (SMA) is a growing clinical concern, necessitating higher awareness and early detection. This case study focuses on the difficulties and advances in detecting and treating SMA. It emphasizes the value of early detection, interdisciplinary care, genetic testing, and novel therapeutics in terms of improving outcomes. Abstract: Spinal muscular atrophy type 1 (SMA Type 1) is a rare genetic neuromuscular disease characterized by muscle atrophy and weakness. This case report presents the fatal outcome of a 1-year-old girl with delayed diagnosis of SMA Type 1. The child exhibited symptoms of muscle weakness and respiratory distress, which were initially overlooked. Despite a thorough examination and diagnostic tests, including genetic analysis, SMA Type 1 with a homozygous deletion in the survival motor neuron 1 (SMN1) gene was confirmed. The child received supportive measures and physiotherapy but experienced a progressive deterioration of her condition and eventually succumbed to the disease. This case underscores the challenges of diagnosing SMA and highlights the importance of early identification for appropriate management. Improved awareness, diagnostic protocols, and access to treatment options, including pharmacological drugs and gene therapy, are essential to improve outcomes for SMA Type 1 patients, particularly in resource-limited settings. Early detection through newborn screening programs and timely intervention can significantly impact the prognosis and life expectancy of SMA Type 1 children, emphasizing the need for continued research and clinical trials to establish a definitive cure.

Spinal muscular atrophy (SMA) type I (Werdnig-Hoffmann disease).

Spinal muscular atrophy type I, also called Werdnig-Hoffmann disease, is the most serious form. The disease appears before the age of 6 months and is characterized by major global hypotonia and abolition of tendon reflexes, with children never being able to sit unaided. Cognitive development is normal and the expressive gaze of these children contrasts with the paralytic attitude. Respiratory involvement predominates in the intercostal muscles, and sometimes brainstem involvement are all serious aspects of the disease. Type I spinal muscular atrophy has been subdivided into 3 groups: - type IA, the clinical signs of which set in between birth and 15 days of life with sudden severe motor impairment, sucking-swallowing disorders attesting to bulbar involvement, respiratory distress. - type IB with onset of symptoms before the age of 3 months, which implies no head control - type IC starting between 3 and 6 months with the possibility of checking head control, often referred to as "I bis" by French practitioners. The development and use of innovative therapies in recent years does actually change the natural course of this disease. But we do not know for sure what the long-term evolution of infants who received these new therapies will be. © 2020 French Society of Pediatrics. Published by Elsevier Masson SAS. All rights reserved.

Spinal Muscular Atrophy: Autopsy Based Neuropathological Demonstration.

Spinal muscular atrophy (SMA) encompasses a group of disorders with loss of spinal motor neurons.The report describes the neuropathological findings including brain and spinal cord at autopsy in a five-and-half-month-old boy with suspected type 1 SMA. The anterior motor neurons, Clarke's column at all the levels of spinal cord showed neuronal loss and degeneration while neurons at all the deep grey nuclei were preserved apart from variable degree anoxic changes. Skeletal muscle biopsy revealed features of neurogenic atrophy consistent with SMA. A differential diagnosis like storage disorders was excluded using electron microscopy. No extra-neural manifestations were seen. Neuropathological features at autopsy have seldom been reported in the literature.

[(S)un (M)ay (A)rise on SMA : the hope of a region without spinal muscular atrophy]. / (S)un (M)ay (A)rise on SMA : l'espoir d'une région sans amyotrophie spinale.

The treatment of spinal muscular atrophy (SMA) has considerably changed over the last 3 years. Several approaches that aim to increase the deficient SMN protein have demonstrated an efficacy that is inversely correlated with disease duration. In this context, newborn screening (NBS) is increasingly considered as the next step in several countries or regions. In 2018, we initiated a pilot study for NBS of SMA in French- and German-speaking Belgium. We aim to evaluate the feasibility, the efficacy, and the cost-effectiveness of such a program. Initially covering the region of Liege, the program was recently extended to the whole Southern Belgium and currently covers about 55.000 newborns per year. On June 1st 2019, 35.000 newborns had been screened and 5 affected babies were identified and referred to neuromuscular centers for early treatment. A full evaluation of the program will take place after three years to consider the inclusion of SMA screening in the publically-funded NBS program in Southern Belgium.

La prise en charge de l'amyotrophie spinale antérieure (SMA) a considérablement évolué au cours des trois dernières années. Les différents essais visant à augmenter la production de la protéine SMN déficitaire dans la SMA ont systématiquement montré une efficacité inversement proportionnelle à la durée de la maladie. Dès lors, l'implémentation d'un programme de dépistage néonatal s'est rapidement imposée comme une évidence médico-économique dans de nombreux pays. Dans ce contexte, nous avons initié un programme de dépistage néonatal pour la SMA en Belgique francophone et germanophone. En 2018, une étude pilote de trois ans visant à évaluer la faisabilité, l'efficacité et la rentabilité du screening a été initiée au sein du centre de dépistage de Liège. L'étude a récemment été étendue à l'ensemble de la Fédération Wallonie-Bruxelles (FWB) pour couvrir environ 55.000 naissances annuelles. Au 1er juin 2019, 35.000 bébés ont été dépistés et cinq nouveau-nés atteints de SMA ont été identifiés. Tous ont été immédiatement référés pour assurer leur prise en charge dans un centre de référence pour les maladies neuromusculaires. Une évaluation complète du programme aura lieu à l'issue de la phase pilote, afin d'envisager que la SMA soit reconnue comme maladie officielle du programme de dépistage néonatal en FWB.

Nusinersen: A Novel Antisense Oligonucleotide for the Treatment of Spinal Muscular Atrophy.

Spinal muscular atrophy (SMA) encompasses a group of autosomal recessively inherited degenerative neuromuscular disorders. They range in severity from neonatal onset with rapidly progressive weakness and early mortality (SMA-1), to onset in infancy (SMA-2), to adolescent/adult onset with indolent clinical course (SMA-3/-4). SMA patients share mutations in the survival motor neuron (SMN) gene; variations in clinical phenotypes are attributable to copy numbers of the closely related SMN2 gene. In December 2016, the US Food and Drug Administration (FDA) approved nusinersen (Spinraza, Biogen, Cambridge, MA) to treat SMA. Nusinersen, an antisense oligonucleotide, is administered directly into cerebrospinal fluid. It alters SMN2 pre-RNA splicing so exon 7 is included, increasing expression of functional SMN protein. Although nusinersen was FDA approved for treatment of all forms of SMA, the initial clinical trials were limited to patients up to age 14 years, diagnosed with SMA-1,-2, -3, not on mechanical ventilation support. Two subsequent phase 3 trials were completed for SMA-1 and SMA-2/-3 and demonstrated improved motor milestones and event-free survival, better than expected based on natural history studies. Efficacy assessments for patients receiving nusinersen are based on serial assessments of performance on age-appropriate standardized motor scales. Treatment requires complex financial and logistics because of the very high drug cost, intrathecal administration, and medical fragility of the patients. Treatment implementation also engenders ethical considerations related to cost, insurance coverage, limited clinical data on groups of patients not in clinical trials, and questions of duration of treatment. Nusinersen has been integrated into the treatment of many SMA patients.

Newborn screening for SMA in Southern Belgium.

Approval was recently granted for a new treatment for spinal muscular atrophy (SMA). Given that the treatment is effective when administered early and the societal burden of SMA-related disability, the implementation of a newborn screening program is warranted. We describe the stepwise process that led us to launch a newborn screening program for SMA in Southern Belgium. Different political, ethical, and clinical partners were informed about this project and were involved in its governance, as were genetic and screening labs. We developed and validated a newborn screening method to specifically recognize homozygous deletions of exon 7 in the SMN1 gene. Subsequently, a 3-year pilot study has been recently initiated in one Belgian neonatal screening laboratory to cover 17.000 neonates per year. Coverage extension to all of Southern Belgium to screen 55.000 babies each year is underway.

Overexpression of SMN2 Gene in Motoneuron-Like Cells Differentiated from Adipose-Derived Mesenchymal Stem Cells by Ponasterone A.

Cell therapy and stem cell transplantation strategies have provided potential therapeutic approaches for the treatment of neurological disorders. Adipose-derived mesenchymal stem cells (ADMSCs) are abundant adult stem cells with low immunogenicity, which can be used for allogeneic cell replacement therapies. Differentiation of ADMSCs into acetylcholine-secreting motoneurons (MNs) is a promising treatment for MN diseases, such as spinal muscular atrophy (SMA), which is associated with the level of SMN1 gene expression. The SMN2 gene plays an important role in MN disorders, as it can somewhat compensate for the lack of SMN1 expression in SMA patients. Although the differentiation potential of ADMSCs into MNs has been previously established, overexpression of SMN2 gene in a shorter period with a longer survival has yet to be elucidated. Ponasterone A (PNA), an ecdysteroid hormone activating the PI3K/Akt pathway, was studied as a new steroid to promote SMN2 overexpression in MNs differentiated from ADMSCs. After induction with retinoic acid, sonic hedgehog, forskolin, and PNA, MN phenotypes were differentiated from ADMSCs, and immunochemical staining, specific for ß-tubulin, neuron-specific enolase, and choline acetyltransferase, was performed. Also, the results of real-time PCR assay indicated nestin, Pax6, Nkx2.2, Hb9, Olig2, and SMN2 expression in the differentiated cells. After 2 weeks of treatment, cultures supplemented with PNA showed a longer survival and a 1.2-fold increase in the expression of SMN2 (an overall 5.6-fold increase; *P ≤ 0.05), as confirmed by the Western blot analysis. The PNA treatment increased the levels of ChAT, Isl1, Hb9, and Nkx2 expression in MN-like cells. Our findings highlight the role of PNA in the upregulation of SMN2 genes from MSC-derived MN-like cells, which may serve as a potential candidate in cellular therapy for SMA patients.

Manejo respiratorio en atrofia muscular espinal: cambio de paradigma en la era de las nuevas terapias específicas / Respiratory care in spinal muscular atrophy in the new therapeutic era

Resumen: La atrofia muscular espinal (AME) es la enfermedad genética mortal más frecuente en lactantes, con severidad variable. Se clasifica en cuatro subtipos: tipo 0 de inicio prenatal y recién nacido ya afecta do, con ausencia de esfuerzo respiratorio y ningún desarrollo motor, tipo 1 de inicio en menores de 3 meses que no logran sentarse, tipo 2 que logran sentarse, pero no caminar y tipo 3 que consiguen caminar. La causa más seria de morbimortalidad es la neumonía y la insuficiencia respiratoria. La información a los cuidadores debe contemplarse desde el diagnóstico, para la toma de decisiones anticipadas. Los objetivos del manejo incluyen el estímulo de la tos, evitar la deformación de la caja torácica, la hipoventilación, y tratar oportunamente las infecciones respiratorias, el trastorno de de glución, el reflujo gastroesofágico y la malnutrición. El objetivo de esta actualización es discutir los nuevos desafíos en cuidados respiratorios con un enfoque preventivo, considerando la reciente dis ponibilidad de tratamientos específicos -oligonucleótidos antisentido nusinersen- y otros que están en desarrollo, incluída la terapia génica.

Abstract: Spinal muscular atrophy (SMA) is the first inherited cause of mortality in infants, with four subtypes: SMA0 prenatal onset, SMA1 babies less than 3 months non sitters, SMA2 sitters and SMA3 walkers. Pneumonia and respiratory insufficiency are the most severe complications. Informed parental de cisions are relevant. Respiratory management includes cough assistance, prevention of lung under development due to chest deformity, prompt treatment of respiratory infections, hypoventilation, swallow problems, gastro esophageal reflux and malnutrition. In view of the FDA and EMA approval of the nonsense oligonucleotides nusinersen, the first specific treatment for SMA and the future with gene therapy and others under development, we need to optimize preventive respiratory manage ment with the new standard of care.

Recent Advances and Clinical Applications of Exon Inclusion for Spinal Muscular Atrophy.

Spinal muscular atrophy (SMA) is an autosomal recessive disorder caused by a mutation in SMN1 that stops production of SMN (survival of motor neuron) protein. Insufficient levels of SMN results in the loss of motor neurons, which causes muscle weakness, respiratory distress, and paralysis. A nearly identical gene (SMN2) contains a C-to-T transition which excludes exon 7 from 90% of the mature mRNA transcripts, leading to unstable proteins which are targeted for degradation. Although SMN2 cannot fully compensate for a loss of SMN1 due to only 10% functional mRNA produced, the discovery of the intronic splicing silencer (ISS-N1) opened a doorway for therapy. By blocking its function with antisense oligonucleotides manipulated for high specificity and efficiency, exon 7 can be included to produce full-length mRNA, which then compensates for the loss of SMN1. Nusinersen (Spinraza), the first FDA-approved antisense oligonucleotide drug targeting SMA, was designed based on this concept and clinical studies have demonstrated a dramatic improvement in patients. Novel chemistries including phosphorodiamidate morpholino oligomers (PMOs) and locked nucleic acids (LNAs), as well as peptide conjugates such as Pip that facilitate accurate targeting to the central nervous system, are explored to increase the efficiency of exon 7 inclusion in the appropriate tissues to ameliorate the SMA phenotype. Due to the rapid advancement of treatments for SMA following the discovery of ISS-N1, the future of SMA treatment is highly promising.

Nusinersen in the Treatment of Spinal Muscular Atrophy.

Spinal muscular atrophy (SMA) is one of the most common genetic causes of infantile death arising due to mutations in the SMN1 gene and the subsequent loss of motor neurons. With the discovery of the intronic splicing silencer N1 (ISS-N1) as a potential target for antisense therapy, several antisense oligonucleotides (ASOs) are being developed to include exon 7 in the final mRNA transcript of the SMN2 gene and thereby increasing the production of spinal motor neuron (SMN) proteins. Nusinersen (spinraza), a modified 2'-O-methoxyethyl (MOE) antisense oligonucleotide is the first drug to be approved by Food and Drug Agency (FDA) in December of 2016. Here we briefly review the pharmacological relevance of the drug, clinical trials, toxicity, and future directions following the approval of nusinersen.

In Vitro Evaluation of Antisense-Mediated Exon Inclusion for Spinal Muscular Atrophy.

Spinal muscular atrophy (SMA), the most common gentic cause of infantile death caused by mutations in the SMN1 gene, presents a unique case in the field of splice modulation therapy, where a gene (or lack of) is responsible for causing the disease phenotype but treatment is not focused around it. Antisense therapy targeting SMN2 which leads to SMN protein expression has been at the forefront of research when it comes to developing a feasible therapy for treating SMA. Recent FDA approval of an antisense-based drug with the 2'-methoxyethoxy (2'MOE) chemistry, called nusinersen (Spinraza), brought antisense drugs into the spotlight. The 2'MOE, although effective, has weaknesses such as the inability to cross the blood-brain barrier and the high cost of treatment. This propelled the research community to investigate new chemistries of antisense oligonucleotides (ASOs) that may be better in both treatment and cost efficiency. Here we describe two types of ASOs, phosphorodiamidate morpholino oligomers (PMOs) and locked nucleic acids (LNA)-DNA mixmers, being investigated as potential treatments for SMA, and methods used to test their efficacy, including quantitative RT-PCR, Western blotting, and immunofluorescence staining to detect SMN in nuclear gems/Cajal bodies, in type I SMA patient fibroblast cell lines.

Systemic and ICV Injections of Antisense Oligos into SMA Mice and Evaluation.

Spinal muscular atrophy (SMA) is the most common genetic cause of infantile death caused by mutations in the SMN1 gene. Nusinersen (Spinraza), an antisense therapy-based drug with the 2'-methoxyethoxy (2'MOE) chemistry approved by the FDA in 2016, brought antisense drugs into the spotlight. Antisense-mediated exon inclusion targeting SMN2 leads to SMN protein expression. Although effective, 2'MOE has weaknesses such as the inability to cross the blood-brain barrier and the high cost of treatment. To investigate new chemistries of antisense oligonucleotides (ASOs), SMA mouse models can serve as an important source. Here we describe methods to test the efficacy of ASOs, such as phosphorodiamidate morpholino oligomers (PMOs), in a severe SMA mouse model.

Nusinersen in type 1 SMA infants, children and young adults: Preliminary results on motor function.

We report preliminary data on the six month use of Nusinersen in 104 type 1 patients of age ranging from three months to 19 years, 9 months. Ten of the 104 were classified as 1.1, 58 as 1.5 and 36 as 1.9. Three patients had one SMN2 copy, 65 had two and 24 had three copies. In 12 the SMN2 copy number was not available. After six months an improvement of more than two points was found in 58 of the 104 (55.7%) on the CHOP INTEND and in 21 of the 104 (20.19%) on the Hammersmith Infant Neurological Examination (HINE). Changes more than two points were found in 26/71 patients older than two years, and in seven of the 20 older than 10 years. Changes ≥ four points were found in 20/71 older than two years, and in six of the 20 patients older than 10 years. The difference between baseline and six months on both CHOP INTEND and HINE was significant for the whole group (p < 0.001) as well as for the subgroups with two (p < 0.001), and three SMN2 copies (p < 0.001). Our preliminary results suggest that functional improvement can be observed in type 1 patients outside the range of the inclusion criteria used in the Endear study.

Síndrome de Werdnig-Hoffmann / Werdnig-Hoffmann disease

Introducción: El síndrome de Werdnig-Hoffmann o atrofia espinal tipo I forma parte de las atrofias musculares espinales y es la más grave de las tres formas clínicas existentes. Tiene carácter hereditario autosómico recesivo, no tiene tratamiento, es de carácter progresivo y por lo general culmina con la muerte del paciente entre el primero y segundo año de vida. Objetivo: Describir la conducta de la vía respiratoria anatómicamente difícil conocida en un paciente con síndrome de Werdnig-Hoffmann operado de litiasis renal derecha. Caso clínico: Paciente masculino de 39 años de edad, nivel de escolaridad superior, con diagnóstico de litiasis obstructiva en riñón derecho, propuesto para realizar una nefrolitotomía percutánea. Los exámenes en la consulta de anestesia diagnosticaron una vía respiratoria anatómicamente difícil. Pese a contar con la colaboración del paciente, personal entrenado, equipamiento necesario y proceder según los algoritmos recomendados en la literatura, se necesitó una vía quirúrgica para realizar la operación. Se efectúo el proceder quirúrgico propuesto sin complicación y el paciente salió del quirófano despierto y consiente. Conclusión: De requerirse otra intervención quirúrgica, sería necesario iniciar la intubación mediante fibroscopía óptica para evitar el edema de las vías respiratorias. De no obtenerse una vía respiratoria segura por este método, el paciente precisaría una vía aérea quirúrgica(AU)

Introduction: Werdnig-Hoffmann disease or spinal atrophy type I is part of the spinal muscular atrophies and the most serious of the three clinical forms in existence. It is an autosomal recessive hereditary condition, with no treatment, progressive in nature and usually culminates with the death of the patient between the first and second year of life. Objective: To describe the behavior of the anatomically difficult airway identified in a patient with Werdnig-Hoffmann disease operated for right renal lithiasis. Clinical case: Male patient at age 39, higher education level, with a diagnosis of obstructive lithiasis in the right kidney, proposed to be performed a percutaneous nephrolithotomy. The exams in the anesthesia consultation provided diagnosis of an anatomically difficult airway. Despite having the cooperation of the patient, trained personnel, necessary equipment and proceeding according to the algorithms recommended in the literature, a surgical approach was needed to perform the operation. The proposed surgical procedure was carried out without complications and the patient left the operating room awake and conscious. Conclusion: In case that another surgical intervention is required, it would be necessary to initiate intubation by optical fibroscopy in order to avoid edema of the respiratory tract. In case a safe airway is not obtained by this method, the patient would need a surgical airway(AU)

Spinal muscular atrophy.

Autosomal-recessive proximal spinal muscular atrophy (Werdnig-Hoffmann, Kugelberg-Welander) is caused by mutation of the SMN1 gene, and the clinical severity correlates with the number of copies of a nearly identical gene, SMN2. The SMN protein plays a critical role in spliceosome assembly and may have other cellular functions, such as mRNA transport. Cell culture and animal models have helped to define the disease mechanism and to identify targets for therapeutic intervention. The main focus for developing treatment has been to increase SMN levels, and accomplishing this with small molecules, oligonucleotides, and gene replacement has been quite. An oligonucleotide, nusinersen, was recently approved for treatment in patients, and confirmatory studies of other agents are now under way.

[Spinal muscular atrophy : Time for newborn screening?] / Spinale Muskelatrophie : Zeit für das Neugeborenenscreening?

The most common neurodegenerative disease in childhood is spinal muscular atrophy (SMA). The severe infantile type 1 (Werdnig-Hoffman disease) makes 60% of SMA in total. These children usually die within 18 months without ventilation. New therapeutic approaches have led from the theoretical concept to randomized controlled clinical trials in patients. For the first time, a pharmacological treatment of SMA has been approved. The early detection of the disease is decisive for the success of therapy. All previous data suggest starting treatment early and when possible prior to the onset of symptoms considerably improves the outcome in comparison to a delayed start. The goal must be the presymptomatic diagnosis in order to initiate treatment before motor neuron degeneration. Technical and ethical prerequisites for a molecular genetic newborn screening are given.

Spinal Muscular Atrophy Type I: Is It Ethical to Standardize Supportive Care Intervention in Clinical Trials?

The natural history of spinal muscular atrophy type I (SMA-I) has changed as improved medical support has become available. With investigational drugs for spinal muscular atrophy now in clinical trials, efficient trial design focuses on enrolling recently diagnosed infants, providing best available supportive care, and minimizing subject variation. The quandary has arisen whether it is ethically appropriate to specify a predefined level of nutritional and/or ventilation support for spinal muscular atrophy type I subjects while participating in these studies. We conducted a survey at 2 spinal muscular atrophy investigator meetings involving physician investigators, clinical evaluators, and study coordinators from North America, Europe, and Asia-Pacific. Each group endorsed the concept that having a predefined degree of nutritional and ventilation support was warranted in this context. We discuss how autonomy, beneficence/non-maleficence, noncoercion, social benefit, and equipoise can be maintained when a predefined level of supportive care is proposed, for participation in a clinical trial.

Spinal muscular atrophies.

Spinal muscular atrophies (SMAs) are hereditary degenerative disorders of lower motor neurons associated with progressive muscle weakness and atrophy. Proximal 5q SMA is caused by decreased levels of the survival of motor neuron (SMN) protein and is the most common genetic cause of infant mortality. Its inheritance pattern is autosomal recessive, resulting from mutations involving the SMN1 gene on chromosome 5q13. Unlike other autosomal recessive diseases, the SMN gene has a unique structure (an inverted duplication) that presents potential therapeutic targets. Although there is currently no effective treatment of SMA, the field of translational research in this disorder is active and clinical trials are ongoing. Advances in the multidisciplinary supportive care of children with SMA also offer hope for improved life expectancy and quality of life.

Blake's pouch cyst and Werdnig-Hoffmann disease: Report of a new association and review of the literature.

BACKGROUND: We report a case of a neonate with proximal spinal muscular atrophy (SMA) type 1 (also known as Werdnig-Hoffmann disease or severe infantile acute SMA) associated with a Blake's pouch cyst; a malformation that is currently classified within the spectrum of Dandy-Walker complex. The association of the two conditions has not been previously reported in the English literature. A comprehensive review of the pertinent literature is presented. CASE DESCRIPTION: A male neonate was noted to have paucity of movement of the four limbs with difficulty of breathing and poor feeding soon after birth. Respiratory distress with tachypnea, necessitated endotracheal intubation and mechanical ventilation. Pregnancy was uneventful except for decreased fetal movements reported by the mother during the third trimester. Neurological examination revealed generalized hypotonia with decreased muscle power of all limbs, nonelicitable deep tendon jerks, and occasional tongue fasciculations. Molecular genetic evaluation revealed a homozygous deletion of both exons 7 and 8 of the survival motor neuron 1 (SMN1) gene, and exon 5 of the neuronal apoptosis inhibitory protein (NAIP) gene on the long arm of chromosome 5 consistent with Werdnig-Hoffmann disease (SMA type 1). At the age of 5 months, a full anterior fontanelle and abnormal increase of the occipito-frontal circumference were noted. Computed tomographic (CT) scan and magnetic resonance imaging (MRI) of the brain revealed a tetraventricular hydrocephalus and features of Blake's pouch cyst of the fourth ventricle. CONCLUSIONS: This case represents a previously unreported association of Blake's pouch cyst and SMA type 1.