Onset of symptoms and diagnostic delay In the classic
phenotype, the onset of this disease is usually noticed in childhood, but often not diagnosed until the third or fourth decade of life, frequently due to misdiagnosis and dismissal of symptoms. As of 2017, there have been two reported cases of this specific homozygous mutation and phenotype.
Fatal infantile-onset phenotype There is an ultra-rare, fatal infantile-onset phenotype that results in profound muscle weakness ("
floppy baby") and respiratory failure within weeks of birth (perinatal asphyxia). Post-mortem biopsy showed a deficiency of myophosphorylase and abnormal glycogen accumulation in skeletal muscle tissue. This phenotype may also include premature birth and joint contractures. Two reported cases, in 1978 and 1989.
Mild phenotype There is an ultra-rare mild phenotype caused by recessive
heterozygous alleles in the PYGM gene, where one allele is a common
exon mutation and the other allele is an ultra-rare
intronic mutation. It can also be caused by recessive homozygous intronic mutations. These intronic mutations result in a milder phenotype compared to the classic phenotype of McArdle disease. There is residual myophosphorylase activity, between 1-2% residual activity compared to unaffected individuals. This results in greater exercise capacity compared to classic phenotype McArdle individuals, particularly for sustained aerobic activity, but the capacity was still below that of unaffected individuals. In this mild phenotype, since their early teens, they did experience cramping and premature muscle fatigue during sudden vigorous exercise and prolonged isometric exercise; however, due to their less diminished capacity for aerobic activity, they were able to keep up with their peers in sports and everyday activities. As of 2009, there have been 3 reported cases of non-related individuals, a reported
Druze family of
consanguineous (related) individuals and 9 reported cases in two
Finnish families.
Common signs and symptoms The most prominent symptom is that of
exercise intolerance which includes: • premature
muscle fatigue (particularly for anaerobic activity and high-intensity aerobic activity, which may be described as inability to keep up with peers or reduced stamina); • exercise-induced painful cramps; • inappropriate
rapid heart rate response to exercise; • exaggerated cardiorespiratory response to exercise (
heavy or
rapid breathing with inappropriately rapid heart rate); •
second wind phenomenon (muscle fatigue and heart rate improve for aerobic activity after approximately 6–10 minutes). In 2020, the largest study to-date of 269 GSD-V patients, 39.4% reported no previous episodes of myoglobinuria and 6.8% had normal CK (including those with fixed muscle weakness); so an absence of myoglobinuria and normal CK should not rule out the possibility of the disease. Between 33-51.4% develop fixed
muscle weakness, typically of the trunk and upper body, with the onset of muscle weakness usually occurring later in life (40+ years of age). Idiopathic leg pains were common in children, usually occurring at night, often presumed to be "growing pains" and not investigated further. Several comorbidities were found in GSD-V individuals at a higher rate than in the general population, including (but not limited to): hypertension (17%), endocrine diseases (15.7%), musculoskeletal/rheumatic disease (12.9%), hyperuricemia/gout (11.6%), gastrointestinal diseases (11.2%), neurological disease (10%), respiratory disease (9.5%), and coronary artery disease (8.3%). Besides exercise-induced premature muscle fatigue, GSD-V individuals may also have comorbidities of mental fatigue, general fatigue, reduced motivation, sleep disturbances, anxiety, and depression. They may exhibit a
"second wind" phenomenon, which is characterized by the individual's better tolerance for aerobic exercise such as walking and cycling after approximately 10 minutes. This is attributed to the combination of increased blood flow and the ability of the body to find alternative sources of energy, like fatty acids, proteins, and increased blood glucose uptake. which runs when the ATP reservoir is low. The myokinase reaction is one of three reactions in the
phosphagen system (ATP-PCr), with the myokinase reaction occurring after phosphocreatine (creatine phosphate) has been depleted. In McArdle disease individuals, their muscle cells produce far more AMP than non-affected individuals as the reduced glycolytic flux from impaired glycogenolysis results in a chronically low ATP reservoir during exercise. To avoid health complications, GSD-V patients need to get their ATP primarily from free fatty acids (
lipid metabolism) rather than
protein metabolism. Over-reliance on protein metabolism can be best avoided by not depleting their ATP reservoir, such as by not pushing through the pain and by not going too fast, or too soon. Patients may present at emergency rooms with a transient
contracture of the muscles and often severe pain (e.g. "clawed hand"). These require urgent assessment for
rhabdomyolysis as in about 30% of cases this leads to
acute kidney injury, which left untreated can be life-threatening. In a small number of cases
compartment syndrome has developed, requiring prompt surgical referral. ==Genetics==