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Pyridoxine (vitamin B6)-dependent epilepsy 1
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PLPBP
| PLPBP (PLPHP) deficiency 2 | Secondary biochemical abnormalities suggesting abnormal vitamin B6 metabolism may be present, as may lactic acidosis. | Szs in affected children respond to supraphysiologic doses of PN (or PLP). | Majority have sz onset w/in 1st wk of life; some children present as late as 6 mos. 3 Acquired microcephaly, structural brain abnormalities, & DD/ID are variable. |
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PNPO
| PNPO deficiency 2 | Low CSF & plasma levels of PLP when measured prior to administration of PN or PLP. Biochemical changes in CSF, plasma, & urine prior to treatment w/PN or PLP indicative of ↓ activity of PLP-dependent enzymes (e.g., aromatic acid decarboxylase or glycine cleavage enzyme). | Szs in affected children respond to supraphysiologic doses of PLP (60% of affected persons) or PN (40% of affected persons). | ~90% have sz onset in neonatal period (often age <2 wks); some children present as late as age 3 yrs. ≥60% have DD/ID. |
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Pyridoxine (vitamin B6)-responsive seizures 4
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ALDH4A1
| Hyperprolinemia type II 2 (OMIM 239510) | Markedly ↑ plasma proline levels as well as ↑ P5C in urine | Szs may respond to ASM & PN. | Szs usually manifest beyond neonatal period, may occur w/febrile infections, & may respond to common ASM. Persons may have ID or normal intelligence. |
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ALPL
| Infantile hypophosphatasia 5 | Suspected in presence of ↓ serum ALP enzyme activity (based on appropriate pediatric normative reference values) | Vitamin B6-responsive seizures may occur. | Clinical signs resembling rickets may be recognized between birth & age 6 mos. Prior to availability of ERT, ~50% died of respiratory failure caused by undermineralization of ribs. Intractable szs may precede biochemical or radiographic manifestations of rickets. |
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CACNA1A
| Developmental & epileptic encephalopathy 42 6 (OMIM 617106) | No assoc biochemical abnormalities | A female w/CACNA1A-related absence epilepsy & ataxia responded dramatically to PN. 7 | |
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KCNQ2
| KCNQ2-related disorders 6 | No assoc biochemical abnormalities | Some w/neonatal epilepsy are vitamin B6 responsive. 8 | May present w/benign familial neonatal epilepsy or severe neonatal epileptic encephalopathy. Szs are tonic & often asymmetric. |
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MOCS2
| MOSC2-related molybdenum cofactor deficiency 2 | When present, ↑ α-AASA is secondary to ALDH7A1 inhibition by accumulated S-sulfocysteine. | A clear but transient response of szs to PN observed in 2 affected sibs 9 | |
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PGAP3
| Hyperphosphatasia w/ID syndrome 4 2 (OMIM 615716) | ↑ serum ALP | Szs may respond to PN. | DD/ID, structural brain anomalies, dysmorphic facies, & szs |
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PIGA
| Multiple congenital anomalies-hypotonia-seizures syndrome 2 10 (OMIM 300868) | ↑ serum ALP in some persons | Heterogeneous effect of PN on szs | Dysmorphic features, hypotonia, early-onset myoclonic seizures, & variable congenital anomalies |
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PIGL
| CHIME syndrome 2 (OMIM 280000) | ↑ serum ALP | Szs may respond to PN (but much more slowly than in PDE-ALDH7A1). | Coloboma, congenital heart disease, ichthyosiform dermatosis, ID, & ear anomalies |
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PIGO
| Hyperphosphatasia w/ID syndrome 2 2 (OMIM 614749) | ↑ serum ALP | Szs w/variable response to PN | Moderate-to-severe DD/ID; facial dysmorphism & brachytelephalangy ± szs |
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PIGS
| Developmental & epileptic encephalopathy 95 2 (OMIM 618143) | Normal serum ALP (except mildly ↑ in 1 person) | Szs may be PN responsive. | Severe DD/ID, ataxia, hypotonia, coarse facies, & intractable szs |
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PIGV
| Hyperphosphatasia w/ID syndrome 1 2 (OMIM 239300) | ↑ serum ALP | Variable neurologic features incl szs that may respond to PN | Distinct facial phenotype, DD, & brachytelephalangy ± anorectal malformations |
