Women who have had multiple children of the same sex are more likely to have another baby of the same sex, a new study has found.
Maternal age and genetics could be ‘weighting the coin toss’ for some couples, rather than every child having a truly random 50/50 chance of being a boy or a girl.
The study also showed that older mothers were more likely to have children of the same sex, and revealed two genes that could increase the likelihood of having all female or all male children, respectively.
A child’s sex at conception is determined by whether the sperm carries an X or Y chromosome, which should mean it’s a perfect coin flip over whether a child will be a boy or a girl.
However, PhD student Siwen Wang from Harvard University noticed this didn’t always seem to be the case.
“This project actually began with casual conversations among co-authors and friends about families we knew who had all boys or all girls,” said Wang to BBC Science Focus.
“It came up often enough that we started wondering: is it really just chance? Or is there a biological reason some families keep having children of the same sex?”
Wang and her colleagues drew on information from more than 58,007 women who had given birth to two or more children, checking if there were more families with siblings of all the same sex than you might expect due to random chance.
They found that if a couple had already had three boys, they had a 61 per cent chance of having another boy. Similarly, there was a 58 per cent chance of having another girl after having three girls.
The study identified a few factors that potentially tipped the scales in favour of all girl or all boy families.
“Women who had their first child after age 28 had about a 10 per cent higher chance of having only boys or only girls, compared to those who started before age 23,” said Wang. “So it’s not a huge shift, but it’s statistically significant.”
Though the study didn’t look into what might be causing this link, Wang did speculate on a few theories.
“As women age, they experience physiological changes such as shorter follicular phase and lower vaginal pH,” she said.
The follicular phase is the first stage of the menstrual cycle and tends to favour the survival of Y-chromosome sperm. Lower vaginal pH, however, favours X-chromosome sperm.
“These effects may differ from woman to woman, so ageing may tip the balance toward one sex or the other, depending on their specific biology,” said Wang.
Wang also suggested another possible connection.
“Older maternal age is usually highly associated with older paternal age. But unfortunately, we did not have paternal data to explore this aspect in our study," said Wang.
The researchers were also able to obtain genetic information for 7,530 women included in the study, looking for any relevant genetic markers. They found two – SNP NSUN6, which was associated with all female offspring; and SNP TSHZ1, which correlated to all male.
Wang also looked into whether behavioural factors could be creating such runs of single-sex children, such as couples who keep having boys continuing to have children until they have a girl, and vice versa.
“We ran analyses where we excluded the last birth in each family, which is the one most likely to be influenced by parents stopping once they’ve had both a boy and a girl. Even after doing that, we still see strong same-sex clustering,” said Wang.
About our expert
Siwen Wang is a PhD student in Nutritional Epidemiology at Harvard T.H. Chan School of Public Health. She investigates how nutrition, lifestyle, and psychosocial factors affect maternal and child health.
https://www.sciencefocus.com/news/boys-girls-birth
Sunday, April 12, 2026
Tuesday, April 7, 2026
CACNA1E mutation
Kayleigh and Ryan Dunn’s 11-month-old daughter, Lorelei, was diagnosed with CACNA1E. Due to this neurological condition, she lives with mobility challenges, experiences frequent seizures and requires a feeding tube.
Patrick Lawlor, Lorelei's neurologist in Michigan, described the severity of CACNA1E to local news outlet WXYZ, saying, “The lack of progress is something that really signals how severe her disorder is. Probably one of the most severe children I’ve taken care of. She has clusters of brief seizures. Sometimes 10 or 20 times per day.”
The Michigan mom explained that it's “even harder” because Lorelei has “no head control or upper body control.” Kayleigh added, "Even though we’re desensitized. It breaks my heart to see her like this."
Kayleigh has been documenting Lorelei's health journey on TikTok, inciting an outpouring of love and support, including when she had a G-tube surgery in January.
"She took it like a champ, and I could not be prouder of her," Kayleigh captioned the TikTok video. "I cannot wait to get her home and comfortable in her own bed. But for now, I’m going to enjoy this quiet moment alone in our little hospital room, just the two of us."
Kayleigh told WXYZ that Lorelei, who enjoys bath time, is nonverbal, adding, “For someone who is nonverbal, she is very vocal.”
The mother is hopeful that their family’s story encourages other people to get tested for neurological conditions.
Angela Munaco, one of the family’s close friends set up a GoFundMe to help the family cover Lorelei's medical bills and other costs.
“Shortly after her diagnosis, Kayleigh’s husband [Ryan] suffered a serious back injury at work, leaving him unable to work for several months,” the GoFundMe said. “Between his recovery, endless doctor appointments, and the long wait for state approval of Lorelei’s special needs insurance, Kayleigh had no choice but to step back from full-time work. She now works part-time when she can, balancing her career with being Lorelei’s full-time caregiver.”
Kayleigh told WXYZ, “I just want [Lorelei] to know I tried everything I can to make her better.”
Lexi Lane
https://people.com/michigan-girl-diagnosed-with-rare-genetic-disorder-cacna1e-11940319
Di Micco V, Affronte L, Khinchi MS, Rønde G, Miranda MJ, Hammer TB, Specchio N, Beniczky S, Olofsson K, Møller RS, Gardella E. Seizure and movement disorder in CACNA1E developmental and epileptic encephalopathy: Two sides of the same coin or same side of two different coins? Epileptic Disord. 2024 Aug;26(4):520-526. doi: 10.1002/epd2.20242. Epub 2024 May 23. PMID: 38780451.
Abstract
Pathogenic variants in CACNA1E are associated with early-onset epileptic and developmental encephalopathy (DEE). Severe to profound global developmental delay, early-onset refractory seizures, severe hypotonia, and macrocephaly are the main clinical features. Patients harboring the recurrent CACNA1E variant p.(Gly352Arg) typically present with the combination of early-onset DEE, dystonia/dyskinesia, and contractures. We describe a 2-year-and-11-month-old girl carrying the p.(Gly352Arg) CACNA1E variant. She has a severe DEE with very frequent drug-resistant seizures, profound hypotonia, and episodes of dystonia and dyskinesia. Long-term video-EEG-monitoring documented subsequent tonic asymmetric seizures during wakefulness and mild paroxysmal dyskinesias of the trunk out of sleep which were thought to be a movement disorder and instead turned out to be focal hyperkinetic seizures. This is the first documented description of the EEG findings in this disorder. Our report highlights a possible overlap between cortical and subcortical phenomena in CACNA1E-DEE. We also underline how a careful electro-clinical evaluation might be necessary for a correct discernment between the two disorders, playing a fundamental role in the clinical assessment and proper management of children with CACNA1E-DEE.
Ortiz Cabrera NV, Duat Rodríguez A, Fernández Garoz B, Bernardino Cuesta B, Jiménez Legido M, Cantarín Extremera V, García Peñas JJ. Dystonia and Contractures are Potential Early Signs of CACNA1E-Related Epileptic Encephalopathy. Mol Syndromol. 2021 Mar;12(1):25-32. doi: 10.1159/000511926. Epub 2020 Dec 10. PMID: 33776624; PMCID: PMC7983621.
Abstract
Epileptic encephalopathy related to CACNA1E has been described as a severe neurodevelopmental disorder presenting with early-onset refractory seizures, hypotonia, macrocephaly, hyperkinetic movements, and contractures and is associated with an autosomal dominant inheritance pattern. Most pathogenic variants described to date are missense variants with a gain of function effect, and the role of haploinsufficiency has yet to be clarified. We describe 2 cases of CACNA1E encephalopathy. Notable findings include congenital contractures and movement disorders predating onset of epilepsy, particularly dystonia. We further compared the key phenotypic features depending on variant location. In conclusion, the appearance of congenital contractures, areflexia, and movement disorders before the onset of epilepsy may provide key guidance in the diagnosis of epileptic CACNA1E encephalopathy. A genotype-phenotype correlation was found between the presence of movement disorders and severe intellectual disability and the location of the variant in the CACNA1E gene.
Helbig KL, Lauerer RJ, Bahr JC, Souza IA, Myers CT, Uysal B, Schwarz N, Gandini MA, Huang S, Keren B, Mignot C, Afenjar A, Billette de Villemeur T, Héron D, Nava C, Valence S, Buratti J, Fagerberg CR, Soerensen KP, Kibaek M, Kamsteeg EJ, Koolen DA, Gunning B, Schelhaas HJ, Kruer MC, Fox J, Bakhtiari S, Jarrar R, Padilla-Lopez S, Lindstrom K, Jin SC, Zeng X, Bilguvar K, Papavasileiou A, Xing Q, Zhu C, Boysen K, Vairo F, Lanpher BC, Klee EW, Tillema JM, Payne ET, Cousin MA, Kruisselbrink TM, Wick MJ, Baker J, Haan E, Smith N, Sadeghpour A, Davis EE, Katsanis N; Task Force for Neonatal Genomics; Corbett MA, MacLennan AH, Gecz J, Biskup S, Goldmann E, Rodan LH, Kichula E, Segal E, Jackson KE, Asamoah A, Dimmock D, McCarrier J, Botto LD, Filloux F, Tvrdik T, Cascino GD, Klingerman S, Neumann C, Wang R, Jacobsen JC, Nolan MA, Snell RG, Lehnert K, Sadleir LG, Anderlid BM, Kvarnung M, Guerrini R, Friez MJ, Lyons MJ, Leonhard J, Kringlen G, Casas K, El Achkar CM, Smith LA, Rotenberg A, Poduri A, Sanchis-Juan A, Carss KJ, Rankin J, Zeman A, Raymond FL, Blyth M, Kerr B, Ruiz K, Urquhart J, Hughes I, Banka S; Deciphering Developmental Disorders Study; Hedrich UBS, Scheffer IE, Helbig I, Zamponi GW, Lerche H, Mefford HC. De Novo Pathogenic Variants in CACNA1E Cause Developmental and Epileptic Encephalopathy with Contractures, Macrocephaly, and Dyskinesias. Am J Hum Genet. 2018 Nov 1;103(5):666-678. doi: 10.1016/j.ajhg.2018.09.006. Epub 2018 Oct 18. Erratum in: Am J Hum Genet. 2019 Mar 7;104(3):562. doi: 10.1016/j.ajhg.2019.02.015. PMID: 30343943; PMCID: PMC6216110.
Abstract
Developmental and epileptic encephalopathies (DEEs) are severe neurodevelopmental disorders often beginning in infancy or early childhood that are characterized by intractable seizures, abundant epileptiform activity on EEG, and developmental impairment or regression. CACNA1E is highly expressed in the central nervous system and encodes the α1-subunit of the voltage-gated CaV2.3 channel, which conducts high voltage-activated R-type calcium currents that initiate synaptic transmission. Using next-generation sequencing techniques, we identified de novo CACNA1E variants in 30 individuals with DEE, characterized by refractory infantile-onset seizures, severe hypotonia, and profound developmental impairment, often with congenital contractures, macrocephaly, hyperkinetic movement disorders, and early death. Most of the 14, partially recurring, variants cluster within the cytoplasmic ends of all four S6 segments, which form the presumed CaV2.3 channel activation gate. Functional analysis of several S6 variants revealed consistent gain-of-function effects comprising facilitated voltage-dependent activation and slowed inactivation. Another variant located in the domain II S4-S5 linker results in facilitated activation and increased current density. Five participants achieved seizure freedom on the anti-epileptic drug topiramate, which blocks R-type calcium channels. We establish pathogenic variants in CACNA1E as a cause of DEEs and suggest facilitated R-type calcium currents as a disease mechanism for human epilepsy and developmental disorders.
Patrick Lawlor, Lorelei's neurologist in Michigan, described the severity of CACNA1E to local news outlet WXYZ, saying, “The lack of progress is something that really signals how severe her disorder is. Probably one of the most severe children I’ve taken care of. She has clusters of brief seizures. Sometimes 10 or 20 times per day.”
The Michigan mom explained that it's “even harder” because Lorelei has “no head control or upper body control.” Kayleigh added, "Even though we’re desensitized. It breaks my heart to see her like this."
Kayleigh has been documenting Lorelei's health journey on TikTok, inciting an outpouring of love and support, including when she had a G-tube surgery in January.
"She took it like a champ, and I could not be prouder of her," Kayleigh captioned the TikTok video. "I cannot wait to get her home and comfortable in her own bed. But for now, I’m going to enjoy this quiet moment alone in our little hospital room, just the two of us."
Kayleigh told WXYZ that Lorelei, who enjoys bath time, is nonverbal, adding, “For someone who is nonverbal, she is very vocal.”
The mother is hopeful that their family’s story encourages other people to get tested for neurological conditions.
Angela Munaco, one of the family’s close friends set up a GoFundMe to help the family cover Lorelei's medical bills and other costs.
“Shortly after her diagnosis, Kayleigh’s husband [Ryan] suffered a serious back injury at work, leaving him unable to work for several months,” the GoFundMe said. “Between his recovery, endless doctor appointments, and the long wait for state approval of Lorelei’s special needs insurance, Kayleigh had no choice but to step back from full-time work. She now works part-time when she can, balancing her career with being Lorelei’s full-time caregiver.”
Kayleigh told WXYZ, “I just want [Lorelei] to know I tried everything I can to make her better.”
Lexi Lane
https://people.com/michigan-girl-diagnosed-with-rare-genetic-disorder-cacna1e-11940319
Di Micco V, Affronte L, Khinchi MS, Rønde G, Miranda MJ, Hammer TB, Specchio N, Beniczky S, Olofsson K, Møller RS, Gardella E. Seizure and movement disorder in CACNA1E developmental and epileptic encephalopathy: Two sides of the same coin or same side of two different coins? Epileptic Disord. 2024 Aug;26(4):520-526. doi: 10.1002/epd2.20242. Epub 2024 May 23. PMID: 38780451.
Abstract
Pathogenic variants in CACNA1E are associated with early-onset epileptic and developmental encephalopathy (DEE). Severe to profound global developmental delay, early-onset refractory seizures, severe hypotonia, and macrocephaly are the main clinical features. Patients harboring the recurrent CACNA1E variant p.(Gly352Arg) typically present with the combination of early-onset DEE, dystonia/dyskinesia, and contractures. We describe a 2-year-and-11-month-old girl carrying the p.(Gly352Arg) CACNA1E variant. She has a severe DEE with very frequent drug-resistant seizures, profound hypotonia, and episodes of dystonia and dyskinesia. Long-term video-EEG-monitoring documented subsequent tonic asymmetric seizures during wakefulness and mild paroxysmal dyskinesias of the trunk out of sleep which were thought to be a movement disorder and instead turned out to be focal hyperkinetic seizures. This is the first documented description of the EEG findings in this disorder. Our report highlights a possible overlap between cortical and subcortical phenomena in CACNA1E-DEE. We also underline how a careful electro-clinical evaluation might be necessary for a correct discernment between the two disorders, playing a fundamental role in the clinical assessment and proper management of children with CACNA1E-DEE.
Ortiz Cabrera NV, Duat Rodríguez A, Fernández Garoz B, Bernardino Cuesta B, Jiménez Legido M, Cantarín Extremera V, García Peñas JJ. Dystonia and Contractures are Potential Early Signs of CACNA1E-Related Epileptic Encephalopathy. Mol Syndromol. 2021 Mar;12(1):25-32. doi: 10.1159/000511926. Epub 2020 Dec 10. PMID: 33776624; PMCID: PMC7983621.
Abstract
Epileptic encephalopathy related to CACNA1E has been described as a severe neurodevelopmental disorder presenting with early-onset refractory seizures, hypotonia, macrocephaly, hyperkinetic movements, and contractures and is associated with an autosomal dominant inheritance pattern. Most pathogenic variants described to date are missense variants with a gain of function effect, and the role of haploinsufficiency has yet to be clarified. We describe 2 cases of CACNA1E encephalopathy. Notable findings include congenital contractures and movement disorders predating onset of epilepsy, particularly dystonia. We further compared the key phenotypic features depending on variant location. In conclusion, the appearance of congenital contractures, areflexia, and movement disorders before the onset of epilepsy may provide key guidance in the diagnosis of epileptic CACNA1E encephalopathy. A genotype-phenotype correlation was found between the presence of movement disorders and severe intellectual disability and the location of the variant in the CACNA1E gene.
Helbig KL, Lauerer RJ, Bahr JC, Souza IA, Myers CT, Uysal B, Schwarz N, Gandini MA, Huang S, Keren B, Mignot C, Afenjar A, Billette de Villemeur T, Héron D, Nava C, Valence S, Buratti J, Fagerberg CR, Soerensen KP, Kibaek M, Kamsteeg EJ, Koolen DA, Gunning B, Schelhaas HJ, Kruer MC, Fox J, Bakhtiari S, Jarrar R, Padilla-Lopez S, Lindstrom K, Jin SC, Zeng X, Bilguvar K, Papavasileiou A, Xing Q, Zhu C, Boysen K, Vairo F, Lanpher BC, Klee EW, Tillema JM, Payne ET, Cousin MA, Kruisselbrink TM, Wick MJ, Baker J, Haan E, Smith N, Sadeghpour A, Davis EE, Katsanis N; Task Force for Neonatal Genomics; Corbett MA, MacLennan AH, Gecz J, Biskup S, Goldmann E, Rodan LH, Kichula E, Segal E, Jackson KE, Asamoah A, Dimmock D, McCarrier J, Botto LD, Filloux F, Tvrdik T, Cascino GD, Klingerman S, Neumann C, Wang R, Jacobsen JC, Nolan MA, Snell RG, Lehnert K, Sadleir LG, Anderlid BM, Kvarnung M, Guerrini R, Friez MJ, Lyons MJ, Leonhard J, Kringlen G, Casas K, El Achkar CM, Smith LA, Rotenberg A, Poduri A, Sanchis-Juan A, Carss KJ, Rankin J, Zeman A, Raymond FL, Blyth M, Kerr B, Ruiz K, Urquhart J, Hughes I, Banka S; Deciphering Developmental Disorders Study; Hedrich UBS, Scheffer IE, Helbig I, Zamponi GW, Lerche H, Mefford HC. De Novo Pathogenic Variants in CACNA1E Cause Developmental and Epileptic Encephalopathy with Contractures, Macrocephaly, and Dyskinesias. Am J Hum Genet. 2018 Nov 1;103(5):666-678. doi: 10.1016/j.ajhg.2018.09.006. Epub 2018 Oct 18. Erratum in: Am J Hum Genet. 2019 Mar 7;104(3):562. doi: 10.1016/j.ajhg.2019.02.015. PMID: 30343943; PMCID: PMC6216110.
Abstract
Developmental and epileptic encephalopathies (DEEs) are severe neurodevelopmental disorders often beginning in infancy or early childhood that are characterized by intractable seizures, abundant epileptiform activity on EEG, and developmental impairment or regression. CACNA1E is highly expressed in the central nervous system and encodes the α1-subunit of the voltage-gated CaV2.3 channel, which conducts high voltage-activated R-type calcium currents that initiate synaptic transmission. Using next-generation sequencing techniques, we identified de novo CACNA1E variants in 30 individuals with DEE, characterized by refractory infantile-onset seizures, severe hypotonia, and profound developmental impairment, often with congenital contractures, macrocephaly, hyperkinetic movement disorders, and early death. Most of the 14, partially recurring, variants cluster within the cytoplasmic ends of all four S6 segments, which form the presumed CaV2.3 channel activation gate. Functional analysis of several S6 variants revealed consistent gain-of-function effects comprising facilitated voltage-dependent activation and slowed inactivation. Another variant located in the domain II S4-S5 linker results in facilitated activation and increased current density. Five participants achieved seizure freedom on the anti-epileptic drug topiramate, which blocks R-type calcium channels. We establish pathogenic variants in CACNA1E as a cause of DEEs and suggest facilitated R-type calcium currents as a disease mechanism for human epilepsy and developmental disorders.
Monday, April 6, 2026
Cardiac disease burden in DDX3X syndrome
Carlos Gallego-Navarro, Jeanne L. Theis, Radhika Dhamija et al. Under-recognized Cardiac Disease Burden in DDX3X Syndrome: Spectrum of Cardiovascular Abnormalities and Longitudinal Outcomes, 01 April 2026, PREPRINT (Version 1) available at Research Square [https://doi.org/10.21203/rs.3.rs-9059706/v1]
Abstract
Background
DDX3X-syndrome is a rare neurodevelopmental disorder characterized by varying degrees of intellectual disability, predominantly affecting females. We present an institutional cohort supplemented by a systematic literature review, expanding the cardiovascular phenotype of DDX3X-syndrome.
Methods
We conducted a retrospective chart review of patients diagnosed with DDX3X-syndrome at Mayo Clinic. Additionally, we performed a systematic literature review to identify studies reporting cardiovascular abnormalities in patients with DDX3X-syndrome.
Results
A total of 200 patients with DDX3X-syndrome were analyzed, comprising 14 patients from our institutional cohort and 186 patients identified through a systematic review of 9 published studies. Our institutional cohort included 14 patients (12 females and 2 males) from 13 unrelated families diagnosed with DDX3X-syndrome, at a median age of 4.5 years (IQR 1.2–9.5). Echocardiogram was performed on nine patients, and cardiovascular abnormalities were found in 7 out of 9 patients who underwent echocardiography (78%), two of whom had major congenital heart defect (CHD) requiring surgical intervention. At the time of assessment, 13 individuals were still alive, while one had died at age six due to extracardiac complications. The systematic review included 9 studies involving 186 patients, of whom 32 (17.4%, 25 females and 7 males) had reported cardiovascular abnormalities, ranging from simple CHDs to more complex defects.
Conclusion
DDX3X-syndrome carries a significant cardiovascular burden, which is possibly higher than previously reported, including complex congenital heart disease requiring surgical repair. A thorough cardiovascular assessment, including an electrocardiogram and echocardiogram, should be universally recommended for all patients at the time of diagnosis.
Abstract
Background
DDX3X-syndrome is a rare neurodevelopmental disorder characterized by varying degrees of intellectual disability, predominantly affecting females. We present an institutional cohort supplemented by a systematic literature review, expanding the cardiovascular phenotype of DDX3X-syndrome.
Methods
We conducted a retrospective chart review of patients diagnosed with DDX3X-syndrome at Mayo Clinic. Additionally, we performed a systematic literature review to identify studies reporting cardiovascular abnormalities in patients with DDX3X-syndrome.
Results
A total of 200 patients with DDX3X-syndrome were analyzed, comprising 14 patients from our institutional cohort and 186 patients identified through a systematic review of 9 published studies. Our institutional cohort included 14 patients (12 females and 2 males) from 13 unrelated families diagnosed with DDX3X-syndrome, at a median age of 4.5 years (IQR 1.2–9.5). Echocardiogram was performed on nine patients, and cardiovascular abnormalities were found in 7 out of 9 patients who underwent echocardiography (78%), two of whom had major congenital heart defect (CHD) requiring surgical intervention. At the time of assessment, 13 individuals were still alive, while one had died at age six due to extracardiac complications. The systematic review included 9 studies involving 186 patients, of whom 32 (17.4%, 25 females and 7 males) had reported cardiovascular abnormalities, ranging from simple CHDs to more complex defects.
Conclusion
DDX3X-syndrome carries a significant cardiovascular burden, which is possibly higher than previously reported, including complex congenital heart disease requiring surgical repair. A thorough cardiovascular assessment, including an electrocardiogram and echocardiogram, should be universally recommended for all patients at the time of diagnosis.
Thursday, March 26, 2026
More on ARHGEF9 mutations
Wang JY, Zhou P, Wang J, Tang B, Su T, Liu XR, Li BM, Meng H, Shi YW, Yi YH, He N, Liao WP. ARHGEF9 mutations in epileptic encephalopathy/intellectual disability: toward understanding the mechanism underlying phenotypic variation. Neurogenetics. 2018 Jan;19(1):9-16. doi: 10.1007/s10048-017-0528-2. Epub 2017 Nov 13. PMID: 29130122.
Abstract
ARHGEF9 resides on Xq11.1 and encodes collybistin, which is crucial in gephyrin clustering and GABAA receptor localization. ARHGEF9 mutations have been identified in patients with heterogeneous phenotypes, including epilepsy of variable severity and intellectual disability. However, the mechanism underlying phenotype variation is unknown. Using next-generation sequencing, we identified a novel mutation, c.868C > T/p.R290C, which co-segregated with epileptic encephalopathy, and validated its association with epileptic encephalopathy. Further analysis revealed that all ARHGEF9 mutations were associated with intellectual disability, suggesting its critical role in psychomotor development. Three missense mutations in the PH domain were not associated with epilepsy, suggesting that the co-occurrence of epilepsy depends on the affected functional domains. Missense mutations with severe molecular alteration in the DH domain, or located in the DH-gephyrin binding region, or adjacent to the SH3-NL2 binding site were associated with severe epilepsy, implying that the clinical severity was potentially determined by alteration of molecular structure and location of mutations. Male patients with ARHGEF9 mutations presented more severe phenotypes than female patients, which suggests a gene-dose effect and supports the pathogenic role of ARHGEF9 mutations. This study highlights the role of molecular alteration in phenotype expression and facilitates evaluation of the pathogenicity of ARHGEF9 mutations in clinical practice.
Ghesh L, Besnard T, Nizon M, Trochu E, Landeau-Trottier G, Breheret F, Thauvin-Robinet C, Bruel AL, Kuentz P, Coubes C, Cuisset L, Mignot C, Keren B, Bézieau S, Cogné B. Loss-of-function variants in ARHGEF9 are associated with an X-linked intellectual disability dominant disorder. Hum Mutat. 2021 May;42(5):498-505. doi: 10.1002/humu.24188. Epub 2021 Mar 14. PMID: 33600053.
Abstract
ARHGEF9 defects lead to an X-linked intellectual disability disorder related to inhibitory synaptic dysfunction. This condition is more frequent in males, with a few affected females reported. Up to now, sequence variants and gross deletions have been identified in males, while only chromosomal aberrations have been reported in affected females who showed a skewed pattern of X-chromosome inactivation (XCI), suggesting an X-linked recessive (XLR) disorder. We report three novel loss-of-function (LoF) variants in ARHGEF9: A de novo synonymous variant affecting splicing (NM_015185.2: c.1056G>A, p.(Lys352=)) in one female; a nonsense variant in another female (c.865C>T, p.(Arg289*)), that is, also present as a somatically mosaic variant in her father, and a de novo nonsense variant in a boy (c.899G>A; p.(Trp300*)). Both females showed a random XCI. Thus, we suggest that missense variants are responsible for an XLR disorder affecting males and that LoF variants, mainly occurring de novo, may be responsible for an X-linked dominant disorder affecting males and females.
Aarabi M, Kessler E, Madan-Khetarpal S, Surti U, Bellissimo D, Rajkovic A, Yatsenko SA. Autism spectrum disorder in females with ARHGEF9 alterations and a random pattern of X chromosome inactivation. Eur J Med Genet. 2019 Apr;62(4):239-242. doi: 10.1016/j.ejmg.2018.07.021. Epub 2018 Jul 23. PMID: 30048823.
Abstract
Proper function of GABAergic synapses depends upon the postsynaptic compartment anchoring of neurotransmitter receptors to the membrane by gephyrin and collybistin (Cb). In humans, Cb is encoded by ARHGEF9 on Xq11.1. ARHGEF9 alterations, some inherited from unaffected mothers, have been reported in males with autism, seizures and severe neurodevelopmental abnormalities. In females, a spectrum of mild to moderate phenotype has been detected. We report two unrelated females with autism and mild intellectual disability. High resolution X-chromosome microarray analysis revealed de novo intragenic deletions in ARHGEF9 of 24 kb and 56 kb involving exons 5-8 and exons 3-8 and leading to truncated forms of collybistin. Peripheral blood samples revealed random X-chromosome inactivation in both patients. To explain phenotypic variability in female patients, we propose a model for disruption of collybistin and various irregular interactions in post-synaptic neurons based on X inactivation patterns. Our findings highlight the importance of ARHGEF9 integrity and suggest further research on its correlation with autism and neurobehavioral problems.
See: https://childnervoussystem.blogspot.com/2026/03/arhgef9-mutations.html
Abstract
ARHGEF9 resides on Xq11.1 and encodes collybistin, which is crucial in gephyrin clustering and GABAA receptor localization. ARHGEF9 mutations have been identified in patients with heterogeneous phenotypes, including epilepsy of variable severity and intellectual disability. However, the mechanism underlying phenotype variation is unknown. Using next-generation sequencing, we identified a novel mutation, c.868C > T/p.R290C, which co-segregated with epileptic encephalopathy, and validated its association with epileptic encephalopathy. Further analysis revealed that all ARHGEF9 mutations were associated with intellectual disability, suggesting its critical role in psychomotor development. Three missense mutations in the PH domain were not associated with epilepsy, suggesting that the co-occurrence of epilepsy depends on the affected functional domains. Missense mutations with severe molecular alteration in the DH domain, or located in the DH-gephyrin binding region, or adjacent to the SH3-NL2 binding site were associated with severe epilepsy, implying that the clinical severity was potentially determined by alteration of molecular structure and location of mutations. Male patients with ARHGEF9 mutations presented more severe phenotypes than female patients, which suggests a gene-dose effect and supports the pathogenic role of ARHGEF9 mutations. This study highlights the role of molecular alteration in phenotype expression and facilitates evaluation of the pathogenicity of ARHGEF9 mutations in clinical practice.
Ghesh L, Besnard T, Nizon M, Trochu E, Landeau-Trottier G, Breheret F, Thauvin-Robinet C, Bruel AL, Kuentz P, Coubes C, Cuisset L, Mignot C, Keren B, Bézieau S, Cogné B. Loss-of-function variants in ARHGEF9 are associated with an X-linked intellectual disability dominant disorder. Hum Mutat. 2021 May;42(5):498-505. doi: 10.1002/humu.24188. Epub 2021 Mar 14. PMID: 33600053.
Abstract
ARHGEF9 defects lead to an X-linked intellectual disability disorder related to inhibitory synaptic dysfunction. This condition is more frequent in males, with a few affected females reported. Up to now, sequence variants and gross deletions have been identified in males, while only chromosomal aberrations have been reported in affected females who showed a skewed pattern of X-chromosome inactivation (XCI), suggesting an X-linked recessive (XLR) disorder. We report three novel loss-of-function (LoF) variants in ARHGEF9: A de novo synonymous variant affecting splicing (NM_015185.2: c.1056G>A, p.(Lys352=)) in one female; a nonsense variant in another female (c.865C>T, p.(Arg289*)), that is, also present as a somatically mosaic variant in her father, and a de novo nonsense variant in a boy (c.899G>A; p.(Trp300*)). Both females showed a random XCI. Thus, we suggest that missense variants are responsible for an XLR disorder affecting males and that LoF variants, mainly occurring de novo, may be responsible for an X-linked dominant disorder affecting males and females.
Aarabi M, Kessler E, Madan-Khetarpal S, Surti U, Bellissimo D, Rajkovic A, Yatsenko SA. Autism spectrum disorder in females with ARHGEF9 alterations and a random pattern of X chromosome inactivation. Eur J Med Genet. 2019 Apr;62(4):239-242. doi: 10.1016/j.ejmg.2018.07.021. Epub 2018 Jul 23. PMID: 30048823.
Abstract
Proper function of GABAergic synapses depends upon the postsynaptic compartment anchoring of neurotransmitter receptors to the membrane by gephyrin and collybistin (Cb). In humans, Cb is encoded by ARHGEF9 on Xq11.1. ARHGEF9 alterations, some inherited from unaffected mothers, have been reported in males with autism, seizures and severe neurodevelopmental abnormalities. In females, a spectrum of mild to moderate phenotype has been detected. We report two unrelated females with autism and mild intellectual disability. High resolution X-chromosome microarray analysis revealed de novo intragenic deletions in ARHGEF9 of 24 kb and 56 kb involving exons 5-8 and exons 3-8 and leading to truncated forms of collybistin. Peripheral blood samples revealed random X-chromosome inactivation in both patients. To explain phenotypic variability in female patients, we propose a model for disruption of collybistin and various irregular interactions in post-synaptic neurons based on X inactivation patterns. Our findings highlight the importance of ARHGEF9 integrity and suggest further research on its correlation with autism and neurobehavioral problems.
See: https://childnervoussystem.blogspot.com/2026/03/arhgef9-mutations.html
Wednesday, March 25, 2026
KDM2B-related neurodevelopmental disorder
Inspired by a patient
Abstract
The KDM2B-related neurodevelopmental disorder is a recently identified Mendelian disorder of the epigenetic machinery associated with pathogenic variants in KDM2B. Global developmental delay, intellectual disability, congenital anomalies, and systemic manifestations characterize the disorder. Variants in KDM2B that primarily affect the CxxC DNA-binding domain are strongly linked to a specific epigenetic signature. We present three children with KDM2B-related neurodevelopmental disorder, each with a heterozygous variant in the CxxC domain of KDM2B. Patient 1 is a 2-year-old boy with developmental delay, solitary kidney, atrial septal defect, feeding difficulties, hemangiomas, and myopic astigmatism. Patient 2 is a 2-year-old girl with global developmental delay, hip dysplasia, feeding difficulties, hemangiomas, and myopic astigmatism. Patient 3 is a 5-year-old girl with autism, developmental delay, atrial septal defect, and ventricular septal defect, hypertrichosis, atopic dermatitis, and myopic astigmatism. Genetic analysis revealed a variant in KDM2B in each patient. Targeted methylation analysis for the epigenetic signature associated with the KDM2B-related syndrome revealed an abnormal methylation pattern consistent with a positive epigenetic signature of the disorder in individuals 2 and 3. These results provided supportive functional evidence for KDM2B-related neurodevelopmental disorder in the context of the clinical findings and KDM2B variants. Our findings emphasize the value of integrating genomic and epigenomic analyses for variant interpretation. This case series reinforces the consistent phenotype of KDM2B-related neurodevelopmental disorder and highlights ocular and dermatologic manifestations as recurring features in affected individuals.
van Jaarsveld RH, Reilly J, Cornips MC, Hadders MA, Agolini E, Ahimaz P, Anyane-Yeboa K, Bellanger SA, van Binsbergen E, van den Boogaard MJ, Brischoux-Boucher E, Caylor RC, Ciolfi A, van Essen TAJ, Fontana P, Hopman S, Iascone M, Javier MM, Kamsteeg EJ, Kerkhof J, Kido J, Kim HG, Kleefstra T, Lonardo F, Lai A, Lev D, Levy MA, Lewis MES, Lichty A, Mannens MMAM, Matsumoto N, Maya I, McConkey H, Megarbane A, Michaud V, Miele E, Niceta M, Novelli A, Onesimo R, Pfundt R, Popp B, Prijoles E, Relator R, Redon S, Rots D, Rouault K, Saida K, Schieving J, Tartaglia M, Tenconi R, Uguen K, Verbeek N, Walsh CA, Yosovich K, Yuskaitis CJ, Zampino G, Sadikovic B, Alders M, Oegema R. Delineation of a KDM2B-related neurodevelopmental disorder and its associated DNA methylation signature. Genet Med. 2023 Jan;25(1):49-62. doi: 10.1016/j.gim.2022.09.006. Epub 2022 Nov 1. PMID: 36322151; PMCID: PMC9825659.
Abstract
Purpose: Pathogenic variants in genes involved in the epigenetic machinery are an emerging cause of neurodevelopment disorders (NDDs). Lysine-demethylase 2B (KDM2B) encodes an epigenetic regulator and mouse models suggest an important role during development. We set out to determine whether KDM2B variants are associated with NDD.
Methods: Through international collaborations, we collected data on individuals with heterozygous KDM2B variants. We applied methylation arrays on peripheral blood DNA samples to determine a KDM2B associated epigenetic signature.
Results: We recruited a total of 27 individuals with heterozygous variants in KDM2B. We present evidence, including a shared epigenetic signature, to support a pathogenic classification of 15 KDM2B variants and identify the CxxC domain as a mutational hotspot. Both loss-of-function and CxxC-domain missense variants present with a specific subepisignature. Moreover, the KDM2B episignature was identified in the context of a dual molecular diagnosis in multiple individuals. Our efforts resulted in a cohort of 21 individuals with heterozygous (likely) pathogenic variants. Individuals in this cohort present with developmental delay and/or intellectual disability; autism; attention deficit disorder/attention deficit hyperactivity disorder; congenital organ anomalies mainly of the heart, eyes, and urogenital system; and subtle facial dysmorphism.
Conclusion: Pathogenic heterozygous variants in KDM2B are associated with NDD and a specific epigenetic signature detectable in peripheral blood.
van Oirsouw ASE, Hadders MA, Koetsier M, Peters EDJ, Assia Batzir N, Barakat TS, Baralle D, Beil A, Bonnet-Dupeyron MN, Boone PM, Bouman A, Carere DA, Cogne B, Dunnington L, Farach LS, Genetti CA, Isidor B, Januel L, Joshi A, Lahiri N, Lee KN, Maya I, McEntagart M, Northrup H, Pujalte M, Richardson K, Walker S, Koeleman BPC, Alders M, van Jaarsveld RH, Oegema R. KDM2B variants in the CxxC domain impair its DNA-binding ability and cause a distinct neurodevelopmental syndrome. Hum Mol Genet. 2025 Aug 16;34(16):1353-1367. doi: 10.1093/hmg/ddaf082. PMID: 40420380; PMCID: PMC12361114.
Abstract
Rare variants affecting the epigenetic regulator KDM2B cause a recently delineated neurodevelopmental disorder. Interestingly, we previously identified both a general KDM2B-associated episignature and a subsignature specific to variants in the DNA-binding CxxC domain. In light of the existence of a distinct subsignature, we set out to determine if KDM2B CxxC variants are associated with a unique phenotype and disease mechanism. We recruited individuals with heterozygous CxxC variants and assessed the variants' effect on protein expression and DNA-binding ability. We analyzed clinical data from 19 individuals, including ten previously undescribed individuals with seven novel CxxC variants. The core phenotype of the KDM2B-CxxC cohort is more extensive as compared to that of individuals with KDM2B haploinsufficiency. All individuals with CxxC variants presented with developmental delay, mainly in the speech and motor domain, in addition to variable intellectual disability and mild facial dysmorphism. Congenital heart defects were observed in up to 78% of individuals, with additional common findings including musculoskeletal, ophthalmological, and urogenital anomalies, as well as behavioral challenges and feeding difficulties. Functional assays revealed that while mutant KDM2B protein with CxxC variants can be expressed in vitro, its DNA-binding ability is significantly reduced compared to wildtype. This study shows that KDM2B CxxC variants cause a distinct neurodevelopmental syndrome, possibly through a molecular mechanism different from haploinsufficiency.
Antiseizure medication dosing strategy during pregnancy and early postpartum in women With epilepsy
A large, multicenter analysis of antiseizure medications used during pregnancy provides clinicians with clear guidance on how to adjust dosing across gestation and into the postpartum period to minimize seizures and risk to unborn babies.
New research provides medication-specific guidance for safely increasing antiseizure medication (ASM) doses during pregnancy, delivering real-world evidence the neurology community has long needed to inform care for pregnant women with epilepsy.
Earlier studies have shown that pregnancy profoundly alters the metabolism of ASMs, often necessitating dose increases two or three times over baseline pre-pregnancy levels to maintain therapeutic blood concentrations. Maintaining these levels is essential, as allowing them to fall below roughly 65 percent of baseline sharply increases the risk of breakthrough seizures.
Until recently, however, clinicians have relied largely on anecdotal experience to guide ASM dose adjustments during pregnancy. Findings from this new multicenter, prospective trial—published online Dec. 29 in Neurology—provide much-needed data to inform dosing strategies and support more systematic, evidence-based clinical decision-making, however.
This latest research was driven by a very simple question, said Page B. Pennell, MD, FAAN, chair of neurology at the University of Pittsburgh School of Medicine and the study's senior author: “How do we take what we know about drug clearance in pregnant women with epilepsy and provide guidance on medication dose adjustments based on real-world evidence that clinicians everywhere can actually adopt?”...
Frequent drug level monitoring proved essential in capturing the dynamic changes of pregnancy. Based on observed practice patterns, the study supports checking ASM levels approximately every four to six weeks, a schedule that may be more intensive than what many clinicians currently employ.
“This paper really reinforces that less-frequent monitoring, once per trimester, or only early and late in pregnancy, is probably insufficient,” Dr. Maturu said. “It gives us a much clearer sense of how often we should be checking levels and making adjustments.”
Importantly, metabolic changes begin early. Although women in MONEAD were enrolled up to 20 weeks' gestation, prior work by Dr. Pennell and colleagues has shown significant clearance changes as early as five weeks—prompting her to advise patients to contact their neurologist immediately after a positive pregnancy test...
The postpartum period has emerged as one of the most critical, and underappreciated, phases of ASM management. As pregnancy-related metabolic changes rapidly normalize, serum drug levels can rebound within days.
“In this study, the average time to dose reduction was about three days after delivery,” Dr. Maturu noted. “That's a very practical signal that we need to reassess medications almost immediately after childbirth.”
Dr. Pennell added that while doses often need to be reduced quickly, they may still remain slightly higher than pre-pregnancy levels to account for sleep deprivation, stress, and seizure vulnerability during early parenthood.
A key takeaway for Dr. Hopp was that monitoring must continue soon after birth, when ASM pharmacokinetics begin reverting toward baseline...
Both Drs. Pennell and Maturu stressed that these findings reinforce the need for routine, proactive pregnancy counseling for all patients of childbearing potential.
“About half of pregnancies in women with epilepsy are unplanned,” Dr. Maturu said. “That means these conversations can't wait until someone says they're trying to conceive.”
Preconception counseling should include establishing baseline ASM levels, explaining the likelihood of dose increases, and outlining a postpartum adjustment plan. Clear expectations improve adherence and reduce anxiety when changes become necessary, Dr. Pennell emphasized.
Dr. Hopp noted that counseling should help patients understand the rationale behind frequent monitoring and dose adjustments...
Data were also strongest for a limited number of commonly used ASMs, leaving many newer or less frequently prescribed agents understudied.
“Out of more than 30 antiseizure medications available, we have robust pregnancy safety data for only a handful of drug options,” Dr. Pennell said
https://neurologytoday.aan.com/doi/full/10.1097/01.wnt.0001189220.34776.35
Pennell PB, Li D, Kerr WT, Pack AM, French J, Gerard E, Birnbaum AK, McFarlane KN, Meador KJ; MONEAD Study Group. Antiseizure Medication Dosing Strategy During Pregnancy and Early Postpartum in Women With Epilepsy in MONEAD. Neurology. 2026 Jan 27;106(2):e214483. doi: 10.1212/WNL.0000000000214483. Epub 2025 Dec 29. PMID: 41461064.
Abstract
Background and objectives: Antiseizure medications (ASMs) undergo marked pharmacokinetic alterations during pregnancy and postpartum. Suboptimal ASM management can lead to adverse maternal and child outcomes. However, there is scant literature to guide how to adjust ASM dosing. This study analyzed how ASMs were dosed in a large observational cohort study of pregnant women with epilepsy (PWWE) who had favorable seizure outcomes.
Methods: Maternal Outcomes and Neurodevelopmental Effects of Antiepileptic Drugs (MONEAD) was a prospective, observational cohort study that enrolled PWWE 2012-2016 across 20 US epilepsy centers. Inclusion criteria were PWWE, ages 14-45 years, and <20 weeks' gestational age. Seizures and ASM type(s) and doses were documented in a daily diary. Our analysis included ASM doses in pregnancy through early postpartum (6 weeks post-delivery). For each ASM, we analyzed percent participants who underwent ≥1 dose change in pregnancy and postpartum, time of first dose change after enrollment, time to subsequent changes, amount of each dose adjustment, and percent of conception dose at delivery and 6-week postpartum.
Results: A total of 299 participants (median 31 [range 17-46] years) were eligible for analysis. Median enrollment was 14-weeks gestation. Dose increases were made in 246/363 (67.8%) of ASMs during pregnancy beginning median 32 days post-enrollment; dose decreases were made within 6 weeks post-delivery for 171/357 (47.9%) of ASMs beginning median 3 days postpartum. For lamotrigine, 128/146 (87.7%) participants had doses increased, by 100 mg/d (median), reaching 191% of conception dose (mean) by delivery. Postpartum, 103/146 (70.5%) had dose tapers, by 100 mg/d (median), to 116% of conception dose (mean) by 6 weeks. For levetiracetam, 70/125 (56.0%) participants had doses increased, by 500 mg/d (median), reaching 177% of conception dose (mean) by delivery. Postpartum, 43/125 (34.4%) had dose tapers, by 500 mg/d (median), to 136% of conception dose (mean) by 6 weeks. For other ASMs, 10/14 had doses increased in pregnancy and 8/14 were tapered early postpartum.
Discussion: Previous MONEAD analyses showed no difference in seizure control between pregnant and nonpregnant women with epilepsy. We detail how ASMs were managed in pregnancy and early postpartum to achieve this favorable outcome. These findings can be useful for the management of PWWE. Limitations of this study include limited data in the first trimester, enrollment from epilepsy centers, and limited number of participants on a wider variety of ASMs.
Maturu S, Long L. Navigating the Storm-A New Horizon: An Updated Guide for Managing Antiseizure Medications During Pregnancy and the Postpartum Period. Neurology. 2026 Jan 27;106(2):e214585. doi: 10.1212/WNL.0000000000214585. Epub 2025 Dec 29. PMID: 41461062.
Excerpt
This study by Pennell et al. offers a roadmap of guidance on increasing and decreasing ASMs during pregnancy and the postpartum period, respectively. This is particularly important considering new and updated national practice guidelines. As we move forward, it is important to confirm the benefit of medication adjustments during conception and the postpartum period and how we can use the pharmacokinetics and pharmacodynamics of all ASMs to improve outcomes for patients. Specifically, do patients that are pregnant who undergo ASM changes have better seizure control compared with those who maintain preconception doses? Is there a need to adjust ASMs in the first trimester, and if so, does earlier adjustment impact clinical outcomes? And finally, does a slightly higher dosing of ASMs in the postpartum period help with seizure burden?
New research provides medication-specific guidance for safely increasing antiseizure medication (ASM) doses during pregnancy, delivering real-world evidence the neurology community has long needed to inform care for pregnant women with epilepsy.
Earlier studies have shown that pregnancy profoundly alters the metabolism of ASMs, often necessitating dose increases two or three times over baseline pre-pregnancy levels to maintain therapeutic blood concentrations. Maintaining these levels is essential, as allowing them to fall below roughly 65 percent of baseline sharply increases the risk of breakthrough seizures.
Until recently, however, clinicians have relied largely on anecdotal experience to guide ASM dose adjustments during pregnancy. Findings from this new multicenter, prospective trial—published online Dec. 29 in Neurology—provide much-needed data to inform dosing strategies and support more systematic, evidence-based clinical decision-making, however.
This latest research was driven by a very simple question, said Page B. Pennell, MD, FAAN, chair of neurology at the University of Pittsburgh School of Medicine and the study's senior author: “How do we take what we know about drug clearance in pregnant women with epilepsy and provide guidance on medication dose adjustments based on real-world evidence that clinicians everywhere can actually adopt?”...
Frequent drug level monitoring proved essential in capturing the dynamic changes of pregnancy. Based on observed practice patterns, the study supports checking ASM levels approximately every four to six weeks, a schedule that may be more intensive than what many clinicians currently employ.
“This paper really reinforces that less-frequent monitoring, once per trimester, or only early and late in pregnancy, is probably insufficient,” Dr. Maturu said. “It gives us a much clearer sense of how often we should be checking levels and making adjustments.”
Importantly, metabolic changes begin early. Although women in MONEAD were enrolled up to 20 weeks' gestation, prior work by Dr. Pennell and colleagues has shown significant clearance changes as early as five weeks—prompting her to advise patients to contact their neurologist immediately after a positive pregnancy test...
The postpartum period has emerged as one of the most critical, and underappreciated, phases of ASM management. As pregnancy-related metabolic changes rapidly normalize, serum drug levels can rebound within days.
“In this study, the average time to dose reduction was about three days after delivery,” Dr. Maturu noted. “That's a very practical signal that we need to reassess medications almost immediately after childbirth.”
Dr. Pennell added that while doses often need to be reduced quickly, they may still remain slightly higher than pre-pregnancy levels to account for sleep deprivation, stress, and seizure vulnerability during early parenthood.
A key takeaway for Dr. Hopp was that monitoring must continue soon after birth, when ASM pharmacokinetics begin reverting toward baseline...
Both Drs. Pennell and Maturu stressed that these findings reinforce the need for routine, proactive pregnancy counseling for all patients of childbearing potential.
“About half of pregnancies in women with epilepsy are unplanned,” Dr. Maturu said. “That means these conversations can't wait until someone says they're trying to conceive.”
Preconception counseling should include establishing baseline ASM levels, explaining the likelihood of dose increases, and outlining a postpartum adjustment plan. Clear expectations improve adherence and reduce anxiety when changes become necessary, Dr. Pennell emphasized.
Dr. Hopp noted that counseling should help patients understand the rationale behind frequent monitoring and dose adjustments...
Data were also strongest for a limited number of commonly used ASMs, leaving many newer or less frequently prescribed agents understudied.
“Out of more than 30 antiseizure medications available, we have robust pregnancy safety data for only a handful of drug options,” Dr. Pennell said
https://neurologytoday.aan.com/doi/full/10.1097/01.wnt.0001189220.34776.35
Pennell PB, Li D, Kerr WT, Pack AM, French J, Gerard E, Birnbaum AK, McFarlane KN, Meador KJ; MONEAD Study Group. Antiseizure Medication Dosing Strategy During Pregnancy and Early Postpartum in Women With Epilepsy in MONEAD. Neurology. 2026 Jan 27;106(2):e214483. doi: 10.1212/WNL.0000000000214483. Epub 2025 Dec 29. PMID: 41461064.
Abstract
Background and objectives: Antiseizure medications (ASMs) undergo marked pharmacokinetic alterations during pregnancy and postpartum. Suboptimal ASM management can lead to adverse maternal and child outcomes. However, there is scant literature to guide how to adjust ASM dosing. This study analyzed how ASMs were dosed in a large observational cohort study of pregnant women with epilepsy (PWWE) who had favorable seizure outcomes.
Methods: Maternal Outcomes and Neurodevelopmental Effects of Antiepileptic Drugs (MONEAD) was a prospective, observational cohort study that enrolled PWWE 2012-2016 across 20 US epilepsy centers. Inclusion criteria were PWWE, ages 14-45 years, and <20 weeks' gestational age. Seizures and ASM type(s) and doses were documented in a daily diary. Our analysis included ASM doses in pregnancy through early postpartum (6 weeks post-delivery). For each ASM, we analyzed percent participants who underwent ≥1 dose change in pregnancy and postpartum, time of first dose change after enrollment, time to subsequent changes, amount of each dose adjustment, and percent of conception dose at delivery and 6-week postpartum.
Results: A total of 299 participants (median 31 [range 17-46] years) were eligible for analysis. Median enrollment was 14-weeks gestation. Dose increases were made in 246/363 (67.8%) of ASMs during pregnancy beginning median 32 days post-enrollment; dose decreases were made within 6 weeks post-delivery for 171/357 (47.9%) of ASMs beginning median 3 days postpartum. For lamotrigine, 128/146 (87.7%) participants had doses increased, by 100 mg/d (median), reaching 191% of conception dose (mean) by delivery. Postpartum, 103/146 (70.5%) had dose tapers, by 100 mg/d (median), to 116% of conception dose (mean) by 6 weeks. For levetiracetam, 70/125 (56.0%) participants had doses increased, by 500 mg/d (median), reaching 177% of conception dose (mean) by delivery. Postpartum, 43/125 (34.4%) had dose tapers, by 500 mg/d (median), to 136% of conception dose (mean) by 6 weeks. For other ASMs, 10/14 had doses increased in pregnancy and 8/14 were tapered early postpartum.
Discussion: Previous MONEAD analyses showed no difference in seizure control between pregnant and nonpregnant women with epilepsy. We detail how ASMs were managed in pregnancy and early postpartum to achieve this favorable outcome. These findings can be useful for the management of PWWE. Limitations of this study include limited data in the first trimester, enrollment from epilepsy centers, and limited number of participants on a wider variety of ASMs.
Maturu S, Long L. Navigating the Storm-A New Horizon: An Updated Guide for Managing Antiseizure Medications During Pregnancy and the Postpartum Period. Neurology. 2026 Jan 27;106(2):e214585. doi: 10.1212/WNL.0000000000214585. Epub 2025 Dec 29. PMID: 41461062.
Excerpt
This study by Pennell et al. offers a roadmap of guidance on increasing and decreasing ASMs during pregnancy and the postpartum period, respectively. This is particularly important considering new and updated national practice guidelines. As we move forward, it is important to confirm the benefit of medication adjustments during conception and the postpartum period and how we can use the pharmacokinetics and pharmacodynamics of all ASMs to improve outcomes for patients. Specifically, do patients that are pregnant who undergo ASM changes have better seizure control compared with those who maintain preconception doses? Is there a need to adjust ASMs in the first trimester, and if so, does earlier adjustment impact clinical outcomes? And finally, does a slightly higher dosing of ASMs in the postpartum period help with seizure burden?
Wednesday, March 18, 2026
Prenatal glucose intolerance and child neurodevelopmental disorders
Grosvenor LP, Gunderson EP, Qian Y, Alexeeff S, Ames JL, Weiss LA, Sahagun E, Ashwood P, Yolken R, Zhu Y, Van de Water J, Croen LA. Prenatal Glucose Intolerance and Child Neurodevelopmental Disorders. JAMA Netw Open. 2025 Nov 3;8(11):e2541657. doi: 10.1001/jamanetworkopen.2025.41657. PMID: 41191356; PMCID: PMC12590297.
Abstract
Importance: Gestational diabetes has been associated with risk of neurodevelopmental disorders (NDD). An improved understanding of this association can inform prevention strategies and elucidate underlying mechanisms.
Objective: To determine associations between prenatal glucose intolerance and NDD and examine differences by gestational timing and child sex.
Design, setting, and participants: This population-based case-control study examined data from electronic health records from mother-child pairs in an integrated health system in northern California. Children born January 1, 2011, to December 31, 2018, and their mothers were eligible; children were followed up for outcomes through 2023. Data were analyzed from February 2024 to March 2025.
Exposures: Gestational diabetes was determined from routine prenatal test results and categorized as diagnosed early (less than 24 weeks), standard (24 to 28 weeks), or late (more than 28 weeks) in gestation. Prenatal subclinical impaired glucose tolerance (IGT) was defined by elevated glucose screening tests and neither GDM diagnosis nor treatment.
Main outcomes and measures: Autism spectrum disorder (ASD) and developmental delay were determined from medical records. Adjusted odds ratios (aOR) for associations between prenatal exposures and NDD were estimated using multivariable logistic regression models, adjusted for child sex, birth year, maternal age, race and ethnicity, education, parity, gestational age at prenatal care entry, and prepregnancy body mass index. Effect modification was evaluated by GDM diagnosis timing and sex.
Results: A total of 4546 mother-child pairs (median [IQR]) age of diagnosis: ASD, 3.0 [2.0-5.0] years; developmental delay, 2.0 [1.0-3.0] years; 2697 male children [59.3%]) were included in the study, of which 403 mothers (8.9%) had GDM and 64 (1.4%) had IGT; 683 children [15.0%] had ASD, 2054 [45.2%] had developmental delay, and 1809 [39.8%] were controls. GDM was not associated with increased odds of ASD (aOR, 1.15 [95% CI, 0.83-1.60]) or developmental delay (aOR, 1.24 [95% CI, 0.98-1.57]) overall. In sex-stratified analyses, GDM was associated with increased odds of ASD only among females (females: aOR, 2.05 [95% CI, 1.15-3.56]; males: aOR, 0.93 [95% CI, 0.62-1.37]; P for interaction = .04). When assessed by timing, early GDM was associated with increased odds of ASD among females (aOR, 3.23 [95% CI, 1.11-8.91]) but not among males (aOR, 0.78 [95% CI, 0.38-1.56]; P for interaction = .02). There were no associations between standard or late GDM and ASD in either sex. Prenatal IGT was associated with increased odds of developmental delay among females only (females: aOR, 3.25 [95% CI, 1.34-8.68]; males: aOR, 1.07 [95% CI, 0.50-2.39]; P for interaction = .08).
Conclusions and relevance: In this case-control study, GDM was associated with NDD in a gestational timing- and sex-specific manner. IGT associations with NDD were also sex-specific, adding to a body of research demonstrating influences of prenatal IGT on child outcomes.
Abstract
Importance: Gestational diabetes has been associated with risk of neurodevelopmental disorders (NDD). An improved understanding of this association can inform prevention strategies and elucidate underlying mechanisms.
Objective: To determine associations between prenatal glucose intolerance and NDD and examine differences by gestational timing and child sex.
Design, setting, and participants: This population-based case-control study examined data from electronic health records from mother-child pairs in an integrated health system in northern California. Children born January 1, 2011, to December 31, 2018, and their mothers were eligible; children were followed up for outcomes through 2023. Data were analyzed from February 2024 to March 2025.
Exposures: Gestational diabetes was determined from routine prenatal test results and categorized as diagnosed early (less than 24 weeks), standard (24 to 28 weeks), or late (more than 28 weeks) in gestation. Prenatal subclinical impaired glucose tolerance (IGT) was defined by elevated glucose screening tests and neither GDM diagnosis nor treatment.
Main outcomes and measures: Autism spectrum disorder (ASD) and developmental delay were determined from medical records. Adjusted odds ratios (aOR) for associations between prenatal exposures and NDD were estimated using multivariable logistic regression models, adjusted for child sex, birth year, maternal age, race and ethnicity, education, parity, gestational age at prenatal care entry, and prepregnancy body mass index. Effect modification was evaluated by GDM diagnosis timing and sex.
Results: A total of 4546 mother-child pairs (median [IQR]) age of diagnosis: ASD, 3.0 [2.0-5.0] years; developmental delay, 2.0 [1.0-3.0] years; 2697 male children [59.3%]) were included in the study, of which 403 mothers (8.9%) had GDM and 64 (1.4%) had IGT; 683 children [15.0%] had ASD, 2054 [45.2%] had developmental delay, and 1809 [39.8%] were controls. GDM was not associated with increased odds of ASD (aOR, 1.15 [95% CI, 0.83-1.60]) or developmental delay (aOR, 1.24 [95% CI, 0.98-1.57]) overall. In sex-stratified analyses, GDM was associated with increased odds of ASD only among females (females: aOR, 2.05 [95% CI, 1.15-3.56]; males: aOR, 0.93 [95% CI, 0.62-1.37]; P for interaction = .04). When assessed by timing, early GDM was associated with increased odds of ASD among females (aOR, 3.23 [95% CI, 1.11-8.91]) but not among males (aOR, 0.78 [95% CI, 0.38-1.56]; P for interaction = .02). There were no associations between standard or late GDM and ASD in either sex. Prenatal IGT was associated with increased odds of developmental delay among females only (females: aOR, 3.25 [95% CI, 1.34-8.68]; males: aOR, 1.07 [95% CI, 0.50-2.39]; P for interaction = .08).
Conclusions and relevance: In this case-control study, GDM was associated with NDD in a gestational timing- and sex-specific manner. IGT associations with NDD were also sex-specific, adding to a body of research demonstrating influences of prenatal IGT on child outcomes.
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