Diagnóstico prenatal de clorhidrorrea congénita: reporte de caso / Prenatal diagnosis of congenital chloride diarrhea: A case report

La clorhidrorrea congénita es un trastorno genético infrecuente pero importante caracterizado por una alteración grave del balance hidroelectrolítico como resultado de un defecto en la absorción intestinal de cloruros. Los niños afectados presentan diarrea persistente, deshidratación y malnutrición; el control médico y del desarrollo son complejos. Mejorar la detección prenatal es esencial para facilitar la atención del paciente, las intervenciones tempranas y el asesoramiento genético informado. Sin embargo, a pesar de los avances de la medicina, la naturaleza compleja y la escasa frecuencia de esta entidad, constituyen un desafío para la detección prenatal. En este estudio, se reporta el caso de una embarazada donde los estudios por imágenes de resonancia magnética fetales identificaron en forma efectiva las características típicas de la clorhidrorrea congénita. Se proveen conocimientos sobre las complejidades del diagnóstico y se sugieren caminos para las estrategias de detección temprana de esta enfermedad.

Congenital chloride diarrhea (CCD) is a rare but significant genetic disorder characterized by severe electrolyte imbalances resulting from impaired intestinal chloride absorption. Affected children experience persistent diarrhea, dehydration, and malnutrition, complicating medical and developmental care. The enhancement of prenatal detection is crucial for improved patient management, early interventions, and informed genetic counseling. However, despite advancements in medicine, the complex nature and rarity of CCD make prenatal detection challenging. In this study, we report a fetal case where prenatal magnetic resonance imaging (MRI) effectively identified the distinctive characteristics of CCD, providing insights into the complexities of diagnosis and suggesting avenues for enhanced early detection strategies.

Prenatal diagnosis of congenital chloride diarrhea: A case report. / Diagnóstico prenatal de clorhidrorrea congénita: reporte de caso.

Congenital chloride diarrhea (CCD) is a rare but significant genetic disorder characterized by severe electrolyte imbalances resulting from impaired intestinal chloride absorption. Affected children experience persistent diarrhea, dehydration, and malnutrition, complicating medical and developmental care. The enhancement of prenatal detection is crucial for improved patient management, early interventions, and informed genetic counseling. However, despite advancements in medicine, the complex nature and rarity of CCD make prenatal detection challenging. In this study, we report a fetal case where prenatal magnetic resonance imaging (MRI) effectively identified the distinctive characteristics of CCD, providing insights into the complexities of diagnosis and suggesting avenues for enhanced early detection strategies.

La clorhidrorrea congénita es un trastorno genético infrecuente pero importante caracterizado por una alteración grave del balance hidroelectrolítico como resultado de un defecto en la absorción intestinal de cloruros. Los niños afectados presentan diarrea persistente, deshidratación y malnutrición; el control médico y del desarrollo son complejos. Mejorar la detección prenatal es esencial para facilitar la atención del paciente, las intervenciones tempranas y el asesoramiento genético informado. Sin embargo, a pesar de los avances de la medicina, la naturaleza compleja y la escasa frecuencia de esta entidad, constituyen un desafío para la detección prenatal. En este estudio, se reporta el caso de una embarazada donde los estudios por imágenes de resonancia magnética fetales identificaron en forma efectiva las características típicas de la clorhidrorrea congénita. Se proveen conocimientos sobre las complejidades del diagnóstico y se sugieren caminos para las estrategias de detección temprana de esta enfermedad.

Congenital chloride diarrhea in patient with SLC26A2 mutation - analysis of the clinical phenotype and differential diagnosis.

INTRODUCTION: To analyze the clinical features and SLC26A3 mutation of one patient in our hospital who had congenital loss of chlorine diarrhea (CLD), and to investigate the treatment of the disease and the prognosis. MATERIAL AND METHODS: By reviewing the literature, analyzing the clinical features and differential diagnosis and investigating the treatment and prognosis, the patient was diagnosed as CLD. RESULTS: Excessive accumulation of amniotic fluid was observed during pregnancy. The patient was born prematurely with normal body weight. The patient was a 4-month old boy admitted for anorexia, watery diarrhea, electrolyte disorders (hyponatremia, hypokalemia and hypochloremia) and metabolic alkalosis. The patient was also considered to be affected by Batter syndrome. After treating with spironolactone, indomethacin and potassium chloride sustained release tablet, the symptom of watery diarrhea was alleviated, the ingested amount of milk increased gradually and the amount of urine became normal; however, electrolyte imbalance persisted and the frequency of bowel movements remained high. Genetic analysis demonstrated that the patient had a SLC26A3 c.269_270dupAA homozygous mutation in exon 3, leading to a frameshift from 91st amino acid Gly and alteration of the SLC26A3 transmembrane protein sequence, thus resulting in a Cl-/HCO3- exchange barrier. The parents of the patient had normal phenotypes and were all heterozygous carriers of the mutation. Moreover, the patient was diagnosed as CLD. Sodium chloride and potassium chloride rather than spironolactone and indomenthacin were given to the patient to correct the dehydration, so the symptom of watery diarrhea alleviated and the blood gas and electrolyte levels returned to the normal range. In addition, the patients morale was good and the ingested amount of milk was moderate. CONCLUSIONS: Persistent diarrhea and electrolyte disorder in pediatrics are easy to misdiagnose as CLD. Furthermore, it is difficult to identify Batter syndrome, Gitelman syndrome, renal tubular acidosis and CLD. Blood and stool electrolyte detection and SLC26A3 genetic tests are helpful for diagnosis, and sodium chloride and potassium chloride replacement therapy are critical for the patient prognosis.

Prenatal and Postnatal Manifestations of Congenital Chloride Diarrhea Due to a Heterozygote Variant of the SLC26A3 Gene: A Case Report.

Congenital chloride diarrhea (CCD) is caused by a recessive mutation in the SLC26A3 gene and characterized mainly by watery diarrhea, hypochloremia and metabolic alkalosis. Various different mutations in SLC26A3 are responsible for the disease. In the prenatal period, the symptoms of CCD may include polyhydramnios, preterm labor and abdominal distension. The main feature of CCD is chloride-rich diarrhea, which leads to excessive loss of fluid and salt immediately after birth and is followed by weight loss and dehydration. Hyponatremia and hypochloremia are soon accompanied by hypokalemia and metabolic alkalosis. Untreated CCD is fatal even in the first weeks of life. Diagnosis is made by high fecal chloride concentrations in patients with serum electrolytes corrected by salt substitution and confirmed using genetic testing of peripheral blood samples. Here, we detail prenatal and postnatal manifestations of a preterm infant, born via Caesarian section, who was suspected to suffer intrauterine bowel obstruction. Upper median laparotomy was performed and no intestinal abnormalities found. The course of the neonatal period was complicated by severe diarrhea with hypochloremia, hyponatremia and metabolic alkalosis. Based on the patient's clinical picture and stool examination, a diagnosis of CCD was established. Mutation of the SLC26A3 gene was confirmed using genetic testing.

Congenital chloride diarrhea in patient with SLC26A2 mutation - analysis of the clinical phenotype and differential diagnosis.

INTRODUCTION: To analyze the clinical features and SLC26A3 mutation of one patient in our hospital who had congenital loss of chlorine diarrhea (CLD), and to investigate the treatment of the disease and the prognosis. MATERIAL AND METHODS: By reviewing the literature, analyzing the clinical features and differential diagnosis and investigating the treatment and prognosis, the patient was diagnosed as CLD. RESULTS: Excessive accumulation of amniotic fluid was observed during pregnancy. The patient was born prematurely with normal body weight. The patient was a 4-month old boy admitted for anorexia, watery diarrhea, electrolyte disorders (hyponatremia, hypokalemia and hypochloremia) and metabolic alkalosis. The patient was also considered to be affected by Batter syndrome. After treating with spironolactone, indomethacin and potassium chloride sustained release tablet, the symptom of watery diarrhea was alleviated, the ingested amount of milk increased gradually and the amount of urine became normal; however, electrolyte imbalance persisted and the frequency of bowel movements remained high. Genetic analysis demonstrated that the patient had a SLC26A3 c.269_270dupAA homozygous mutation in exon 3, leading to a frameshift from 91st amino acid Gly and alteration of the SLC26A3 transmembrane protein sequence, thus resulting in a Cl-/HCO3- exchange barrier. The parents of the patient had normal phenotypes and were all heterozygous carriers of the mutation. Moreover, the patient was diagnosed as CLD. Sodium chloride and potassium chloride rather than spironolactone and indomenthacin were given to the patient to correct the dehydration, so the symptom of watery diarrhea alleviated and the blood gas and electrolyte levels returned to the normal range. In addition, the patients morale was good and the ingested amount of milk was moderate. CONCLUSIONS: Persistent diarrhea and electrolyte disorder in pediatrics are easy to misdiagnose as CLD. Furthermore, it is difficult to identify Batter syndrome, Gitelman syndrome, renal tubular acidosis and CLD. Blood and stool electrolyte detection and SLC26A3 genetic tests are helpful for diagnosis, and sodium chloride and potassium chloride replacement therapy are critical for the patient prognosis.

The utility of next generation sequencing in the correct diagnosis of congenital hypochloremic hypokalemic metabolic alkalosis.

Persistent hypokalemic hypochloremic metabolic alkalosis represents a heterogeneous group of genetic disorders of which the most common is Bartter syndrome (BS). BS is an inherited renal tubulopathy caused by defective salt reabsorption in the thick ascending loop of Henle, which results in persistent hypokalemic hypochloremic metabolic alkalosis. Here we report a 10-year-old girl of a consanguineous family. She presented prenatally with severe polyhydramnios and distended bowel loops. Thereafter, she displayed failure to thrive and had recurrent admissions due to dehydration episodes associated with diarrhea, and characterized by hypokalemia, hypochloremia and metabolic alkalosis. BS was considered her working diagnosis for several years despite negative genetic analysis of the known genes associated with BS. Whole exome sequencing identified a novel homozygous c.1652delT deleterious frameshift mutation in the SLC26A3 gene, which confirmed the diagnosis of congenital chloride diarrhea (CCD), a rare autosomal recessive disease that mimics biochemically BS. A review of twelve additional reported cases of CCD that were initially misdiagnosed as BS, emphasizes CCD in the differential diagnosis of BS, and highlights the clinical discrepancies between these two entities. Taken together, our report further emphasizes the typical clinical features of CCD, and the importance of next generation sequencing in the diagnosis of syndromes with genetic heterogeneity. We suggest including SLC26A3 in the extended BS targeted gene panels.

Case Report on a Rare Disease in Lithuania: Congenital Chloride Diarrhea.

Congenital chloride diarrhea (CCD) is a rare disease, manifesting with secretory diarrhea and life-threatening electrolyte imbalance during infancy. The early diagnosis of CCD is therefore necessary for the adequate treatment. The long-term prognosis of properly managed CCD is favorable. We present a case of complicated CCD with necrotizing enterocolitis. The child was born to nonconsanguineous parents of Lithuanian origin. CCD was suspected due to watery diarrhea, progressive hypochloremia, and high fecal chlorides. Despite oral electrolytes being prescribed, volvulus of small intestine developed requiring several surgical interventions. The clinical diagnosis of CCD was confirmed by molecular genetic testing of SLC26A3 , which revealed two Polish founder mutations in the DNA of the patient. The prevalence of CCD in Lithuanian neighbor Poland is approximately 1 in 200,000 live births. This is the first described case of CCD in Lithuania to our knowledge, leading to the suggestion that this disease may be underdiagnosed.

Genetic investigation confirmed the clinical phenotype of congenital chloride diarrhea in a Hungarian patient: a case report.

BACKGROUND: Congenital chloride diarrhea (CCD, OMIM 214700) is a rare autosomal recessively inherited condition characterized by watery diarrhea, hypochloremia and metabolic alkalosis. Mutations of the solute carrier family 26, member 3 (SLC26A3, OMIM 126650) gene are responsible for the disease. The gene encodes a transmembrane protein, which is essential for intestinal chloride absorption. CASE PRESENTATION: Here we report a Hungarian boy, presenting the clinical phenotype of CCD. The patient born at 32 weeks of gestation and underwent surgery for abdominal distension and intestinal obstruction related to malrotation. After recovery, electrolyte replacement therapy was necessary due to several periods of diarrhea. After exclusion of other possible causes, increased chloride concentration in the feces supported the diagnosis of CCD. The diagnosis was confirmed by molecular genetic testing. Direct sequencing revealed compound-heterozygosity for a frameshift mutation c.1295delT (p.Leu432Argfs*11) and the known Polish founder mutation c.2024_2026dupTCA (p.Ile675_Arg676insLeu). CONCLUSIONS: Here we present the clinical symptoms of the first patient in Hungary diagnosed with CCD. Based on the clinical symptoms, stool analysis and genetic testing, the diagnosis of CCD was established. Our study provides expansion for the mutation spectrum of the SLC26A3 gene and the genetic background of CCD.

Clinical features and SLC26A3 genetic mutation analysis of a kindred with congenital chloride diarrhea / 中华实用儿科临床杂志

Objective To analyze the clinical characteristics and mutation of SLC26A3 gene of a patient with congenital chloride diarrhea in order to deepen the understanding of the disease.Methods The clinical data of the patient who was admitted in Affiliated Hospital of Capital Pediatric Institute in June 2014 were collected.Venous blood of the proband and his parents (2 mL for each) had been extracted for genomic DNA isolation.The 21 exons of SLC26A3 gene were amplified with polymerase chain reaction and screened for mutations by sequencing.Results The main clinical features of the patient included polyhydramnios,preterm,normal birth weight,watery diarrhea,low weight and severe electrolyte disturbances with hypochloremia,hypokalemia,hyponatremia and metabolic alkalosis.Renin angiotensin and aldosterone were high.His urine chloride concentration was low and fecal chloride concentration was high (＞ 90mmol/L).After oral salt substitution therapy with KCl and NaCl [3 mmol/(kg · d),4 mmol/(kg · d)],the electrolyte was better,alkalosis was alleviated,and growth and development were improved.The gene analysis revealed that the patient carried nt1631T ＞ A homozygous mutation on exon 15 which lead to Ile544Asn mutation in the predicted SLC26A3 transmembrane protein sequence,which was considered to be responsible for the functional abnormality of the Cl-/HCO3-protein.His parents were carriers of SLC26A3 gene and their clinical phenotype was normal.Conclusions Congenital chloride diarrhea is a rare autosomal recessive disorder and easily misdiagnosed.The patient of early postnatal diarrhea with persistent hypochloremia,hypokalemia,hyponatremia and metabolic alkalosis should be thought about this disease.Genetic analysis can help make the diagnosis.The prognosis is good if a patient has an early diagnosis and appropriate management.

Identification of SLC26A3 mutations in a Korean patient with congenital chloride diarrhea.

Congenital chloride diarrhea (CLD) is an autosomal recessive disorder with the hallmark of persistent watery Cl(-)-rich diarrhea from birth. Mutations in the solute carrier family 26, member 3 (SLC26A3) gene, which encodes a coupled Cl(-)/HCO(3)(-) exchanger in the ileum and colon, are known to cause CLD. Although there are a few reports of CLD patients in Korea, none of these had been confirmed by genetic analysis. Here, we describe the case of a Korean infant with clinical features of CLD. Using direct sequencing analysis, we identified 2 sequence variants: a missense variant of unknown significance (c.525G>C; p.Arg175 Ser) and a splicing mutation (c.2063-1G>T) in the SLC26A3 gene; these had been inherited from the father and mother, respectively. Whilst CLD is rare, its main symptom, diarrhea, is very common in infants. Hence, the diagnosis of CLD can prove difficult. Mutational analysis of the SLC26A3 gene should be considered as a viable method to confirm a diagnosis of CLD in Korean infants with persistent diarrhea.

Identification of SLC26A3 Mutations in a Korean Patient with Congenital Chloride Diarrhea

Congenital chloride diarrhea (CLD) is an autosomal recessive disorder with the hallmark of persistent watery Cl(-)-rich diarrhea from birth. Mutations in the solute carrier family 26, member 3 (SLC26A3) gene, which encodes a coupled Cl-/HCO3- exchanger in the ileum and colon, are known to cause CLD. Although there are a few reports of CLD patients in Korea, none of these had been confirmed by genetic analysis. Here, we describe the case of a Korean infant with clinical features of CLD. Using direct sequencing analysis, we identified 2 sequence variants: a missense variant of unknown significance (c.525G>C; p.Arg175 Ser) and a splicing mutation (c.2063-1G>T) in the SLC26A3 gene; these had been inherited from the father and mother, respectively. Whilst CLD is rare, its main symptom, diarrhea, is very common in infants. Hence, the diagnosis of CLD can prove difficult. Mutational analysis of the SLC26A3 gene should be considered as a viable method to confirm a diagnosis of CLD in Korean infants with persistent diarrhea.