Your search keyword '"Ceral, Jiri' showing total 4 results

1. Somatic mutations in ATP1A1 and CACNA1D underlie a common subtype of adrenal hypertension.

Author

Azizan, Elena A B, Poulsen, Hanne, Tuluc, Petronel, Zhou, Junhua, Clausen, Michael V, Lieb, Andreas, Maniero, Carmela, Garg, Sumedha, Bochukova, Elena G, Zhao, Wanfeng, Shaikh, Lalarukh Haris, Brighton, Cheryl A, Teo, Ada E D, Davenport, Anthony P, Dekkers, Tanja, Tops, Bas, Küsters, Benno, Ceral, Jiri, Yeo, Giles S H, and Neogi, Sudeshna Guha

Subjects

SOMATIC mutation, HYPERTENSION genetics, ALDOSTERONE, GLOMERULOSCLEROSIS, ADENOSINE triphosphatase, GENETIC code

Abstract

At least 5% of individuals with hypertension have adrenal aldosterone-producing adenomas (APAs). Gain-of-function mutations in KCNJ5 and apparent loss-of-function mutations in ATP1A1 and ATP2A3 were reported to occur in APAs. We find that KCNJ5 mutations are common in APAs resembling cortisol-secreting cells of the adrenal zona fasciculata but are absent in a subset of APAs resembling the aldosterone-secreting cells of the adrenal zona glomerulosa. We performed exome sequencing of ten zona glomerulosa-like APAs and identified nine with somatic mutations in either ATP1A1, encoding the Na+/K+ ATPase α1 subunit, or CACNA1D, encoding Cav1.3. The ATP1A1 mutations all caused inward leak currents under physiological conditions, and the CACNA1D mutations induced a shift of voltage-dependent gating to more negative voltages, suppressed inactivation or increased currents. Many APAs with these mutations were <1 cm in diameter and had been overlooked on conventional adrenal imaging. Recognition of the distinct genotype and phenotype for this subset of APAs could facilitate diagnosis. [ABSTRACT FROM AUTHOR]

Published

2013

2. Difficult-to-control arterial hypertension or uncooperative patients? The assessment of serum antihypertensive drug levels to differentiate non-responsiveness from non-adherence to recommended therapy.

Author

Ceral, Jiri, Habrdova, Vilma, Vorisek, Viktor, Bima, Marcel, Pelouch, Radek, and Solar, Miroslav

Published

2011

3. Adrenal venous sampling: where is the aldosterone disappearing to?

Author

Solar M, Ceral J, Krajina A, Ballon M, Malirova E, Brodak M, Cap J, Solar, Miroslav, Ceral, Jiri, Krajina, Antonin, Ballon, Marek, Malirova, Eva, Brodak, Milos, and Cap, Jan

Abstract

Adrenal venous sampling (AVS) is generally considered to be the gold standard in distinguishing unilateral and bilateral aldosterone hypersecretion in primary hyperaldosteronism. However, during AVS, we noticed a considerable variability in aldosterone concentrations among samples thought to have come from the right adrenal glands. Some aldosterone concentrations in these samples were even lower than in samples from the inferior vena cava. We hypothesized that the samples with low aldosterone levels were unintentionally taken not from the right adrenal gland, but from hepatic veins. Therefore, we sought to analyze the impact of unintentional cannulation of hepatic veins on AVS. Thirty consecutive patients referred for AVS were enrolled. Hepatic vein sampling was implemented in our standardized AVS protocol. The data were collected and analyzed prospectively. AVS was successful in 27 patients (90%), and hepatic vein cannulation was successful in all procedures performed. Cortisol concentrations were not significantly different between the hepatic vein and inferior vena cava samples, but aldosterone concentrations from hepatic venous blood (median, 17 pmol/l; range, 40-860 pmol/l) were markedly lower than in samples from the inferior vena cava (median, 860 pmol/l; range, 460-4510 pmol/l). The observed difference was statistically significant (P < 0.001). Aldosterone concentrations in the hepatic veins are significantly lower than in venous blood taken from the inferior vena cava. This finding is important for AVS because hepatic veins can easily be mistaken for adrenal veins as a result of their close anatomic proximity. [ABSTRACT FROM AUTHOR]

Published

2010

4. Adrenal Venous Sampling: Where Is the Aldosterone Disappearing to?

Author

Miroslav Solar, Antonín Krajina, J. Cap, Jiri Ceral, Eva Malirova, M. Brodak, and M. Ballon

Subjects

Adult, Male, medicine.medical_specialty, Urology, Vena Cava, Inferior, Hepatic Veins, Inferior vena cava, Adrenal venous sampling, Diagnosis, Differential, chemistry.chemical_compound, Primary aldosteronism, Internal medicine, Adrenal Glands, Hyperaldosteronism, medicine, Humans, Radiology, Nuclear Medicine and imaging, Clinical Investigation, Prospective Studies, Vein, Prospective cohort study, Aldosterone, Aged, business.industry, Venous blood, Middle Aged, medicine.disease, medicine.anatomical_structure, Endocrinology, medicine.vein, chemistry, Radiology Nuclear Medicine and imaging, cardiovascular system, Female, business, Cardiology and Cardiovascular Medicine, Endocrine gland

Abstract

Adrenal venous sampling (AVS) is generally considered to be the gold standard in distinguishing unilateral and bilateral aldosterone hypersecretion in primary hyperaldosteronism. However, during AVS, we noticed a considerable variability in aldosterone concentrations among samples thought to have come from the right adrenal glands. Some aldosterone concentrations in these samples were even lower than in samples from the inferior vena cava. We hypothesized that the samples with low aldosterone levels were unintentionally taken not from the right adrenal gland, but from hepatic veins. Therefore, we sought to analyze the impact of unintentional cannulation of hepatic veins on AVS. Thirty consecutive patients referred for AVS were enrolled. Hepatic vein sampling was implemented in our standardized AVS protocol. The data were collected and analyzed prospectively. AVS was successful in 27 patients (90%), and hepatic vein cannulation was successful in all procedures performed. Cortisol concentrations were not significantly different between the hepatic vein and inferior vena cava samples, but aldosterone concentrations from hepatic venous blood (median, 17 pmol/l; range, 40–860 pmol/l) were markedly lower than in samples from the inferior vena cava (median, 860 pmol/l; range, 460–4510 pmol/l). The observed difference was statistically significant (P < 0.001). Aldosterone concentrations in the hepatic veins are significantly lower than in venous blood taken from the inferior vena cava. This finding is important for AVS because hepatic veins can easily be mistaken for adrenal veins as a result of their close anatomic proximity.