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19 results on '"Mekahli, Djalila"'

7. Leukopenia in autosomal dominant polycystic kidney disease: a single-center cohort of kidney transplant candidates with post-transplantation follow-up.

Author

Schellekens, Pieter, Loon, Elisabet Van, Coemans, Maarten, Meyts, Isabelle, Vennekens, Rudi, Kuypers, Dirk, Mekahli, Djalila, and Bammens, Bert

Subjects
POLYCYSTIC kidney disease, KIDNEY transplantation, BLOOD cell count, LEUCOCYTES, LEUCOPENIA
Abstract

Background Autosomal dominant polycystic kidney disease (ADPKD) has occasionally been associated with lower peripheral white blood cell (WBC) counts. This study aimed to investigate the peripheral blood cell counts in a large cohort of kidney transplant recipients before and after kidney transplantation and its potential impact on post-transplant outcomes. Methods This was a retrospective study with long-term follow-up data of 2090 patients who underwent a first kidney transplantation in the Leuven University Hospitals, of whom 392 had ADPKD. Results In total, 2090 patients who underwent a first kidney transplantation in the Leuven University Hospitals were included, of whom 392 had ADPKD. Both pre- and post-transplantation, ADPKD patients had significantly lower total WBC counts, and more specifically lower neutrophil, lymphocyte and eosinophil counts compared with the non-ADPKD patients. This observation was independent of potential confounders such as level of inflammation, smoking habit, vitamins and pre-transplant medication. Overall survival and kidney transplant survival were significantly better in ADPKD vs non-ADPKD transplant recipients and a longer time to first infection was observed. However, no association between blood cell counts and outcome differences was found. Conclusions In conclusion, this large single-center study reports a strong and independent association between ADPKD and lower peripheral WBC counts both before and after kidney transplantation. Considering the role of inflammation in disease progression, further investigation into the role of WBC in ADPKD is needed. [ABSTRACT FROM AUTHOR]

Published
2023
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8. Standardized 4-point scoring scale of [18F]-FDG PET/CT imaging helps in the diagnosis of renal and hepatic cyst infections in patients with autosomal dominant polycystic kidney disease: a validation cohort.

Author

Demuynck, Selina, Lovinfosse, Pierre, Seidel, Laurence, Jentjens, Sander, Mekahli, Djalila, Jouret, François, Bammens, Bert, and Goffin, Karolien

Subjects
POLYCYSTIC kidney disease, COMPUTED tomography, CYSTIC kidney disease, HEPATIC echinococcosis, POSITRON emission tomography
Abstract

Background Autosomal dominant polycystic kidney disease (ADPKD) is prone to multiple complications, including cyst infection (CyI). 2-Deoxy-2-[18F]fluoro- d -glucose positron emission tomography/computed tomography ([18F]-FDG PET/CT) imaging has proved useful in the diagnosis of renal and hepatic CyI. A 4-point scale comparing the uptake of [18F]-FDG in the suspected infected cyst versus the hepatic physiological background has been recently proposed. We performed an independent validation of this semi-quantitative scoring system. Methods All ADPKD patients hospitalized between January 2009 and November 2019 who underwent an [18F]-FDG PET/CT for suspected CyI were retrospectively identified using computer-based databases. Medical files were reviewed. CyI was conventionally defined by the combination of fever (≥38°C), abdominal pain, increased plasma C-reactive protein levels (≥70 mg/L), absence of any other cause of inflammation and favourable outcome after ≥21 days of antibiotics. [18F]-FDG uptake of the suspected CyI was evaluated using a 4-point scale comparing the uptake of [18F]-FDG around the infected cysts with the uptake in the hepatic parenchyma. Statistics were performed using SAS version 9.4. Results Fifty-one [18F]-FDG PET/CT scans in 51 patients were included, of which 11 were cases of CyI. The agreement between the 4-point scale and the gold-standard criteria of CyI was significant [odds ratio of 6.03 for CyI in case of a score ≥3 (P =.014)]. The corresponding sensitivity, specificity, and positive and negative predictive values of [18F]-FDG PET/CT using the 4-point scale were 64% [Clopper–Pearson 95% confidence interval (CI) 30%–89%], 78% (95% CI 62%–89%), 44% (95% CI 20%–70%) and 89% (95% CI 73%–97%), respectively. Conclusions Our independent validation cohort confirms the use of a semi-quantitative 4-point scoring system of [18F]-FDG PET/CT imaging in the diagnosis of CyI in patients with ADPKD. Considering its performance metrics with high specificity and negative predictive value, the scoring system is particularly useful to distinguish other causes of clinical inflammation than CyI and as such avoid unnecessarily long antibiotic treatment. [ABSTRACT FROM AUTHOR]

Published
2023
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10. Polycystin-1 but not polycystin-2 deficiency causes upregulation of the mTOR pathway and can be synergistically targeted with rapamycin and metformin

Author

Mekahli, Djalila, Decuypere, Jean-Paul, Sammels, Eva, Welkenhuyzen, Kirsten, Schoeber, Joost, Audrezet, Marie-Pierre, Corvelyn, Anniek, Dechênes, Georges, Ong, Albert C. M., Wilmer, Martijn J., van den Heuvel, Lambertus, Bultynck, Geert, Parys, Jan B., Missiaen, Ludwig, Levtchenko, Elena, and De Smedt, Humbert

Published
2014
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12. GENOTYPE-PHENOTYPE CORRELATION IN A PEDIATRIC ADPKD COHORT

Author

Giel, Dorien, Rechter, Stephanie, Breysem, Luc, Hindryckx, An, Janssens, Peter, Decuypere, Jean-Paul, Bammens, Bert, Corveleyn, Anniek, Ferec, Claude, Rudi Vennekens, Audrezet, Marie-Pierre, Harris, Peter, Mekahli, Djalila, Clinical sciences, Faculty of Medicine and Pharmacy, Internal Medicine Specializations, and Nephrology

Subjects
pediatric, Genotype, phebotype, ADPKD
Published
2020

13. update on the use of tolvaptan for autosomal dominant polycystic kidney disease: consensus statement on behalf of the ERA Working Group on Inherited Kidney Disorders, the European Rare Kidney Disease Reference Network and Polycystic Kidney Disease International

Author

Müller, Roman-Ulrich, Messchendorp, A Lianne, Birn, Henrik, Capasso, Giovambattista, Gall, Emilie Cornec-Le, Devuyst, Olivier, Eerde, Albertien van, Guirchoun, Patrick, Harris, Tess, Hoorn, Ewout J, Knoers, Nine V A M, Korst, Uwe, Mekahli, Djalila, Meur, Yannick Le, Nijenhuis, Tom, Ong, Albert C M, Sayer, John A, Schaefer, Franz, Servais, Aude, and Tesar, Vladimir

Subjects
POLYCYSTIC kidney disease, KIDNEY diseases, CHRONIC kidney failure, PATIENT selection, CLINICAL trials, DIABETES insipidus
Abstract

Approval of the vasopressin V2 receptor antagonist tolvaptan—based on the landmark TEMPO 3:4 trial—marked a transformation in the management of autosomal dominant polycystic kidney disease (ADPKD). This development has advanced patient care in ADPKD from general measures to prevent progression of chronic kidney disease to targeting disease-specific mechanisms. However, considering the long-term nature of this treatment, as well as potential side effects, evidence-based approaches to initiate treatment only in patients with rapidly progressing disease are crucial. In 2016, the position statement issued by the European Renal Association (ERA) was the first society-based recommendation on the use of tolvaptan and has served as a widely used decision-making tool for nephrologists. Since then, considerable practical experience regarding the use of tolvaptan in ADPKD has accumulated. More importantly, additional data from REPRISE, a second randomized clinical trial (RCT) examining the use of tolvaptan in later-stage disease, have added important evidence to the field, as have post hoc studies of these RCTs. To incorporate this new knowledge, we provide an updated algorithm to guide patient selection for treatment with tolvaptan and add practical advice for its use. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Fundamental insights into autosomal dominant polycystic kidney disease from human-based cell models.

Author

Weydert, Caroline, Decuypere, Jean-Paul, De Smedt, Humbert, Janssens, Peter, Vennekens, Rudi, and Mekahli, Djalila

Subjects
POLYCYSTIC kidney disease treatment, BIOMARKERS, BIOLOGICAL models, CELL lines, CELLULAR signal transduction, GENETIC engineering, POLYCYSTIC kidney disease, PROTEIN kinases, STEM cells, URINALYSIS, NEPHRECTOMY, NEPHRONS
Abstract

Several animal- and human-derived models are used in autosomal dominant polycystic kidney disease (ADPKD) research to gain insight in the disease mechanism. However, a consistent correlation between animal and human ADPKD models is lacking. Therefore, established human-derived models are relevant to affirm research results and translate findings into a clinical set-up. In this review, we give an extensive overview of the existing human-based cell models. We discuss their source (urine, nephrectomy and stem cell), immortalisation procedures, genetic engineering, kidney segmental origin and characterisation with nephron segment markers. We summarise the most studied pathways and lessons learned from these different ADPKD models. Finally, we issue recommendations for the derivation of human-derived cell lines and for experimental set-ups with these cell lines. [ABSTRACT FROM AUTHOR]

Published
2019
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15. Unmet needs and challenges for follow-up and treatment of autosomal dominant polycystic kidney disease: the paediatric perspective.

Author

Rechter, Stéphanie De, Bammens, Bert, Schaefer, Franz, Liebau, Max C, and Mekahli, Djalila

Abstract

Awareness is growing that the clinical course of autosomal dominant polycystic kidney disease (ADPKD) already begins in childhood, with a broad range of both symptomatic and asymptomatic features. Knowing that parenchymal destruction with cyst formation and growth starts early in life, it seems reasonable to assume that early intervention may yield the best chances for preserving renal outcome. Interventions may involve lifestyle modifications, hypertension control and the use of disease-modifying treatments once these become available for the paediatric population with an acceptable risk and side-effect profile. Until then, screening of at-risk children is controversial and not generally recommended since this might cause psychosocial and financial harm. Also, the clinical and research communities are facing important questions as to the nature of potential interventions and their optimal indications and timing. Indeed, challenges include the identification and validation of indicators, both measuring and predicting disease progression from childhood, and the discrimination of slow from rapid progressors in the paediatric population. This discrimination will improve both the cost-effectiveness and benefit-to-risk ratio of therapies. Furthermore, we will need to define outcome measures, and to evaluate the possibility of a potential therapeutic window of opportunity in childhood. The recently established international register ADPedKD will help in elucidating these questions. In this review, we provide an overview of the current knowledge on paediatric ADPKD as a future therapeutic target population and its unmet challenges. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Expanding the role of vasopressin antagonism in polycystic kidney diseases: From adults to children?

Author

Janssens, Peter, Weydert, Caroline, De Rechter, Stephanie, Wissing, Karl Martin, Liebau, Max Christoph, and Mekahli, Djalila

Subjects
POLYCYSTIC kidney disease, AUTOSOMAL recessive polycystic kidney, CYSTIC kidney disease, NUCLEOTIDES, KIDNEY failure, CHEMICAL inhibitors, VASOPRESSIN, GENETICS, THERAPEUTICS
Abstract

Polycystic kidney disease (PKD) encompasses a group of genetic disorders that are common causes of renal failure. The two classic forms of PKD are autosomal recessive polycystic kidney disease (ARPKD) and autosomal dominant polycystic kidney disease (ADPKD). Despite their clinical differences, ARPKD and ADPKD share many similarities. Altered intracellular Ca2+ and increased cyclic adenosine monophosphate (cAMP) concentrations have repetitively been described as central anomalies that may alter signaling pathways leading to cyst formation. The vasopressin V2 receptor (V2R) antagonist tolvaptan lowers cAMP in cystic tissues and slows renal cystic progression and kidney function decline when given over 3 years in adult ADPKD patients. Tolvaptan is currently approved for the treatment of rapidly progressive disease in adult ADPKD patients. On the occasion of the recent initiation of a clinical trial with tolvaptan in pediatric ADPKD patients, we aim to describe the most important aspects in the literature regarding the AVP-cAMP axis and the clinical use of tolvaptan in PKD. [ABSTRACT FROM AUTHOR]

Published
2018
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17. Cystic Kidney Diseases in Children and Adults: Differences and Gaps in Clinical Management.

Author

Hanna, Christian, Iliuta, Ioan-Andrei, Besse, Whitney, Mekahli, Djalila, and Chebib, Fouad T.

Subjects
CYSTIC kidney disease, PEDIATRIC nephrology, POLYCYSTIC kidney disease, KIDNEY diseases, MOLECULAR diagnosis, PRENATAL diagnosis
Abstract

Cystic kidney diseases, when broadly defined, have a wide differential diagnosis extending from recessive diseases with a prenatal or pediatric diagnosis, to the most common autosomal-dominant polycystic kidney disease primarily affecting adults, and several other genetic or acquired etiologies that can manifest with kidney cysts. The most likely diagnoses to consider when assessing a patient with cystic kidney disease differ depending on family history, age stratum, radiologic characteristics, and extrarenal features. Accurate identification of the underlying condition is crucial to estimate the prognosis and initiate the appropriate management, identification of extrarenal manifestations, and counseling on recurrence risk in future pregnancies. There are significant differences in the clinical approach to investigating and managing kidney cysts in children compared with adults. Next-generation sequencing has revolutionized the diagnosis of inherited disorders of the kidney, despite limitations in access and challenges in interpreting the data. Disease-modifying treatments are lacking in the majority of kidney cystic diseases. For adults with rapid progressive autosomal-dominant polycystic kidney disease, tolvaptan (V2-receptor antagonist) has been approved to slow the rate of decline in kidney function. In this article, we examine the differences in the differential diagnosis and clinical management of cystic kidney disease in children versus adults, and we highlight the progress in molecular diagnostics and therapeutics, as well as some of the gaps meriting further attention. [ABSTRACT FROM AUTHOR]

Published
2023
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18. Interdependent Regulation of Polycystin Expression Influences Starvation-Induced Autophagy and Cell Death.

Author

Decuypere, Jean-Paul, Van Giel, Dorien, Janssens, Peter, Dong, Ke, Somlo, Stefan, Cai, Yiqiang, Mekahli, Djalila, and Vennekens, Rudi

Subjects
CELL death, POLYCYSTIC kidney disease, AUTOPHAGY, CELL death inhibition, CELL survival
Abstract

Autosomal dominant polycystic kidney disease (ADPKD) is mainly caused by deficiency of polycystin-1 (PC1) or polycystin-2 (PC2). Altered autophagy has recently been implicated in ADPKD progression, but its exact regulation by PC1 and PC2 remains unclear. We therefore investigated cell death and survival during nutritional stress in mouse inner medullary collecting duct cells (mIMCDs), either wild-type (WT) or lacking PC1 (PC1KO) or PC2 (PC2KO), and human urine-derived proximal tubular epithelial cells (PTEC) from early-stage ADPKD patients with PC1 mutations versus healthy individuals. Basal autophagy was enhanced in PC1-deficient cells. Similarly, following starvation, autophagy was enhanced and cell death reduced when PC1 was reduced. Autophagy inhibition reduced cell death resistance in PC1KO mIMCDs to the WT level, implying that PC1 promotes autophagic cell survival. Although PC2 expression was increased in PC1KO mIMCDs, PC2 knockdown did not result in reduced autophagy. PC2KO mIMCDs displayed lower basal autophagy, but more autophagy and less cell death following chronic starvation. This could be reversed by overexpression of PC1 in PC2KO. Together, these findings indicate that PC1 levels are partially coupled to PC2 expression, and determine the transition from renal cell survival to death, leading to enhanced survival of ADPKD cells during nutritional stress. [ABSTRACT FROM AUTHOR]

Published
2021
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19. ADPedKD : a global online platform on the management of children with ADPKD

Author

Stéphanie De Rechter, Detlef Bockenhauer, Lisa M. Guay-Woodford, Isaac Liu, Andrew J. Mallett, Neveen A. Soliman, Lucimary C. Sylvestre, Franz Schaefer, Max C. Liebau, Djalila Mekahli, P. Adamczyk, N. Akinci, H. Alpay, C. Ardelean, N. Ayasreh, Z. Aydin, A. Bael, V. Baudouin, U.S. Bayrakci, A. Bensman, H. Bialkevich, A. Biebuyck, O. Boyer, O. Bjanid, A. Bryłka, S. Çalışkan, A. Cambier, A. Camelio, V. Carbone, M. Charbit, B. Chiodini, A. Chirita, N. Çiçek, R. Cerkauskiene, L. Collard, M. Conceiçao, I. Constantinescu, A. Couderc, B. Crapella, M. Cvetkovic, B. Dima, F. Diomeda, M. Docx, N. Dolan, C. Dossier, D. Drozdz, J. Drube, O. Dunand, P. Dusan, L.A. Eid, F. Emma, M. Espino Hernandez, M. Fila, M. Furlano, M. Gafencu, M.S. Ghuysen, M. Giani, M. Giordano, I. Girisgen, N. Godefroid, A. Godron-Dubrasquet, I. Gojkovic, E. Gonzalez, I. Gökçe, J.W. Groothoff, S. Guarino, A. Guffens, P. Hansen, J. Harambat, S. Haumann, G. He, L. Heidet, R. Helmy, F. Hemery, N. Hooman, B. llanas, A. Jankauskiene, P. Janssens, S. Karamaria, I. Kazyra, J. Koenig, S. Krid, P. Krug, V. Kwon, A. La Manna, V. Leroy, M. Litwin, J. Lombet, G. Longo, A.C. Lungu, A. Mallawaarachchi, A. Marin, P. Marzuillo, L. Massella, A. Mastrangelo, H. McCarthy, M. Miklaszewska, A. Moczulska, G. Montini, A. Morawiec-Knysak, D. Morin, L. Murer, I. Negru, F. Nobili, L. Obrycki, H. Otoukesh, S. Özcan, L. Pape, S. Papizh, P. Parvex, M. Pawlak-Bratkowska, L. Prikhodina, A. Prytula, C. Quinlan, A. Raes, B. Ranchin, N. Ranguelov, R. Repeckiene, C. Ronit, R. Salomon, R. Santagelo, S.K. Saygılı, S. Schaefer, M. Schreuder, T. Schurmans, T. Seeman, N. Segers, M. Sinha, E. Snauwaert, B. Spasojevic, S. Stabouli, C. Stoica, R. Stroescu, E. Szczepanik, M. Szczepańska, K. Taranta-Janusz, A. Teixeira, J. Thumfart, M. Tkaczyk, R. Torra, D. Torres, N. Tram, B. Utsch, J. Vande Walle, R. Vieux, R. Vitkevic, A. Wilhelm-Bals, E. Wühl, Z.Y. Yildirim, S. Yüksel, K. Zachwieja, Clinical sciences, Faculty of Medicine and Pharmacy, Internal Medicine Specializations, Nephrology, İÜC, AGEM - Amsterdam Gastroenterology Endocrinology Metabolism, ARD - Amsterdam Reproduction and Development, Paediatric Nephrology, AGEM - Inborn errors of metabolism, APH - Quality of Care, APH - Methodology, De Rechter, S., Bockenhauer, D., Guay-Woodford, L. M., Liu, I., Mallett, A. J., Soliman, N. A., Sylvestre, L. C., Schaefer, F., Liebau, M. C., Mekahli, D., Adamczyk, P., Akinci, N., Alpay, H., Ardelean, C., Ayasreh, N., Aydin, Z., Bael, A., Baudouin, V., Bayrakci, U. S., Bensman, A., Bialkevich, H., Biebuyck, A., Boyer, O., Bjanid, O., Brylka, A., Caliskan, S., Cambier, A., Camelio, A., Carbone, V., Charbit, M., Chiodini, B., Chirita, A., Cicek, N., Cerkauskiene, R., Collard, L., Conceicao, M., Constantinescu, I., Couderc, A., Crapella, B., Cvetkovic, M., Dima, B., Diomeda, F., Docx, M., Dolan, N., Dossier, C., Drozdz, D., Drube, J., Dunand, O., Dusan, P., Eid, L. A., Emma, F., Espino Hernandez, M., Fila, M., Furlano, M., Gafencu, M., Ghuysen, M. S., Giani, M., Giordano, M., Girisgen, I., Godefroid, N., Godron-Dubrasquet, A., Gojkovic, I., Gonzalez, E., Gokce, I., Groothoff, J. W., Guarino, S., Guffens, A., Hansen, P., Harambat, J., Haumann, S., He, G., Heidet, L., Helmy, R., Hemery, F., Hooman, N., Llanas, B., Jankauskiene, A., Janssens, P., Karamaria, S., Kazyra, I., Koenig, J., Krid, S., Krug, P., Kwon, V., La Manna, A., Leroy, V., Litwin, M., Lombet, J., Longo, G., Lungu, A. C., Mallawaarachchi, A., Marin, A., Marzuillo, P., Massella, L., Mastrangelo, A., Mccarthy, H., Miklaszewska, M., Moczulska, A., Montini, G., Morawiec-Knysak, A., Morin, D., Murer, L., Negru, I., Nobili, F., Obrycki, L., Otoukesh, H., Ozcan, S., Pape, L., Papizh, S., Parvex, P., Pawlak-Bratkowska, M., Prikhodina, L., Prytula, A., Quinlan, C., Raes, A., Ranchin, B., Ranguelov, N., Repeckiene, R., Ronit, C., Salomon, R., Santagelo, R., Saygili, S. K., Schaefer, S., Schreuder, M., Schurmans, T., Seeman, T., Segers, N., Sinha, M., Snauwaert, E., Spasojevic, B., Stabouli, S., Stoica, C., Stroescu, R., Szczepanik, E., Szczepanska, M., Taranta-Janusz, K., Teixeira, A., Thumfart, J., Tkaczyk, M., Torra, R., Torres, D., Tram, N., Utsch, B., Vande Walle, J., Vieux, R., Vitkevic, R., Wilhelm-Bals, A., Wuhl, E., Yildirim, Z. Y., Yuksel, S., Zachwieja, K., UCL - SSS/IREC/PEDI - Pôle de Pédiatrie, UCL - (SLuc) Service de pédiatrie générale, Parvex, Paloma Maria, Gonzalez, Elsa, Wilhelm-Bals, Alexandra, Amsterdam Reproduction & Development (AR&D), De Rechter, Stephanie, Bockenhauer, Detlef, Guay-Woodford, Lisa M., Liu, Isaac, Mallett, Andrew J., Soliman, Neveen A., Sylvestre, Lucimary C., Schaefer, Franz, Liebau, Max C., Mekahli, Djalila, Baudouin, V, Carbone, V, Constantinescu, I, Ghuysen, Ms, Girisgen, I, Gojkovic, I, Gokce, I, Ilanas, B., Kazyra, I, Kwon, V, Leroy, V, McCarthy, H., Negru, I, and Wuehl, E.

Subjects
medicine.medical_specialty, ADPKD, ADPedKD Registry, children, longitudinal, 030232 urology & nephrology, Autosomal dominant polycystic kidney disease, Psychological intervention, CHILDHOOD, BLOOD-PRESSURE, PROGRESSION, Disease, 030204 cardiovascular system & hematology, urologic and male genital diseases, lcsh:RC870-923, Disease course, CARDIOVASCULAR-ABNORMALITIES, 03 medical and health sciences, 0302 clinical medicine, Clinical Research, LEFT-VENTRICULAR MASS, Medicine and Health Sciences, Medicine, Children, DISEASE ADPKD, DOMINANT POLYCYSTIC KIDNEY, SPECTRUM, Science & Technology, ddc:618, business.industry, urogenital system, Urology & Nephrology, medicine.disease, lcsh:Diseases of the genitourinary system. Urology, female genital diseases and pregnancy complications, 3. Good health, Disease factors, Nephrology, Family medicine, Cohort, RENAL CONCENTRATING CAPACITY, VOLUME, Observational study, business, Life Sciences & Biomedicine, Progressive disease
Abstract

Background: Autosomal dominant polycystic kidney disease (ADPKD) is the most common monogenic cause of renal failure. For several decades, ADPKD was regarded as an adult-onset disease. In the past decade, it has become more widely appreciated that the disease course begins in childhood. However, evidence-based guidelines on how to manage and approach children diagnosed with or at risk of ADPKD are lacking. Also, scoring systems to stratify patients into risk categories have been established only for adults. Overall, there are insufficient data on the clinical course during childhood. We therefore initiated the global ADPedKD project to establish a large international pediatric ADPKD cohort for deep characterization., Methods: Global ADPedKD is an international multicenter observational study focusing on childhood-diagnosed ADPKD. This collaborative project is based on interoperable Web-based databases, comprising 7 regional and independent but uniformly organized chapters, namely Africa, Asia, Australia, Europe, North America, South America, and the United Kingdom. In the database, a detailed basic data questionnaire, including genetics, is used in combination with data entry from follow-up visits, to provide both retrospective and prospective longitudinal data on clinical, radiologic, and laboratory findings, as well as therapeutic interventions., Discussion: The global ADPedKD initiative aims to characterize in detail the most extensive international pediatric ADPKD cohort reported to date, providing evidence for the development of unified diagnostic, follow-up, and treatment recommendations regarding modifiable disease factors. Moreover, this registry will serve as a platform for the development of clinical and/or biochemical markers predicting the risk of early and progressive disease., C1 [De Rechter, Stephanie; Mekahli, Djalila] Univ Hosp Leuven, Dept Pediat Nephrol, Herestr 49, B-3000 Leuven, Belgium., [De Rechter, Stephanie; Mekahli, Djalila] Katholieke Univ Leuven, Dept Dev & Regenerat, PKD Res Grp, Leuven, Belgium., [Bockenhauer, Detlef] UCL Ctr Nephrol, London, England., [Bockenhauer, Detlef] Great Ormond St Hosp NHS Fdn Trust, London, England., [Guay-Woodford, Lisa M.] Childrens Natl Hlth Syst, Ctr Translat Sci, Washington, DC USA., [Liu, Isaac] Natl Univ Hlth Syst, Khoo Teck Puat Natl Univ, Childrens Med Inst, Singapore, Singapore., [Mallett, Andrew J.] Royal Brisbane & Womens Hosp, Kidney Hlth Serv, Brisbane, Qld, Australia., [Mallett, Andrew J.] Royal Brisbane & Womens Hosp, Conjoint Renal Res Lab, Brisbane, Qld, Australia., [Mallett, Andrew J.] Univ Queensland, Fac Med, Brisbane, Qld, Australia., [Mallett, Andrew J.] Univ Queensland, Inst Mol Biosci, Brisbane, Qld, Australia., [Mallett, Andrew J.] KidGen Collaborat & Australian Genom Hlth Allianc, Melbourne, Vic, Australia., [Soliman, Neveen A.] Cairo Univ, Ctr Pediat Nephrol & Transplantat, Kasr Al Ainy Sch Med, Dept Pediat, Cairo, Egypt., [Sylvestre, Lucimary C.] Hosp Pequeno Principe, Curitiba, Parana, Brazil., [Schaefer, Franz] Heidelberg Univ, Ctr Pediat & Adolescent Med, Div Pediat Nephrol, Med Ctr, Heidelberg, Germany., [Liebau, Max C.] Univ Hosp Cologne, Dept Pediat, Cologne, Germany., [Liebau, Max C.] Univ Hosp Cologne, Ctr Mol Med, Cologne, Germany., [Adamczyk, P.; Bjanid, O.; Brylka, A.; Morawiec-Knysak, A.; Szczepanska, M.] Dept Pediat, Zabrze, Poland., [Akinci, N.] Sariyer SISLI Hamidiye Etfal Res & Educ Hosp, Istanbul, Turkey., [Alpay, H.; Cicek, N.; Gokce, I] Marmara Univ, Sch Med, Div Pediat Nephrol, Istanbul, Turkey., [Ardelean, C.; Chirita, A.; Gafencu, M.; Stroescu, R.] Timisoara Children Hosp, Timisoara, Romania., [Ayasreh, N.; Furlano, M.; Torra, R.] Fundacio Puigvert, Barcelona, Spain., [Aydin, Z.; Bayrakci, U. S.] Ankara Univ Hlth Sci, Child Hlth & Dis, Ankara, Turkey., [Bael, A.; Docx, M.; Segers, N.] Koningin Paola Kinderziekenhuis Antwerpen, Antwerp, Belgium., [Baudouin, V; Cambier, A.; Couderc, A.; Dossier, C.; Kwon, V] Hop Robert Debre, AP HP, Paris, France., [Bensman, A.; Biebuyck, A.; Boyer, O.; Charbit, M.; Heidet, L.; Krid, S.; Krug, P.; Salomon, R.] Pediat Nephrol Necker Hosp, Paris, France., [Bialkevich, H.; Kazyra, I] 2nd City Childrens Clin Hosp, Natl Ctr Pediat Nephrol & RRT, Minsk, BELARUS., [Caliskan, S.; Ozcan, S.; Saygili, S. K.] Istanbul Cerrahpasa Fac Med, Istanbul, Turkey., [Camelio, A.; Nobili, F.; Vieux, R.] CHU Besancon, Besancon, France., [Carbone, V; Diomeda, F.; Torres, D.] Pediat Nephrol Unit Bari, Bari, Italy., [Chiodini, B.] HUDERF, Brussels, Belgium., [Collard, L.] CHR La Citadelle, Liege, Belgium., [Conceicao, M.; Teixeira, A.] Ctr Hosp Porto, Ctr Materno Infantil Norte, Porto, Portugal., [Constantinescu, I; Lungu, A. C.; Marin, A.; Negru, I; Stroescu, R.] Fundeni Clin Inst, Bucharest, Romania., [Crapella, B.; Giani, M.; Mastrangelo, A.; Montini, G.] Fdn IRCCS Ca Granda, Pediat Nephrol Dialysis & Transplant Unit, Milan, Italy., [Cvetkovic, M.; Gojkovic, I] Univ Childrens Hosp, Belgrade, Serbia., [Dima, B.] Clin Europe Hop St Elisabeth, Brussels, Belgium., [Dolan, N.] Our Ladys Childrens Hosp, Dublin, Ireland., [Drozdz, D.; Miklaszewska, M.; Zachwieja, K.] Jagiellonian Univ, Med Coll Cracow, Pediat Nephrol & Hypertens, Krakow, Poland., [Drube, J.; Pape, L.] Hannover Med Sch, Hannover, Germany., [Dunand, O.; Leroy, V] Pediat Nephrol Unit St Denis, St Denis, Reunion, France., [Dusan, P.; Spasojevic, B.; Stabouli, S.] Aristotle Univ Thessaloniki, Dept Pediat, Thessaloniki, Greece., [Eid, L. A.] Dubai Hosp, Pediat Nephrol Dept, Dubai, U Arab Emirates., [Emma, F.; Massella, L.] Bambino Gesu Pediat Hosp, Rome, Italy., [Espino Hernandez, M.] Hosp Infantil 12 Octubre Madrid, Madrid, Spain., [Fila, M.; Hemery, F.; Morin, D.] CHU Arnaud Villeneuve, Montpellier, France., [Ghuysen, Ms] CHU Liege, Liege, Belgium., [Giordano, M.] Pediat Nephrol Unit, Bari, Italy., [Girisgen, I; Yuksel, S.] Pamukkale Univ, Med Fac, Dept Pediat Nephrol, Denizli, Turkey., [Godefroid, N.; Ranguelov, N.] Clin Univ St Luc, Brussels, Belgium., [Godron-Dubrasquet, A.; Harambat, J.; Ilanas, B.] Bordeaux Univ Childrens Hosp, Bordeaux, France., [Gonzalez, E.] Childrens Univ Hosp, Geneva, Switzerland., [Groothoff, J. W.] Emma Childrens Hosp, Amsterdam, Netherlands., [Guarino, S.; La Manna, A.; Marzuillo, P.] Univ Campania Luigi Vanvitelli, Caserta, Italy., [Guffens, A.] CHC Clin Esperence, Montegnee, Belgium., [Hansen, P.] CHU Tivoli, La Louviere, Belgium., [Haumann, S.] Univ Klinikum Koln, Cologne, Germany., [He, G.] Foshan Women & Children Hosp, Foshan, Peoples R China., [Helmy, R.] Cairo Univ, Kasr Al Ainy Sch Med, Cairo, Egypt., [Hooman, N.; Otoukesh, H.] Iran Univ Med Sci, Aliasghar Clin Res Dev Unit, Tehran, Iran., [Janssens, P.] Univ Hosp Brussels, Brussels, Belgium., [Karamaria, S.; Prytula, A.; Raes, A.; Snauwaert, E.; Vande Walle, J.] UZ Gent, Ghent, Belgium., [Koenig, J.] Univ Hosp Muenster, Munster, Germany., [Litwin, M.; Obrycki, L.] Childrens Mem Hlth Inst, Warsaw, Poland., [Lombet, J.] CHR Citadelle, Liege, Belgium., [Longo, G.; Murer, L.] Hosp Univ Padova, Pediat Nephrol Dialysis & Transplant Unit, Padua, Italy., [Mallawaarachchi, A.] Garvan Inst, Darlinghurst, NSW, Australia., [Mallawaarachchi, A.] Royal Prince Alfred Hosp, Camperdown, NSW, Australia., [Mallawaarachchi, A.; McCarthy, H.; Quinlan, C.] KidGen, Sydney, NSW, Australia., [McCarthy, H.] Childrens Hosp Westmead, Westmead, NSW, Australia., [McCarthy, H.] Sydney Childrens Hosp, Sydney, NSW, Australia., [Papizh, S.; Prikhodina, L.] Pirogov Russian Nat Res Med Uni, Res & Clin Inst Pediat, Moscow, Russia., [Parvex, P.; Wilhelm-Bals, A.] Childrens Univ Hosp Geneva, Geneva, Switzerland., [Pawlak-Bratkowska, M.; Szczepanik, E.; Tkaczyk, M.] Polish Mothers Mem Hosp, Res Inst, Lodz, Poland., [Quinlan, C.] RCH Melbourne, Melbourne, Vic, Australia., [Ranchin, B.] Hop Femme Mere Enfant, Bron, France., [Ronit, C.] Ctr Hosp Luxembourg, Clin Pediat, Luxembourg, Luxembourg., [Schaefer, S.; Wuehl, E.] Ctr Pediat & Adolescent, Div Pediat Nephrol, Heidelberg, Germany., [Schreuder, M.] Radboudumc Amalia Childrens Hosp, Nijmegen, Netherlands., [Schurmans, T.; Tram, N.] CHU Charleroi, Charleroi, Belgium., [Seeman, T.] Charles Univ Prague, Prague, Czech Republic., [Seeman, T.] Motol Univ Hosp, Prague, Czech Republic., [Sinha, M.] Evelina London Childrens Hosp, London, England., [Taranta-Janusz, K.] Dept Pediat & Nephrol, Bialystok, Poland., [Thumfart, J.] Berlin Charite Univ Med, Berlin, Germany., [Utsch, B.] Herford Hosp, Dept Paediat, Herford, Germany., [Yildirim, Z. Y.] Istanbul Univ, Fac Med, Pediat Nephrol Dept, Istanbul, Turkey.

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2019

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