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  1. Article: Non-classical Vitamin D Actions for Renal Protection.

    Dusso, Adriana S / Bauerle, Kevin T / Bernal-Mizrachi, Carlos

    Frontiers in medicine

    2021  Volume 8, Page(s) 790513

    Abstract: Chronic Kidney Disease (CKD), a disorder that affects 11% of the world's population, is characterized by an acceleration in skeletal, immune, renal, and cardiovascular aging that increases the risk of cardiovascular mortality by 10- to 20-fold, compared ... ...

    Abstract Chronic Kidney Disease (CKD), a disorder that affects 11% of the world's population, is characterized by an acceleration in skeletal, immune, renal, and cardiovascular aging that increases the risk of cardiovascular mortality by 10- to 20-fold, compared to that in individuals with normal renal function. For more than two decades, the progressive impairment in renal capacity to maintain normal circulating levels of the hormonal form of vitamin D (1,25-dihydroxyvitamin D or calcitriol) was considered the main contributor to the reduced survival of CKD patients. Accordingly, calcitriol administration was the treatment of choice to attenuate the progression of secondary hyperparathyroidism (SHPT) and its adverse impact on bone health and vascular calcification. The development of calcitriol analogs, designed to mitigate the resistance to calcitriol suppression of PTH associated with CKD progression, demonstrated survival benefits unrelated to the control of SHPT or skeletal health. The exhaustive search for the pathophysiology behind survival benefits associated with active vitamin D analogs has identified novel anti-inflammatory, anti-hypertensive, anti-aging actions of the vitamin D endocrine system. A major paradigm shift regarding the use of calcitriol or active vitamin D analogs to improve survival in CKD patients emerged upon demonstration of a high prevalence of vitamin D (not calcitriol) deficiency at all stages of CKD and, more significantly, that maintaining serum levels of the calcitriol precursor, 25(OH)vitamin D, above 23 ng/ml delayed CKD progression. The cause of vitamin D deficiency in CKD, however, is unclear since vitamin D bioactivation to 25(OH)D occurs mostly at the liver. Importantly, neither calcitriol nor its analogs can correct vitamin D deficiency. The goals of this chapter are to present our current understanding of the pathogenesis of vitamin D deficiency in CKD and of the causal link between defective vitamin D bioactivation to calcitriol and the onset of molecular pathways that promote CKD progression independently of the degree of SHPT. An understanding of these mechanisms will highlight the need for identification of novel sensitive biomarkers to assess the efficacy of interventions with vitamin D and/or calcitriol(analogs) to ameliorate CKD progression in a PTH-independent manner.
    Language English
    Publishing date 2021-12-07
    Publishing country Switzerland
    Document type Journal Article ; Review
    ZDB-ID 2775999-4
    ISSN 2296-858X
    ISSN 2296-858X
    DOI 10.3389/fmed.2021.790513
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article: Kidney disease and vitamin D levels: 25-hydroxyvitamin D, 1,25-dihydroxyvitamin D, and VDR activation.

    Dusso, Adriana S

    Kidney international supplements

    2014  Volume 1, Issue 4, Page(s) 136–141

    Abstract: A normal vitamin D status is essential for human health. Vitamin D deficiency is a recognized risk factor for all-cause mortality in normal individuals and in chronic kidney disease (CKD) patients. The link between vitamin D deficiency and death is a ... ...

    Abstract A normal vitamin D status is essential for human health. Vitamin D deficiency is a recognized risk factor for all-cause mortality in normal individuals and in chronic kidney disease (CKD) patients. The link between vitamin D deficiency and death is a defective activation of the vitamin D receptor (VDR) by 1,25-dihydroxyvitamin D (calcitriol, the vitamin D hormone) to induce/repress genes that maintain mineral homeostasis and skeletal integrity, and prevent secondary hyperparathyroidism, hypertension, immune disorders, and renal and cardiovascular (CV) damage. The kidney is the main site for the conversion of 25-hydroxyvitamin D (25D) to circulating calcitriol, and therefore essential for the health benefits of endocrine VDR activation. The kidney is also essential for the uptake of 25D from the glomerular ultrafiltrate for its recycling to the circulation to maintain serum 25D levels, extrarenal calcitriol synthesis, and the prosurvival benefits of autocrine/paracrine VDR activation. Indeed, both calcitriol and vitamin D deficiency increase progressively in the course of CKD, and associate directly with accelerated disease progression and death. Therefore, the safe correction of calcitriol and vitamin D deficiency/insufficiency is becoming a high priority among nephrologists. This review updates the pathophysiology behind 25D and calcitriol deficiency and impaired VDR activation in CKD, the adequacy of current recommendations for vitamin D supplementation, and potential markers of the efficacy of therapy to prevent or slow the development of renal and CV lesions unrelated to parathyroid hormone suppression, a knowledge required for the design of trials to obtain evidence-based recommendations for vitamin D and calcitriol replacement at all stages of CKD.
    Language English
    Publishing date 2014-06-15
    Publishing country United States
    Document type Review
    ZDB-ID 193442-9
    ISSN 2157-1716 ; 2157-1724 ; 0098-6577
    ISSN (online) 2157-1716
    ISSN 2157-1724 ; 0098-6577
    DOI 10.1038/kisup.2011.30
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  3. Article ; Online: Update on the biologic role of the vitamin D endocrine system.

    Dusso, Adriana S

    Current vascular pharmacology

    2013  Volume 12, Issue 2, Page(s) 272–277

    Abstract: The integrity of the vitamin D endocrine system is essential for human health. Nutritional vitamin D deficiency in otherwise healthy individuals, associates with a higher risk of mortality for all causes, despite normal serum calcitriol. These deadly ... ...

    Abstract The integrity of the vitamin D endocrine system is essential for human health. Nutritional vitamin D deficiency in otherwise healthy individuals, associates with a higher risk of mortality for all causes, despite normal serum calcitriol. These deadly causes extend beyond the recognized adverse impact of vitamin D deficiency on calcium and phosphate homeostasis predisposing to secondary hyperparathyroidism, bone loss and vascular calcification. Vitamin D deficiency also associates with an early onset of disorders of aging, including hypertension, proteinuria, insulin resistance, immune abnormalities that enhance the propensity for viral and bacterial infections, autoimmune disorders, cancer, and multiple organ damage due to excessive systemic inflammation causing atherosclerosis, vascular stiffness, renal lesions, and impaired DNA-damage responses. The frequency and severity of all of these disorders markedly increase in chronic kidney disease (CKD) because the kidney is essential to maintain serum levels of calcitriol, the most potent endogenous endocrine activator of the vitamin D receptor (VDR), and also of 25-hydroxyvitamin D, for local rather than systemic VDR activation. The goal of this review is to update the current understanding of the pathophysiology behind the classical and non-classical actions of VDR activation that help prevent the onset and/or attenuate the progression of renal and cardiovascular damage in CKD. This knowledge is essential to identify non-invasive, sensitive and accurate biomarkers of the severity of these disorders, a first step to generate evidence-based recommendations for a safe correction of vitamin D and/or calcitriol deficiency in the course of CKD that effectively improves outcomes.
    MeSH term(s) Animals ; DNA Damage ; Endocrine System ; Fibroblast Growth Factors/physiology ; Humans ; Proteinuria/prevention & control ; Receptors, Calcitriol/physiology ; Renal Insufficiency, Chronic/etiology ; Renin-Angiotensin System/physiology ; Vitamin D/physiology
    Chemical Substances Receptors, Calcitriol ; Vitamin D (1406-16-2) ; Fibroblast Growth Factors (62031-54-3) ; fibroblast growth factor 23 (7Q7P4S7RRE)
    Language English
    Publishing date 2013-05-27
    Publishing country United Arab Emirates
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 2192362-0
    ISSN 1875-6212 ; 1570-1611
    ISSN (online) 1875-6212
    ISSN 1570-1611
    DOI 10.2174/15701611113119990026
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  4. Article ; Online: Renal vitamin D receptor expression and vitamin D renoprotection.

    Dusso, Adriana S

    Kidney international

    2012  Volume 81, Issue 10, Page(s) 937–939

    Abstract: Therapy to enhance the renoprotective actions of vitamin D receptor (VDR) activation should safely overcome the distinct VDR content along the nephron to effectively control renal calcium reabsorption, control renal klotho levels for the phosphaturic ... ...

    Abstract Therapy to enhance the renoprotective actions of vitamin D receptor (VDR) activation should safely overcome the distinct VDR content along the nephron to effectively control renal calcium reabsorption, control renal klotho levels for the phosphaturic actions of FGF23, and inhibit proteinuria and the activation of the renin-angiotensin system.
    MeSH term(s) Animals ; Female ; Humans ; Kidney/chemistry ; Male ; Receptors, Calcitriol/analysis
    Chemical Substances Receptors, Calcitriol
    Language English
    Publishing date 2012-05
    Publishing country United States
    Document type Comment ; Journal Article
    ZDB-ID 120573-0
    ISSN 1523-1755 ; 0085-2538
    ISSN (online) 1523-1755
    ISSN 0085-2538
    DOI 10.1038/ki.2012.30
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  5. Article ; Online: Enhanced induction of Cyp24a1 by FGF23 but low serum 24,25-dihydroxyvitamin D in CKD: implications for therapy.

    Dusso, Adriana S / Rodriguez, Mariano

    Kidney international

    2012  Volume 82, Issue 10, Page(s) 1046–1049

    Abstract: In normal people, induction by FGF23 of renal Cyp24a1, the enzyme that degrades 25-hydroxyvitamin D and 1,25-dihydroxyvitamin D, helps to protect from the disorders caused by excessive 1,25-dihydroxyvitamin D. Dai and co-workers report, however, that in ... ...

    Abstract In normal people, induction by FGF23 of renal Cyp24a1, the enzyme that degrades 25-hydroxyvitamin D and 1,25-dihydroxyvitamin D, helps to protect from the disorders caused by excessive 1,25-dihydroxyvitamin D. Dai and co-workers report, however, that in human and mouse kidney disease, high FGF23 concurs with low rather than high serum 24,25-dihydroxyvitamin D, a biomarker of Cyp24a1 activity. Their characterization of the underlying mechanisms provides new understanding of how kidney disease impairs the health benefits of vitamin D-FGF23/klotho interactions.
    MeSH term(s) Animals ; Dihydroxycholecalciferols/blood ; Female ; Fibroblast Growth Factors/blood ; Humans ; Male ; Nephritis, Hereditary/blood ; Renal Insufficiency, Chronic/blood
    Chemical Substances Dihydroxycholecalciferols ; fibroblast growth factor 23 ; Fibroblast Growth Factors (62031-54-3)
    Language English
    Publishing date 2012-11
    Publishing country United States
    Document type Comment ; Journal Article
    ZDB-ID 120573-0
    ISSN 1523-1755 ; 0085-2538
    ISSN (online) 1523-1755
    ISSN 0085-2538
    DOI 10.1038/ki.2012.273
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  6. Article ; Online: MicroRNA-145 and microRNA-486 are potential serum biomarkers for vascular calcification.

    Fernández-Villabrille, Sara / Martín-Carro, Beatriz / Martín-Vírgala, Julia / Alonso-Montes, Cristina / Palomo-Antequera, Carmen / García-Castro, Raúl / López-Ongil, Susana / Dusso, Adriana S / Fernández-Martín, José Luis / Naves-Díaz, Manuel / Cannata-Andía, Jorge B / Carrillo-López, Natalia / Panizo, Sara

    Nephrology, dialysis, transplantation : official publication of the European Dialysis and Transplant Association - European Renal Association

    2023  Volume 38, Issue 7, Page(s) 1729–1740

    Abstract: Introduction: MicroRNAs (miRs) regulate vascular calcification (VC), and their quantification may contribute to suspicion of the presence of VC.: Methods: The study was performed in four phases. Phase 1: miRs sequencing of rat calcified and non- ... ...

    Abstract Introduction: MicroRNAs (miRs) regulate vascular calcification (VC), and their quantification may contribute to suspicion of the presence of VC.
    Methods: The study was performed in four phases. Phase 1: miRs sequencing of rat calcified and non-calcified aortas. Phase 2: miRs with the highest rate of change, plus miR-145 [the most abundant miR in vascular smooth muscle cells (VSMCs)], were validated in aortas and serum from rats with and without VC. Phase 3: the selected miRs were analyzed in epigastric arteries from kidney donors and recipients, and serum samples from general population. Phase 4: VSMCs were exposed to different phosphorus concentrations, and miR-145 and miR-486 were overexpressed to investigate their role in VC.
    Results: miR-145, miR-122-5p, miR-486 and miR-598-3p decreased in the rat calcified aortas, but only miR-145 and miR-486 were detected in serum. In human epigastric arteries, miR-145 and miR-486 were lower in kidney transplant recipients compared with donors. Both miRs inversely correlated with arterial calcium content and with VC (Kauppila index). In the general population, the severe VC was associated with the lowest serum levels of both miRs. The receiver operating characteristic curve showed that serum miR-145 was a good biomarker of VC. In VSMCs exposed to high phosphorus, calcium content, osteogenic markers (Runx2 and Osterix) increased, and the contractile marker (α-actin), miR-145 and miR-486 decreased. Overexpression of miR-145, and to a lesser extent miR-486, prevented the increase in calcium content induced by high phosphorus, the osteogenic differentiation and the loss of the contractile phenotype.
    Conclusion: miR-145 and miR-486 regulate the osteogenic differentiation of VSMCs, and their quantification in serum could serve as a marker of VC.
    MeSH term(s) Animals ; Humans ; Rats ; Biomarkers ; Calcium ; MicroRNAs/genetics ; Muscle, Smooth, Vascular ; Myocytes, Smooth Muscle ; Osteogenesis/genetics ; Phosphorus ; Vascular Calcification/genetics
    Chemical Substances Biomarkers ; Calcium (SY7Q814VUP) ; MicroRNAs ; MIRN-598 microRNA, human ; MIRN145 microRNA, human ; MIRN145 microRNA, rat ; MIRN486 microRNA, human ; Phosphorus (27YLU75U4W)
    Language English
    Publishing date 2023-01-30
    Publishing country England
    Document type Journal Article
    ZDB-ID 90594-x
    ISSN 1460-2385 ; 0931-0509
    ISSN (online) 1460-2385
    ISSN 0931-0509
    DOI 10.1093/ndt/gfad027
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    Zs.MO 329: Show issues

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  7. Article: Vitamin D Treatment Prevents Uremia-Induced Reductions in Aortic microRNA-145 Attenuating Osteogenic Differentiation despite Hyperphosphatemia

    Carrillo-López, Natalia / Panizo, Sara / Arcidiacono, Maria Vittoria / de la Fuente, Sandra / Martínez-Arias, Laura / Ottaviano, Emerenziana / Ulloa, Catalina / Ruiz-Torres, María Piedad / Rodríguez, Isabel / Cannata-Andía, Jorge B. / Naves-Díaz, Manuel / Dusso, Adriana S.

    Nutrients. 2022 June 22, v. 14, no. 13

    2022  

    Abstract: In chronic kidney disease, systemic inflammation and high serum phosphate (P) promote the de-differentiation of vascular smooth muscle cells (VSMC) to osteoblast-like cells, increasing the propensity for medial calcification and cardiovascular mortality. ...

    Abstract In chronic kidney disease, systemic inflammation and high serum phosphate (P) promote the de-differentiation of vascular smooth muscle cells (VSMC) to osteoblast-like cells, increasing the propensity for medial calcification and cardiovascular mortality. Vascular microRNA-145 (miR-145) content is essential to maintain VSMC contractile phenotype. Because vitamin D induces aortic miR-145, uremia and high serum P reduce it and miR-145 directly targets osteogenic osterix in osteoblasts, this study evaluated a potential causal link between vascular miR-145 reductions and osterix-driven osteogenic differentiation and its counter-regulation by vitamin D. Studies in aortic rings from normal rats and in the rat aortic VSMC line A7r5 exposed to calcifying conditions corroborated that miR-145 reductions were associated with decreases in contractile markers and increases in osteogenic differentiation and calcium (Ca) deposition. Furthermore, miR-145 silencing enhanced Ca deposition in A7r5 cells exposed to calcifying conditions, while miR-145 overexpression attenuated it, partly through increasing α-actin levels and reducing osterix-driven osteogenic differentiation. In mice, 14 weeks after the induction of renal mass reduction, both aortic miR-145 and α-actin mRNA decreased by 80% without significant elevations in osterix or Ca deposition. Vitamin D treatment from week 8 to 14 fully prevented the reductions in aortic miR-145 and attenuated by 50% the decreases in α-actin, despite uremia-induced hyperphosphatemia. In conclusion, vitamin D was able to prevent the reductions in aortic miR-145 and α-actin content induced by uremia, reducing the alterations in vascular contractility and osteogenic differentiation despite hyperphosphatemia.
    Keywords blood serum ; bone formation ; calcification ; calcium ; inflammation ; mortality ; osteoblasts ; phenotype ; phosphates ; rats ; smooth muscle ; uremia ; vitamin D
    Language English
    Dates of publication 2022-0622
    Publishing place Multidisciplinary Digital Publishing Institute
    Document type Article
    ZDB-ID 2518386-2
    ISSN 2072-6643
    ISSN 2072-6643
    DOI 10.3390/nu14132589
    Database NAL-Catalogue (AGRICOLA)

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  8. Article ; Online: Defective renal maintenance of the vitamin D endocrine system impairs vitamin D renoprotection: a downward spiral in kidney disease.

    Dusso, Adriana S / Tokumoto, Masanori

    Kidney international

    2011  Volume 79, Issue 7, Page(s) 715–729

    Abstract: In kidney disease, the progressive loss of renal capacity to produce calcitriol, the vitamin D hormone, is a key contributor to elevations in parathyroid hormone (PTH) and mineral and skeletal disorders predisposing to renal and cardiovascular damage, ... ...

    Abstract In kidney disease, the progressive loss of renal capacity to produce calcitriol, the vitamin D hormone, is a key contributor to elevations in parathyroid hormone (PTH) and mineral and skeletal disorders predisposing to renal and cardiovascular damage, ectopic calcifications, and high mortality rates. Thus, the safe correction of calcitriol deficiency to suppress PTH has been the treatment of choice for decades. However, recent epidemiological and experimental data suggest that calcitriol replacement may improve outcomes through renal and cardioprotective actions unrelated to PTH suppression. Furthermore, a striking incidence of vitamin D deficiency occurs in kidney disease and associates more strongly than calcitriol deficiency with a higher risk for kidney disease progression and death. Despite the translational relevance of these findings, no prospective trials are currently available in support of the efficacy of vitamin D supplementation and/or calcitriol replacement to safely halt/moderate renal disease progression. This review updates the pathophysiology behind the vicious cycle by which kidney injury impairs the maintenance of normal vitamin D and calcitriol levels, which in turn impedes vitamin D/calcitriol renoprotective actions, a requirement for the design of prospective trials to improve current recommendations for vitamin D interventions at all stages of kidney disease.
    MeSH term(s) Animals ; Calcitriol/therapeutic use ; Dietary Supplements ; Disease Progression ; Humans ; Kidney/drug effects ; Kidney/metabolism ; Kidney/physiopathology ; Kidney Diseases/complications ; Kidney Diseases/drug therapy ; Kidney Diseases/metabolism ; Kidney Diseases/physiopathology ; Practice Guidelines as Topic ; Receptors, Calcitriol/metabolism ; Signal Transduction/drug effects ; Vitamin D/analogs & derivatives ; Vitamin D/blood ; Vitamin D/metabolism ; Vitamin D/therapeutic use ; Vitamin D Deficiency/complications ; Vitamin D Deficiency/drug therapy ; Vitamin D Deficiency/metabolism
    Chemical Substances Receptors, Calcitriol ; Vitamin D (1406-16-2) ; 25-hydroxyvitamin D (A288AR3C9H) ; Calcitriol (FXC9231JVH)
    Language English
    Publishing date 2011-04
    Publishing country United States
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't ; Review
    ZDB-ID 120573-0
    ISSN 1523-1755 ; 0085-2538
    ISSN (online) 1523-1755
    ISSN 0085-2538
    DOI 10.1038/ki.2010.543
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  9. Article: Vitamin D receptor: mechanisms for vitamin D resistance in renal failure.

    Dusso, Adriana S

    Kidney international. Supplement

    2003  , Issue 85, Page(s) S6–9

    Abstract: 1,25-dihydroxyvitamin D [1,25(OH)2D3], the hormonal form of vitamin D, controls serum levels of parathyroid hormone (PTH) and parathyroid hyperplasia. Both 1,25(OH)2D3 actions involve regulation of gene transcription by the 1,25(OH)2D3/vitamin D receptor ...

    Abstract 1,25-dihydroxyvitamin D [1,25(OH)2D3], the hormonal form of vitamin D, controls serum levels of parathyroid hormone (PTH) and parathyroid hyperplasia. Both 1,25(OH)2D3 actions involve regulation of gene transcription by the 1,25(OH)2D3/vitamin D receptor (VDR) complex. In advanced renal failure, in addition to low serum 1,25(OH)2D3 and reduced parathyroid vitamin D receptor content, several mechanisms downstream from 1,25(OH)2D3/VDR complex formation contribute to the impairment of 1,25(OH)2D3 action, including reduced levels of the retinoid X receptor, RXR, with the consequent reduction in VDR/RXR heterodimer formation, and accumulation of uremic toxins and increases in nuclear levels of calreticulin, two processes that impair the binding of the VDR/RXR complex to vitamin D responsive elements in vitamin D-regulated genes. VDR/RXR-heterodimer formation and its binding to DNA is critical for 1,25(OH)2D3 regulation of gene transcription. Early interventions with 1,25(OH)2D3 could delay the onset of vitamin D resistance by preventing both 1,25(OH)2D3 deficiency and its critical consequence, reduction in VDR content. Once established, vitamin D resistance could be counteracted by vitamin D analogs. While their less calcemic properties make higher dosing safer, their specificity to recruit co-activator molecules to the transcriptional pre-initiation complex could compensate for reduced 1,25(OH)2D3/VDR by potentiating VDR-transactivation/transrepression of genes critical for normal PTH synthesis and parathyroid cell growth.
    MeSH term(s) Animals ; Calcitriol/physiology ; Humans ; Kidney Failure, Chronic/physiopathology ; Receptors, Calcitriol/physiology ; Vitamin D/physiology
    Chemical Substances Receptors, Calcitriol ; Vitamin D (1406-16-2) ; Calcitriol (FXC9231JVH)
    Language English
    Publishing date 2003-06
    Publishing country United States
    Document type Journal Article ; Review
    ZDB-ID 193442-9
    ISSN 2157-1716 ; 0098-6577 ; 2157-1724
    ISSN (online) 2157-1716
    ISSN 0098-6577 ; 2157-1724
    DOI 10.1046/j.1523-1755.63.s85.3.x
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  10. Article: Nodular parathyroid growth: role of vitamin D resistance.

    Dusso, Adriana S

    Kidney international

    2002  Volume 62, Issue 4, Page(s) 1472–1473

    MeSH term(s) Drug Resistance ; Humans ; Hyperparathyroidism, Secondary/drug therapy ; Hyperparathyroidism, Secondary/etiology ; Hyperparathyroidism, Secondary/physiopathology ; Renal Insufficiency/complications ; Vitamin D/therapeutic use
    Chemical Substances Vitamin D (1406-16-2)
    Language English
    Publishing date 2002-10
    Publishing country United States
    Document type Comment ; Editorial ; Review
    ZDB-ID 120573-0
    ISSN 1523-1755 ; 0085-2538
    ISSN (online) 1523-1755
    ISSN 0085-2538
    DOI 10.1111/j.1523-1755.2002.kid593.x
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