Pascale Smets scite author profile

Background: Blood urea nitrogen and serum creatinine concentrations only detect a decrease of 475% of renal functional mass. Therefore, there is a need for markers that allow early detection and localization of renal damage.Hypothesis: Urinary albumin (uALB), C-reactive protein (uCRP), retinol binding protein (uRBP), and N-acetyl-b-Dglucosaminidase (uNAG) concentrations are increased in dogs with chronic kidney disease (CKD) compared with healthy controls and in healthy older dogs compared with young dogs.Animals: Ten dogs with CKD, 10 healthy young dogs (age 1-3 years), and 10 healthy older dogs (age 4 7 years) without clinically relevant abnormalities on physical examination, hematology, biochemistry, and urinalysis.Methods: Urinary markers were determined using an ELISA (uALB, uCRP, and uRBP) or a colorimetric test (uNAG). Results were related to urinary creatinine (c). The fixed effects model or the Wilcoxon rank sum test were used to compare the different groups of dogs.Results: uALB/c, uRBP/c, and uNAG/c were significantly higher in CKD dogs than in healthy dogs. No significant difference was found for uCRP, which was not detectable in the healthy dogs and only in 3 of the CKD dogs. Between the healthy young and older dogs, no significant difference was detected for any of the markers.Conclusion: The urinary markers uALB/c, uRBP/c, and uNAG/c were significantly increased in dogs with CKD compared with healthy controls. Additional studies are needed to evaluate the ability of these markers to detect renal disease before the onset of azotemia.

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Urinary Biomarkers for Acute Kidney Injury in Dogs

Loor

Daminet

Smets

et al. 2013

Veterinary Internal Medicne

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Routinely, kidney dysfunction and decreased glomerular filtration rate (GFR) are diagnosed by the evaluation of changes in the serum creatinine (SCr) and blood urea nitrogen (BUN) concentrations. However, neither of these tests is sensitive or specific enough for the early diagnosis of impaired kidney function because they are both affected by other renal and nonrenal factors. Furthermore, kidney injury can be present in the absence of kidney dysfunction. Renal reserve enables normal GFR even when nephrons are damaged. Renal biomarkers, especially those present in urine, may be useful for the study of both acute and chronic nephropathies. The aim of this review is to describe the current status of urinary biomarkers as diagnostic tools for kidney injury in dogs with particular focus on acute kidney injury (AKI). The International Renal Interest Society (IRIS) canine AKI grading system and the implementation of urinary biomarkers in this system also are discussed. The discovery of novel urinary biomarkers has emerged from hypotheses about the pathophysiology of kidney injury, but few proteomic urine screening approaches have been described in dogs. Lack of standardization of biomarker assays further complicates the comparison of novel canine urinary biomarker validation results among studies. Future research should focus on novel biomarkers of renal origin and evaluate promising biomarkers in different clinical conditions. Validation of selected urinary biomarkers in the diagnosis of canine kidney diseases must include dogs with both renal and nonrenal diseases to evaluate their sensitivity, specificity as well as their negative and positive predictive values.

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Results of Screening of Apparently Healthy Senior and Geriatric Dogs

Willems

Paepe

Marynissen

et al. 2016

Veterinary Internal Medicne

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BackgroundThere is a growing interest in health care of elderly dogs; however, scientific information about physical and laboratory examination findings in this age group is limited.ObjectivesTo describe systolic blood pressure (SBP), and results of physical examination and laboratory tests in senior and geriatric dogs that were judged by the owner to be healthy.AnimalsHundred client‐owned dogs.MethodsDogs were prospectively recruited. Owners completed a questionnaire. SBP measurement, physical, orthopedic and neurologic examination, direct fundoscopy and Schirmer tear test were performed. Complete blood count, serum biochemistry, and urinalysis were evaluated.ResultsForty‐one senior and 59 geriatric dogs were included. Mean SBP was 170 ± 38 mmHg, and 53 dogs had SBP > 160 mmHg. Thirty‐nine animals were overweight. A heart murmur was detected in 22, severe calculus in 21 and 1 or more (sub)cutaneous masses in 56 dogs. Thirty‐two dogs had increased serum creatinine, 29 hypophosphatemia, 27 increased ALP, 25 increased ALT, and 23 leukopenia. Crystalluria, mostly amorphous crystals, was commonly detected (62/96). Overt proteinuria and borderline proteinuria were detected in 13 and 18 of 97 dogs, respectively. Four dogs had a positive urine bacterial culture. Frequency of orthopedic problems, frequency of (sub)cutaneous masses, and platelet count were significantly higher in geriatric compared with senior dogs. Body temperature, hematocrit, serum albumin, and serum total thyroxine concentration were significantly lower in geriatric compared with senior dogs.Conclusions and Clinical ImportancePhysical and laboratory abnormalities are common in apparently healthy elderly dogs. Veterinarians play a key role in implementing health screening and improving health care for elderly pets.

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Cystatin C: A New Renal Marker and Its Potential Use in Small Animal Medicine

Ghys

Paepe

Smets

et al. 2014

Veterinary Internal Medicne

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The occurrence of chronic kidney disease is underestimated in both human and veterinary medicine. Glomerular filtration rate (GFR) is considered the gold standard for evaluating kidney function. However, GFR assessment is time‐consuming and labor‐intensive and therefore not routinely used in practice. The commonly used indirect GFR markers, serum creatinine (sCr) and urea, are not sufficiently sensitive or specific to detect early renal dysfunction. Serum cystatin C (sCysC), a proteinase inhibitor, has most of the properties required for an endogenous GFR marker. In human medicine, numerous studies have evaluated its potential use as a GFR marker in several populations. In veterinary medicine, this marker is gaining interest. The measurement is easy, which makes it an interesting parameter for clinical use. This review summarizes current knowledge about cystatin C (CysC) in humans, dogs, and cats, including its history, assays, relationship with GFR, and biological and clinical variations in both human and veterinary medicine.

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Cushing’s syndrome, glucocorticoids and the kidney

Smets

Meyer

Maddens

et al. 2010

General and Comparative Endocrinology

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Evaluation of Kidney Injury in Dogs with Pyometra Based on Proteinuria, Renal Histomorphology, and Urinary Biomarkers

Maddens

Heiene

Smets

et al. 2011

Veterinary Internal Medicne

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Long‐Term Follow‐Up of Renal Function in Dogs after Treatment forACTH‐Dependent Hyperadrenocorticism

Smets

Lefebvre

Meij

et al. 2012

Veterinary Internal Medicne

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Simpson's method of discs in Salukis and Whippets: Echocardiographic reference intervals for end-diastolic and end-systolic left ventricular volumes

Seckerdieck

Holler

Smets

et al. 2015

Journal of Veterinary Cardiology

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Pascale Smets

Urinary Markers in Healthy Young and Aged Dogs and Dogs with Chronic Kidney Disease

Urinary Biomarkers for Acute Kidney Injury in Dogs

Results of Screening of Apparently Healthy Senior and Geriatric Dogs

Cystatin C: A New Renal Marker and Its Potential Use in Small Animal Medicine

Cushing’s syndrome, glucocorticoids and the kidney

Evaluation of Kidney Injury in Dogs with Pyometra Based on Proteinuria, Renal Histomorphology, and Urinary Biomarkers

Long‐Term Follow‐Up of Renal Function in Dogs after Treatment forACTH‐Dependent Hyperadrenocorticism

Simpson's method of discs in Salukis and Whippets: Echocardiographic reference intervals for end-diastolic and end-systolic left ventricular volumes

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