Measuring renal function
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+ | {{hoprn|Kidney%20%28Glomerular%20filtration%20rate%29|1}} | ||
+ | {{hoprn|Cystatin%20C}} | ||
+ | {{hoprn|NGAL}} | ||
+ | {{hoprn|Kim1}} | ||
+ | {{hoprn|Interleukin18}} | ||
+ | {{hoprn|Kidney%20%28Scintigraphy%29}} | ||
+ | |||
==General aspects== | ==General aspects== | ||
{{tp|p=17023465|t=How to measure renal function in clinical practice |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=17023465&pmc=1592388&ti=How%20to%20measure%20renal%20function%20in%20clinical%20practice|usr=|}}full on topic review, gives formulae | {{tp|p=17023465|t=How to measure renal function in clinical practice |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=17023465&pmc=1592388&ti=How%20to%20measure%20renal%20function%20in%20clinical%20practice|usr=|}}full on topic review, gives formulae | ||
+ | {{tp|p=19261813|t=2009. Misapplications of commonly used kidney equations: renal physiology in practice |pdf=http://cjasn.asnjournals.org/content/4/3/528.full.pdf|usr=tw}} | ||
{{tp|p=17556476|t=Formula estimation of glomerular filtration rate: have we gone wrong?|pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=17556476&pmc=1889938&ti=Formula%20estimation%20of%20glomerular%20filtration%20rate:%20have%20we%20gone%20wrong?|usr=|}} | {{tp|p=17556476|t=Formula estimation of glomerular filtration rate: have we gone wrong?|pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=17556476&pmc=1889938&ti=Formula%20estimation%20of%20glomerular%20filtration%20rate:%20have%20we%20gone%20wrong?|usr=|}} | ||
{{tp|p=19833901|t=Measured GFR as a confirmatory test for estimated GFR |pdf=http://jasn.asnjournals.org/content/20/11/2305.full.pdf|usr=|}} | {{tp|p=19833901|t=Measured GFR as a confirmatory test for estimated GFR |pdf=http://jasn.asnjournals.org/content/20/11/2305.full.pdf|usr=|}} | ||
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{{tp|p=20448068|t=The CKD-EPI equation for estimating GFR from serum creatinine: real improvement or more of the same?|pdf=http://cjasn.asnjournals.org/content/5/6/951.full.pdf|usr=|}} | {{tp|p=20448068|t=The CKD-EPI equation for estimating GFR from serum creatinine: real improvement or more of the same?|pdf=http://cjasn.asnjournals.org/content/5/6/951.full.pdf|usr=|}} | ||
{{tp|p=18540009|t=Comparison of combined urea and creatinine clearance and prediction equations as measures of residual renal function when GFR is low |pdf=http://qjmed.oxfordjournals.org/content/qjmed/101/8/619.full.pdf|usr=|}} | {{tp|p=18540009|t=Comparison of combined urea and creatinine clearance and prediction equations as measures of residual renal function when GFR is low |pdf=http://qjmed.oxfordjournals.org/content/qjmed/101/8/619.full.pdf|usr=|}} | ||
+ | |||
+ | |||
==Cystatin C== | ==Cystatin C== | ||
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{{tp|p=19768194|t=Ageing and the glomerular filtration rate: truths and consequences |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=19768194&pmc=2744545&ti=Ageing%20and%20the%20glomerular%20filtration%20rate:%20truths%20and%20consequences|usr=|}} | {{tp|p=19768194|t=Ageing and the glomerular filtration rate: truths and consequences |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=19768194&pmc=2744545&ti=Ageing%20and%20the%20glomerular%20filtration%20rate:%20truths%20and%20consequences|usr=|}} | ||
+ | |||
+ | |||
+ | ==AKI biomarkers== | ||
+ | {{tp|p=18061846|t=Proteomics for biomarker discovery in acute kidney injury |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=18061846&pmc=2174578&ti=Proteomics%20for%20biomarker%20discovery%20in%20acute%20kidney%20injury|usr=|}} | ||
+ | {{tp|p=18256377|t=Urinary biomarkers for acute kidney injury: perspectives on translation |pdf=http://cjasn.asnjournals.org/content/3/2/481.full.pdf|usr=|}} | ||
+ | {{tp|p=18790370|t=The future of pediatric acute kidney injury management--biomarkers |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=18790370&pmc=2597020&ti=The%20future%20of%20pediatric%20acute%20kidney%20injury%20management--biomarkers|usr=|}} | ||
+ | |||
+ | ===NGAL=== | ||
+ | {{tp|p=18001501|t=N-GAL: diagnosing AKI as soon as possible |pdf=http://www.ccforum.com/content/pdf/cc6162.pdf|usr=|}} | ||
+ | {{tp|p=18809975|t=Neutrophil gelatinase-associated lipocalin--an emerging troponin for kidney injury |pdf=http://ndt.oxfordjournals.org/content/23/12/3737.full.pdf|usr=|}} | ||
+ | {{tp|p=18569973|t=Neutrophil gelatinase-associated lipocalin (NGAL): a new marker of kidney disease |pdf=http://sm.kidney.de/epmc.php?ep=eu&pmid=18569973&pmc=2528839&ti=Neutrophil%20gelatinase-associated%20lipocalin%20%28NGAL%29:%20a%20new%20marker%20of%20kidney%20disease|usr=|}} | ||
+ | {{tp|p=16931980|t=Association between increases in urinary neutrophil gelatinase-associated lipocalin and acute renal dysfunction after adult cardiac surgery |pdf=http://anesthesiology.pubs.asahq.org/article.aspx?articleid=1931001|usr=|}} | ||
+ | {{tp|p=20502037|t=Neutrophil gelatinase-associated lipocalin and hepcidin: what do they have in common and is there a potential interaction?|pdf=http://www.karger.com/Article/Pdf/315436|usr=|}} the biology behind the marker | ||
+ | |||
+ | ===KIM1=== | ||
+ | .. | ||
+ | |||
+ | ===Il18=== | ||
+ | .. | ||
+ | |||
+ | ===Meprin=== | ||
+ | .. | ||
+ | |||
+ | ===NHE3=== | ||
+ | .. | ||
+ | |||
+ | |||
+ | |||
+ | ==Clearance studies (Isotopic, Inulin)== | ||
+ | see http://www.kidney.de/bdom/Kidney%20%28Scintigraphy%29.php for all aspects of renal nuclear medicine beyond gfr estimation | ||
+ | |||
+ | {{tp|p=8917197|t=Report of the Radionuclides in Nephrourology Committee on renal clearance |pdf=http://jnm.snmjournals.org/content/37/11/1883.full.pdf|usr=|}} | ||
+ | {{tp|p=2685194|t=Measurement of renal function with radionuclides |pdf=http://jnm.snmjournals.org/content/30/12/2053.full.pdf|usr=|}} | ||
+ | |||
+ | ===Tc99m-MAG3=== | ||
+ | {{tp|p=11545186|t=99mTc-MAG3: review of pharmacokinetics, clinical application to renal diseases and quantification of renal function |pdf=http://www.jsnm.org/files/paper/anm/ams153/ANM15-3-01.pdf|usr=|}} | ||
+ | {{tp|p=9074542|t=Technetium-99m-MAG3 scintigraphy in acute renal failure after transplantation: a marker of viability and prognosis |pdf=http://jnm.snmjournals.org/content/38/3/475.full.pdf|usr=|}} | ||
+ | {{tp|p=1834813|t=Quantitation of renal function using MAG3 |pdf=http://jnm.snmjournals.org/content/32/11/2061.full.pdf|usr=|}} | ||
+ | |||
+ | |||
+ | ===Tc99m-DTPA=== | ||
+ | .. | ||
+ | |||
+ | ===125I-Iothalamate=== | ||
+ | .. | ||
+ | ===%I-Othoiodohippurate=== | ||
+ | .. | ||
==Unsorted== | ==Unsorted== |
Latest revision as of 08:34, 22 September 2015
- This is a structured re-compilation of Kidney%20%28Glomerular%20filtration%20rate%29 in the BDOM free medical review collection
- HOP_Nephrology_Index shows all Nephrology topics
- All re-compiled topics
- This is a structured re-compilation of Cystatin%20C in the BDOM free medical review collection
- This is a structured re-compilation of NGAL in the BDOM free medical review collection
- This is a structured re-compilation of Kim1 in the BDOM free medical review collection
- This is a structured re-compilation of Interleukin18 in the BDOM free medical review collection
- This is a structured re-compilation of Kidney%20%28Scintigraphy%29 in the BDOM free medical review collection
Contents |
General aspects
Journal article, free access |
GET How to measure renal function in clinical practice Extract PDF direct |
Journal article, free access |
GET 2009. Misapplications of commonly used kidney equations: renal physiology in practice Extract PDF directcontrib: tw |
Journal article, free access |
GET Formula estimation of glomerular filtration rate: have we gone wrong? Extract PDF direct |
Journal article, free access |
GET Measured GFR as a confirmatory test for estimated GFR Extract PDF direct |
Journal article, free access |
GET Renal failure--measuring the glomerular filtration rate Extract PDF direct |
Journal article, free access |
GET 1990. Nephrology forum: Measurement of renal function in chronic renal disease Extract PDF direct |
Journal article, free access |
GET Screening for kidney diseases: older measures versus novel biomarkers Extract PDF direct |
eGFR
Journal article, free access |
GET Interpreting the estimated glomerular filtration rate in primary care: benefits and pitfalls Extract PDF direct |
Journal article, free access |
GET Screening for CKD with eGFR: doubts and dangers Extract PDF direct |
Journal article, free access |
GET eGFR: is it ready for early identification of CKD? Extract PDF direct |
Journal article, free access |
GET Reporting eGFR Extract PDF direct |
Journal article, free access |
GET A comparison of prediction equations for estimating glomerular filtration rate in adults without kidney disease Extract PDF direct |
Journal article, free access |
GET Evaluation of the modification of diet in renal disease study equation in a large diverse population Extract PDF direct |
Journal article, free access |
GET The CKD-EPI equation for estimating GFR from serum creatinine: real improvement or more of the same? Extract PDF direct |
Journal article, free access |
GET Comparison of combined urea and creatinine clearance and prediction equations as measures of residual renal function when GFR is low Extract PDF direct |
Cystatin C
Journal article, free access |
GET (Cystatin-C) A new approach for evaluating renal function and its practical application Extract PDF direct |
Journal article, free access |
GET Monitoring renal function: measured and estimated glomerular filtration rates - a review Extract PDF direct |
Journal article, free access |
GET Cystatin C as a more sensitive indicator of diminished glomerular filtration rate Extract PDF direct |
Pediatrics
Journal article, free access |
GET Measurement and estimation of GFR in children and adolescents Extract PDF direct |
Journal article, free access |
GET How to estimate GFR in children Extract PDF direct |
Hyperfiltrating Kidney
Journal article, free access |
GET A comparison of estimates of glomerular filtration in critically ill patients with augmented renal clearance Extract PDF direct |
Aging Kidney
Journal article, free access |
GET Ageing and the glomerular filtration rate: truths and consequences Extract PDF direct |
AKI biomarkers
Journal article, free access |
GET Proteomics for biomarker discovery in acute kidney injury Extract PDF direct |
Journal article, free access |
GET Urinary biomarkers for acute kidney injury: perspectives on translation Extract PDF direct |
Journal article, free access |
GET The future of pediatric acute kidney injury management--biomarkers Extract PDF direct |
NGAL
Journal article, free access |
GET N-GAL: diagnosing AKI as soon as possible Extract PDF direct |
Journal article, free access |
GET Neutrophil gelatinase-associated lipocalin--an emerging troponin for kidney injury Extract PDF direct |
Journal article, free access |
GET Neutrophil gelatinase-associated lipocalin (NGAL): a new marker of kidney disease Extract PDF direct |
Journal article, free access |
GET Association between increases in urinary neutrophil gelatinase-associated lipocalin and acute renal dysfunction after adult cardiac surgery Extract PDF direct |
Journal article, free access |
GET Neutrophil gelatinase-associated lipocalin and hepcidin: what do they have in common and is there a potential interaction? Extract PDF direct |
KIM1
..
Il18
..
Meprin
..
NHE3
..
Clearance studies (Isotopic, Inulin)
see http://www.kidney.de/bdom/Kidney%20%28Scintigraphy%29.php for all aspects of renal nuclear medicine beyond gfr estimation
Journal article, free access |
GET Report of the Radionuclides in Nephrourology Committee on renal clearance Extract PDF direct |
Journal article, free access |
GET Measurement of renal function with radionuclides Extract PDF direct |
Tc99m-MAG3
Journal article, free access |
GET 99mTc-MAG3: review of pharmacokinetics, clinical application to renal diseases and quantification of renal function Extract PDF direct |
Journal article, free access |
GET Technetium-99m-MAG3 scintigraphy in acute renal failure after transplantation: a marker of viability and prognosis Extract PDF direct |
Journal article, free access |
GET Quantitation of renal function using MAG3 Extract PDF direct |
Tc99m-DTPA
..
125I-Iothalamate
..
%I-Othoiodohippurate
..
Unsorted
Journal article, free access |
GET Principles of screening for chronic kidney disease Extract PDF direct |
Journal article, free access |
GET Glomerular filtration rate--what is the rationale and justification of normalizing GFR for body surface area? Extract PDF direct |
Journal article, free access |
GET Chronic kidney disease stage in renal transplantation classification using cystatin C and creatinine-based equations Extract PDF direct |
Journal article, free access |
GET 1991. Glomerular filtration rate in children: where we have been; where we are going Extract PDF direct |
Journal article, free access |
GET Measurement error in estimated GFR slopes across transplant chronic kidney disease stages Extract PDF direct |
Journal article, free access |
GET The estimated glomerular filtration rate as a test for chronic kidney disease: problems and solutions Extract PDF direct |
Journal article, free access |
GET Impact of age on glomerular filtration estimates Extract PDF direct |
Journal article, free access |
GET Identifying outpatients with renal insufficiency before contrast-enhanced CT by using estimated glomerular filtration rates versus serum creatinine levels Extract PDF direct |
Journal article, free access |
GET Advances in glomerular filtration rate-estimating equations Extract PDF direct |
Journal article, free access |
GET Evaluation of glomerular filtration rate and of albuminuria/proteinuria Extract PDF direct |