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在庫・価格： 2025年09月07日 20時03分現在

商品名	商品コード	メーカー	包装	価格	在庫	リスト
Creatinine, Serum, Detection Kit, Colorimetric, DetectX (2×96well) データシート	KB02-H1	ARBアーバーアッセイズ Arbor Assays LLC	1 kit	¥80,000	無 (未発注)	追加済

在庫・価格： 2025年09月07日 20時03分現在

Creatinine, Serum, Detection Kit, Colorimetric, DetectX (2×96well)

データシート

商品コード：KB02-H1
メーカー：ARB
包装：1kit
価格： ¥80,000
在庫：無(未発注)

マイリストに追加マイリストに追加済

使用文献

No.	文献情報	備考	参照
1	R. Miyakawa et al., Comparative proteomic analysis of renal proteins from IgA nephropathy model mice and control mice., Clinical and Experimental Nephrology., 2020., 24
2	M. Hashimoto et al., Effects of CREG1 on Age-Associated Metabolic Phenotypes and Renal Senescence in Mice., International Journal of Molecular Sciences., 2021., 22
3	M. Akatsuka et al., Recombinant human soluble thrombomodulin is associated with attenuation of sepsis-induced renal impairment by inhibition of extracellular histone release., Plos One., 2020., 15
4	W. X. Zhang et al., TIGIT modulates sepsis-induced immune dysregulation in mice with preexisting malignancy., Jci Insight., 2021., 6
5	C. Latchoumycandane, et al., Chronic ethanol ingestion induces oxidative kidney injury through taurine-inhibitable inflammation., Free Radic Biol Med., 2014
6	H. R. Jang, et al., Aging has small effects on initial ischemic acute kidney injury development despite changing intrarenal immunologic micromilieu in mice., American Journal of Physiology-Renal Physiology., 2016
7	N. Bednarsek, et al., El Nino-Related Thermal Stress Coupled With Upwelling-Related Ocean Acidification Negatively Impacts Cellular to Population-Level Responses in Pteropods Along the California Current System With Implications for Increased Bioenergetic
8	J. Chen, et al., Aspirin-triggered resolvin D1 down-regulates inflammatory responses and protects against endotoxin-induced acute kidney injury., Toxicology and Applied Pharmacology., 2014
9	H. Y. Xie, et al., Tubular epithelial C1orf54 mediates protection and recovery from acute kidney injury., Journal of Cellular and Molecular Medicine., 2018
10	J. A. Call, et al., Muscle-derived extracellular superoxide dismutase inhibits endothelial activation and protects against multiple organ dysfunction syndrome in mice., Free Radical Biology and Medicine., 2017
11	J. Y. Yoo, et al., LPS-Induced Acute Kidney Injury Is Mediated by Nox4-SH3YL1., Cell Reports., 2020
12	P. Zhou, et al., NCOA2 coordinates with the transcriptional KAT2B-NF-kappaB partner to trigger inflammation response in acute kidney injury., Gene., 2022
13	J. Wen, et al., Cognitive impairment persists at least 1 year after juvenile rats are treated with methotrexate., Neuropharmacology., 2022
14	C. Dunker, et al., Rapid proliferation due to better metabolic adaptation results in full virulence of a filament-deficient Candida albicans strain., Nature Communications., 2021
15	J. Homolova, et al., Plasma Concentrations of Extracellular DNA in Acute Kidney Injury., Diagnostics., 2020
16	A. Jancuska, et al., Dynamics of Plasma and Urinary Extracellular DNA in Acute Kidney Injury., Int J Mol Sci., 2022
17	M. Hatem-Vaquero, et al., Integrin linked kinase regulates the transcription of AQP2 by NFATC3., Biochimica Et Biophysica Acta-Gene Regulatory Mechanisms., 2017
18	T. Song, et al., Exogenous pericyte delivery protects the mouse kidney from chronic ischemic injury., Am J Physiol Renal Physiol., 2022
19	D. Kim, et al., Combined Therapy of Low-Dose Angiotensin Receptor-Neprilysin Inhibitor and Sodium-Glucose Cotransporter-2 Inhibitor Prevents Doxorubicin-Induced Cardiac Dysfunction in Rodent Model with Minimal Adverse Effects., Pharmaceutics., 2022
20	D. Hu, et al., Inhibition of colorectal cancer tumorigenesis by ursolic acid and doxorubicin is mediated by targeting the Akt signaling pathway and activating the Hippo signaling pathway., Mol Med Rep., 2023
21	Q. Meng, et al., GTS-21, a selective alpha7 nicotinic acetylcholine receptor agonist, ameliorates diabetic nephropathy in Lepr(db/db) mice., Sci Rep., 2022
22	S. H. Chin, et al., Opposing Effects of Reduced Kidney Mass on Liver and Skeletal Muscle Insulin Sensitivity in Obese Mice., Diabetes., 2015
23	M. A. Aziz, et al., Hyperuricaemia and Inflammatory Markers in Patients with Chronic Kidney Disease., IJDDT., 2021
24	L. Scarfe, et al., Measures of kidney function by minimally invasive techniques correlate with histological glomerular damage in SCID mice with adriamycin-induced nephropathy., Scientific Reports., 2015
25	K. Inoki, et al., mTORC1 activation in podocytes is a critical step in the development of diabetic nephropathy in mice., J Clin Invest., 2011
26	S. Raychaudhuri, et al., A rare penetrant mutation in CFH confers high risk of age-related macular degeneration., Nat Genet., 2011
27	S. K. Norton, et al., Epoxyeicosatrienoic acids are involved in the C(70) fullerene derivative-induced control of allergic asthma., J Allergy Clin Immunol., 2012
28	J. H. Park, et al., Human umbilical cord blood-derived mesenchymal stem cells prevent diabetic renal injury through paracrine action., Diabetes Res Clin Pract., 2012
29	D. Sun, et al., Experimental coronary artery stenosis accelerates kidney damage in renovascular hypertensive swine., Kidney International., 2015
30	U. P. Okorji, et al., A semi-synthetic derivative of artemisinin, artesunate inhibits prostaglandin E2 production in LPS/IFN粒-activated BV2 microglia., Bioorganic & Medicinal Chemistry., 2014
31	R. Miyakawa, et al., Comparative proteomic analysis of renal proteins from IgA nephropathy model mice and control mice., Clinical and Experimental Nephrology., 2020
32	M. Asgari, et al., Interval training and Crataegus persica ameliorate diabetic nephropathy via miR-126/Nrf-2 mediated inhibition of stress oxidative in rats with diabetes after myocardial ischemia-reperfusion injury., Biomed Pharmacother., 2022
33	I. Hwang, et al., Peroxiredoxin 3 deficiency accelerates chronic kidney injury in mice through interactions between macrophages and tubular epithelial cells., Free Radical Biology and Medicine., 2019
34	A. Almilaibary, et al., Fagonia indica attenuates chromium-induced nephrotoxicity via antioxidant and anti-inflammatory activities in mice., Heliyon., 2022
35	F. A. Valentijn, et al., Cellular communication network 2 (connective tissue growth factor) aggravates acute DNA damage and subsequent DNA damage response-senescence-fibrosis following kidney ischemia reperfusion injury., Kidney Int., 2022
36	S. R. Kim, et al., Increased renal cellular senescence in murine high-fat diet: effect of the senolytic drug quercetin., Translational Research., 2019
37	D. Dorotea, et al., Pan-Src kinase inhibitor treatment attenuates diabetic kidney injury via inhibition of Fyn kinase-mediated endoplasmic reticulum stress., Exp Mol Med., 2022
38	N. Klomjit, et al., Effects of obesity on reparative function of human adipose tissue-derived mesenchymal stem cells on ischemic murine kidneys., Int J Obes (Lond)., 2022
39	K. Kulkarni, et al., Angiotensin II type 2 receptor activation preserves megalin in the kidney and prevents proteinuria in high salt diet fed rats., Sci Rep., 2023
40	B. W. Kim, et al., 15-Hydroxyprostaglandin dehydrogenase inhibitor prevents contrast-induced acute kidney injury., Renal Failure., 2021
41	Y. Zhao, et al., Mesenchymal Stem/Stromal Cells and their Extracellular Vesicle Progeny Decrease Injury in Poststenotic Swine Kidney Through Different Mechanisms., Stem Cells and Development., 2020
42	M. J. Uddin, et al., CO-Releasing Molecule-2 Prevents Acute Kidney Injury through Suppression of ROS-Fyn-ER Stress Signaling in Mouse Model., Oxidative Medicine and Cellular Longevity., 2021
43	W. X. Zhang, et al., TIGIT modulates sepsis-induced immune dysregulation in mice with preexisting malignancy., Jci Insight., 2021
44	S. F. Ofori-Acquah, et al., Hemopexin deficiency promotes acute kidney injury in sickle cell disease., Blood., 2020
45	R. Mortuza, et al., High glucose induced alteration of SIRTs in endothelial cells causes rapid aging in a p300 and FOXO regulated pathway., PLoS One., 2013
46	M. Akatsuka, et al., Recombinant human soluble thrombomodulin is associated with attenuation of sepsis-induced renal impairment by inhibition of extracellular histone release., Plos One., 2020
47	M. Hashimoto, et al., Effects of CREG1 on Age-Associated Metabolic Phenotypes and Renal Senescence in Mice., International Journal of Molecular Sciences., 2021
48	M. J. Uddin, et al., Carbon monoxide releasing molecule-2 protects mice against acute kidney injury through inhibition of ER stress., Korean Journal of Physiology & Pharmacology., 2018
49	T. H. Neder, et al., Endothelin receptors in renal interstitial cells do not contribute to the development of fibrosis during experimental kidney disease., Pflugers Archiv-European Journal of Physiology., 2021
50	X. Y. Zou, et al., Renal scattered tubular-like cells confer protective effects in the stenotic murine kidney mediated by release of extracellular vesicles., Scientific Reports., 2018
51	K. Lee, et al., Repair phase modeling of ischemic acute kidney injury: recovery vs. transition to chronic kidney disease., Am J Transl Res., 2022
52	H. P. Guo, et al., Kidney failure, arterial hypertension and left ventricular hypertrophy in rats with loss of function mutation of SOD3., Free Radical Biology and Medicine., 2020
53	S. R. Kim, et al., Transplanted senescent renal scattered tubular-like cells induce injury in the mouse kidney., American Journal of Physiology-Renal Physiology., 2020
54	L. Q. Li, et al., Aberrant Activation of Notch1 Signaling in Glomerular Endothelium Induces Albuminuria., Circulation Research., 2021
55	J. S. Forsse, et al., The Effect of Acute Aerobic Exercise on Biomarkers of Renal Health and Filtration in Moderate-CKD., Res Q Exerc Sport., 2023
56	S. Jiang, et al., Dojuksan ameliorates tubulointerstitial fibrosis through irisin-mediated muscle-kidney crosstalk., Phytomedicine., 2021
57	A. T. Williams, et al., Balance between oxygen transport and blood rheology during resuscitation from hemorrhagic shock with polymerized bovine hemoglobin., Journal of Applied Physiology., 2020
58	A. Kovalcikova, et al., Salivary creatinine and urea are higher in an experimental model of acute but not chronic renal disease., Plos One., 2018

No.： 1
文献情報：
R. Miyakawa et al., Comparative proteomic analysis of renal proteins from IgA nephropathy model mice and control mice., Clinical and Experimental Nephrology., 2020., 24
備考：
参照：

No.： 2
文献情報：
M. Hashimoto et al., Effects of CREG1 on Age-Associated Metabolic Phenotypes and Renal Senescence in Mice., International Journal of Molecular Sciences., 2021., 22
備考：
参照：

No.： 3
文献情報：
M. Akatsuka et al., Recombinant human soluble thrombomodulin is associated with attenuation of sepsis-induced renal impairment by inhibition of extracellular histone release., Plos One., 2020., 15
備考：
参照：

No.： 4
文献情報：
W. X. Zhang et al., TIGIT modulates sepsis-induced immune dysregulation in mice with preexisting malignancy., Jci Insight., 2021., 6
備考：
参照：

No.： 5
文献情報：
C. Latchoumycandane, et al., Chronic ethanol ingestion induces oxidative kidney injury through taurine-inhibitable inflammation., Free Radic Biol Med., 2014
備考：
参照：

No.： 6
文献情報：
H. R. Jang, et al., Aging has small effects on initial ischemic acute kidney injury development despite changing intrarenal immunologic micromilieu in mice., American Journal of Physiology-Renal Physiology., 2016
備考：
参照：

No.： 7
文献情報：
N. Bednarsek, et al., El Nino-Related Thermal Stress Coupled With Upwelling-Related Ocean Acidification Negatively Impacts Cellular to Population-Level Responses in Pteropods Along the California Current System With Implications for Increased Bioenergetic
備考：
参照：

No.： 8
文献情報：
J. Chen, et al., Aspirin-triggered resolvin D1 down-regulates inflammatory responses and protects against endotoxin-induced acute kidney injury., Toxicology and Applied Pharmacology., 2014
備考：
参照：

No.： 9
文献情報：
H. Y. Xie, et al., Tubular epithelial C1orf54 mediates protection and recovery from acute kidney injury., Journal of Cellular and Molecular Medicine., 2018
備考：
参照：

No.： 10
文献情報：
J. A. Call, et al., Muscle-derived extracellular superoxide dismutase inhibits endothelial activation and protects against multiple organ dysfunction syndrome in mice., Free Radical Biology and Medicine., 2017
備考：
参照：

No.： 11
文献情報：
J. Y. Yoo, et al., LPS-Induced Acute Kidney Injury Is Mediated by Nox4-SH3YL1., Cell Reports., 2020
備考：
参照：

No.： 12
文献情報：
P. Zhou, et al., NCOA2 coordinates with the transcriptional KAT2B-NF-kappaB partner to trigger inflammation response in acute kidney injury., Gene., 2022
備考：
参照：

No.： 13
文献情報：
J. Wen, et al., Cognitive impairment persists at least 1 year after juvenile rats are treated with methotrexate., Neuropharmacology., 2022
備考：
参照：

No.： 14
文献情報：
C. Dunker, et al., Rapid proliferation due to better metabolic adaptation results in full virulence of a filament-deficient Candida albicans strain., Nature Communications., 2021
備考：
参照：

No.： 15
文献情報：
J. Homolova, et al., Plasma Concentrations of Extracellular DNA in Acute Kidney Injury., Diagnostics., 2020
備考：
参照：

No.： 16
文献情報：
A. Jancuska, et al., Dynamics of Plasma and Urinary Extracellular DNA in Acute Kidney Injury., Int J Mol Sci., 2022
備考：
参照：

No.： 17
文献情報：
M. Hatem-Vaquero, et al., Integrin linked kinase regulates the transcription of AQP2 by NFATC3., Biochimica Et Biophysica Acta-Gene Regulatory Mechanisms., 2017
備考：
参照：

No.： 18
文献情報：
T. Song, et al., Exogenous pericyte delivery protects the mouse kidney from chronic ischemic injury., Am J Physiol Renal Physiol., 2022
備考：
参照：

No.： 19
文献情報：
D. Kim, et al., Combined Therapy of Low-Dose Angiotensin Receptor-Neprilysin Inhibitor and Sodium-Glucose Cotransporter-2 Inhibitor Prevents Doxorubicin-Induced Cardiac Dysfunction in Rodent Model with Minimal Adverse Effects., Pharmaceutics., 2022
備考：
参照：

No.： 20
文献情報：
D. Hu, et al., Inhibition of colorectal cancer tumorigenesis by ursolic acid and doxorubicin is mediated by targeting the Akt signaling pathway and activating the Hippo signaling pathway., Mol Med Rep., 2023
備考：
参照：

No.： 21
文献情報：
Q. Meng, et al., GTS-21, a selective alpha7 nicotinic acetylcholine receptor agonist, ameliorates diabetic nephropathy in Lepr(db/db) mice., Sci Rep., 2022
備考：
参照：

No.： 22
文献情報：
S. H. Chin, et al., Opposing Effects of Reduced Kidney Mass on Liver and Skeletal Muscle Insulin Sensitivity in Obese Mice., Diabetes., 2015
備考：
参照：

No.： 23
文献情報：
M. A. Aziz, et al., Hyperuricaemia and Inflammatory Markers in Patients with Chronic Kidney Disease., IJDDT., 2021
備考：
参照：

No.： 24
文献情報：
L. Scarfe, et al., Measures of kidney function by minimally invasive techniques correlate with histological glomerular damage in SCID mice with adriamycin-induced nephropathy., Scientific Reports., 2015
備考：
参照：

No.： 25
文献情報：
K. Inoki, et al., mTORC1 activation in podocytes is a critical step in the development of diabetic nephropathy in mice., J Clin Invest., 2011
備考：
参照：

No.： 26
文献情報：
S. Raychaudhuri, et al., A rare penetrant mutation in CFH confers high risk of age-related macular degeneration., Nat Genet., 2011
備考：
参照：

No.： 27
文献情報：
S. K. Norton, et al., Epoxyeicosatrienoic acids are involved in the C(70) fullerene derivative-induced control of allergic asthma., J Allergy Clin Immunol., 2012
備考：
参照：

No.： 28
文献情報：
J. H. Park, et al., Human umbilical cord blood-derived mesenchymal stem cells prevent diabetic renal injury through paracrine action., Diabetes Res Clin Pract., 2012
備考：
参照：

No.： 29
文献情報：
D. Sun, et al., Experimental coronary artery stenosis accelerates kidney damage in renovascular hypertensive swine., Kidney International., 2015
備考：
参照：

No.： 30
文献情報：
U. P. Okorji, et al., A semi-synthetic derivative of artemisinin, artesunate inhibits prostaglandin E2 production in LPS/IFN粒-activated BV2 microglia., Bioorganic & Medicinal Chemistry., 2014
備考：
参照：

No.： 31
文献情報：
R. Miyakawa, et al., Comparative proteomic analysis of renal proteins from IgA nephropathy model mice and control mice., Clinical and Experimental Nephrology., 2020
備考：
参照：

No.： 32
文献情報：
M. Asgari, et al., Interval training and Crataegus persica ameliorate diabetic nephropathy via miR-126/Nrf-2 mediated inhibition of stress oxidative in rats with diabetes after myocardial ischemia-reperfusion injury., Biomed Pharmacother., 2022
備考：
参照：

No.： 33
文献情報：
I. Hwang, et al., Peroxiredoxin 3 deficiency accelerates chronic kidney injury in mice through interactions between macrophages and tubular epithelial cells., Free Radical Biology and Medicine., 2019
備考：
参照：

No.： 34
文献情報：
A. Almilaibary, et al., Fagonia indica attenuates chromium-induced nephrotoxicity via antioxidant and anti-inflammatory activities in mice., Heliyon., 2022
備考：
参照：

No.： 35
文献情報：
F. A. Valentijn, et al., Cellular communication network 2 (connective tissue growth factor) aggravates acute DNA damage and subsequent DNA damage response-senescence-fibrosis following kidney ischemia reperfusion injury., Kidney Int., 2022
備考：
参照：

No.： 36
文献情報：
S. R. Kim, et al., Increased renal cellular senescence in murine high-fat diet: effect of the senolytic drug quercetin., Translational Research., 2019
備考：
参照：

No.： 37
文献情報：
D. Dorotea, et al., Pan-Src kinase inhibitor treatment attenuates diabetic kidney injury via inhibition of Fyn kinase-mediated endoplasmic reticulum stress., Exp Mol Med., 2022
備考：
参照：

No.： 38
文献情報：
N. Klomjit, et al., Effects of obesity on reparative function of human adipose tissue-derived mesenchymal stem cells on ischemic murine kidneys., Int J Obes (Lond)., 2022
備考：
参照：

No.： 39
文献情報：
K. Kulkarni, et al., Angiotensin II type 2 receptor activation preserves megalin in the kidney and prevents proteinuria in high salt diet fed rats., Sci Rep., 2023
備考：
参照：

No.： 40
文献情報：
B. W. Kim, et al., 15-Hydroxyprostaglandin dehydrogenase inhibitor prevents contrast-induced acute kidney injury., Renal Failure., 2021
備考：
参照：

No.： 41
文献情報：
Y. Zhao, et al., Mesenchymal Stem/Stromal Cells and their Extracellular Vesicle Progeny Decrease Injury in Poststenotic Swine Kidney Through Different Mechanisms., Stem Cells and Development., 2020
備考：
参照：

No.： 42
文献情報：
M. J. Uddin, et al., CO-Releasing Molecule-2 Prevents Acute Kidney Injury through Suppression of ROS-Fyn-ER Stress Signaling in Mouse Model., Oxidative Medicine and Cellular Longevity., 2021
備考：
参照：

No.： 43
文献情報：
W. X. Zhang, et al., TIGIT modulates sepsis-induced immune dysregulation in mice with preexisting malignancy., Jci Insight., 2021
備考：
参照：

No.： 44
文献情報：
S. F. Ofori-Acquah, et al., Hemopexin deficiency promotes acute kidney injury in sickle cell disease., Blood., 2020
備考：
参照：

No.： 45
文献情報：
R. Mortuza, et al., High glucose induced alteration of SIRTs in endothelial cells causes rapid aging in a p300 and FOXO regulated pathway., PLoS One., 2013
備考：
参照：

No.： 46
文献情報：
M. Akatsuka, et al., Recombinant human soluble thrombomodulin is associated with attenuation of sepsis-induced renal impairment by inhibition of extracellular histone release., Plos One., 2020
備考：
参照：

No.： 47
文献情報：
M. Hashimoto, et al., Effects of CREG1 on Age-Associated Metabolic Phenotypes and Renal Senescence in Mice., International Journal of Molecular Sciences., 2021
備考：
参照：

No.： 48
文献情報：
M. J. Uddin, et al., Carbon monoxide releasing molecule-2 protects mice against acute kidney injury through inhibition of ER stress., Korean Journal of Physiology & Pharmacology., 2018
備考：
参照：

No.： 49
文献情報：
T. H. Neder, et al., Endothelin receptors in renal interstitial cells do not contribute to the development of fibrosis during experimental kidney disease., Pflugers Archiv-European Journal of Physiology., 2021
備考：
参照：

No.： 50
文献情報：
X. Y. Zou, et al., Renal scattered tubular-like cells confer protective effects in the stenotic murine kidney mediated by release of extracellular vesicles., Scientific Reports., 2018
備考：
参照：

No.： 51
文献情報：
K. Lee, et al., Repair phase modeling of ischemic acute kidney injury: recovery vs. transition to chronic kidney disease., Am J Transl Res., 2022
備考：
参照：

No.： 52
文献情報：
H. P. Guo, et al., Kidney failure, arterial hypertension and left ventricular hypertrophy in rats with loss of function mutation of SOD3., Free Radical Biology and Medicine., 2020
備考：
参照：

No.： 53
文献情報：
S. R. Kim, et al., Transplanted senescent renal scattered tubular-like cells induce injury in the mouse kidney., American Journal of Physiology-Renal Physiology., 2020
備考：
参照：

No.： 54
文献情報：
L. Q. Li, et al., Aberrant Activation of Notch1 Signaling in Glomerular Endothelium Induces Albuminuria., Circulation Research., 2021
備考：
参照：

No.： 55
文献情報：
J. S. Forsse, et al., The Effect of Acute Aerobic Exercise on Biomarkers of Renal Health and Filtration in Moderate-CKD., Res Q Exerc Sport., 2023
備考：
参照：

No.： 56
文献情報：
S. Jiang, et al., Dojuksan ameliorates tubulointerstitial fibrosis through irisin-mediated muscle-kidney crosstalk., Phytomedicine., 2021
備考：
参照：

No.： 57
文献情報：
A. T. Williams, et al., Balance between oxygen transport and blood rheology during resuscitation from hemorrhagic shock with polymerized bovine hemoglobin., Journal of Applied Physiology., 2020
備考：
参照：

No.： 58
文献情報：
A. Kovalcikova, et al., Salivary creatinine and urea are higher in an experimental model of acute but not chronic renal disease., Plos One., 2018
備考：
参照：