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Obesity‐initiated metabolic syndrome promotes urinary voiding dysfunction in a mouse model

He, Qiqi ; Babcook, Melissa A. ; Shukla, Sanjeev ; [et al.]

Wiley ; 2016

In: The Prostate Vol. 76, No. 11 ( 2016-08), p. 964-976

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In: The Prostate, Wiley, Vol. 76, No. 11 ( 2016-08), p. 964-976

Abstract: Accumulating evidences suggests that obesity and metabolic syndrome (MetS) contribute towards lower urinary tract symptoms (LUTS) through alterations in the phenotype of bladder and prostate gland. Clinical studies indicate a link between MetS and LUTS. Nevertheless, there is lack of suitable animal model(s) which could illustrate an association linking obesity to LUTS. We examined the lower urinary tract function in an obesity‐initiated MetS mouse model. METHODS Male C57BL/6N wild‐type and obese B6.V‐Lepob/J maintained on regular diet for 28 weeks were subjected to the assessment of body weight (BW), body length (BL), waist circumference (WC), body mass index (BMI), blood glucose (BG), plasma insulin (INS), plasma leptin (LEP), total cholesterol (CHO), free fatty acid (FFA), and measurement of urinary functions. Whole animal peritoneal and subcutaneous adipose tissue measurements as well as prostate and bladder volumes were analyzed by MRI followed by histological evaluation. These parameters were used to draw correlations between MetS and LUTS. RESULTS Obesity parameters such as BW, WC, and BMI were significantly higher in B6.V‐Lepob/J mice compared to C57BL/6N mice ( P 〈 0.01). Higher levels of total CHO and FFA were noted in B6.V‐Lepob/J mice than C57BL/6N mice ( P 〈 0.05). These results were concurrent with frequency, lower average urine volume and other urinary voiding dysfunctions in B6.V‐Lepob/J mice. MRI assessments demonstrate marked increase in body fat and prostate volume in these mice. Compared to C57BL/6N mice, histological analysis of the prostate from B6.V‐Lepob/J mice showed increased proliferation, gland crowding, and infiltration of immune cells in the stroma; whereas the bladder urothelium was slightly thicker and appears more proliferative in these mice. The regression and correlation analysis indicate that peritoneal fat (R = 0.853; P 〈 0.02), CHO (R = 0.729; P 〈 0.001), BG (R = 0.712; P 〈 0.001) and prostate volume (R = 0.706; P 〈 0.023) strongly correlate with LUTS whereas BMI, WC, INS, and FFA moderately correlate with the prevalence of bladder dysfunction. CONCLUSION Our results suggest that LUTS may be attributable in part to obesity and MetS. Validation of an in vivo model may lead to understand the underlying pathophysiological mechanisms of obesity‐related LUTS in humans. Prostate 76:964–976, 2016 . © 2016 Wiley Periodicals, Inc.

Type of Medium: Online Resource

ISSN: 0270-4137 , 1097-0045

URL: Issue

URL: Article

DOI: 10.1002/pros.v76.11

DOI: 10.1002/pros.23185

Language: English

Publisher: Wiley

Publication Date: 2016

detail.hit.zdb_id: 1494709-2

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Initial evaluation of hepatic T 1 relaxation time as an imaging marker of liver disease associated with autosomal recessive polycystic kidney disease (ARPKD)

Gao, Ying ; Erokwu, Bernadette O. ; DeSantis, David A. ; [et al.]

Wiley ; 2016

In: NMR in Biomedicine Vol. 29, No. 1 ( 2016-01), p. 84-89

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In: NMR in Biomedicine, Wiley, Vol. 29, No. 1 ( 2016-01), p. 84-89

Abstract: Autosomal recessive polycystic kidney disease (ARPKD) is a potentially lethal multi‐organ disease affecting both the kidneys and the liver. Unfortunately, there are currently no non‐invasive methods to monitor liver disease progression in ARPKD patients, limiting the study of potential therapeutic interventions. Herein, we perform an initial investigation of T 1 relaxation time as a potential imaging biomarker to quantitatively assess the two primary pathologic hallmarks of ARPKD liver disease: biliary dilatation and periportal fibrosis in the PCK rat model of ARPKD. T 1 relaxation time results were obtained for five PCK rats at 3 months of age using a Look–Locker acquisition on a Bruker BioSpec 7.0 T MRI scanner. Six three‐month‐old Sprague‐Dawley (SD) rats were also scanned as controls. All animals were euthanized after the three‐month scans for histological and biochemical assessments of bile duct dilatation and hepatic fibrosis for comparison. PCK rats exhibited significantly increased liver T 1 values (mean ± standard deviation = 935 ± 39 ms) compared with age‐matched SD control rats (847 ± 26 ms, p = 0.01). One PCK rat exhibited severe cholangitis (mean T 1 = 1413 ms), which occurs periodically in ARPKD patients. The observed increase in the in vivo liver T 1 relaxation time correlated significantly with three histological and biochemical indicators of biliary dilatation and fibrosis: bile duct area percent ( R = 0.85, p = 0.002), periportal fibrosis area percent ( R = 0.82, p = 0.004), and hydroxyproline content ( R = 0.76, p = 0.01). These results suggest that hepatic T 1 relaxation time may provide a sensitive and non‐invasive imaging biomarker to monitor ARPKD liver disease. Copyright © 2015 John Wiley & Sons, Ltd.

Type of Medium: Online Resource

ISSN: 0952-3480 , 1099-1492

URL: Issue

URL: Article

DOI: 10.1002/nbm.v29.1

DOI: 10.1002/nbm.3442

Language: English

Publisher: Wiley

Publication Date: 2016

detail.hit.zdb_id: 2002003-X

detail.hit.zdb_id: 1000976-0

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Arterial spin labeling‐fast imaging with steady‐state free precession (ASL‐FISP): a rapid and quantitative perfusion technique for high‐field MRI

Gao, Ying ; Goodnough, Candida L. ; Erokwu, Bernadette O. ; [et al.]

Wiley ; 2014

In: NMR in Biomedicine Vol. 27, No. 8 ( 2014-08), p. 996-1004

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In: NMR in Biomedicine, Wiley, Vol. 27, No. 8 ( 2014-08), p. 996-1004

Abstract: Arterial spin labeling (ASL) is a valuable non‐contrast perfusion MRI technique with numerous clinical applications. Many previous ASL MRI studies have utilized either echo‐planar imaging (EPI) or true fast imaging with steady‐state free precession (true FISP) readouts, which are prone to off‐resonance artifacts on high‐field MRI scanners. We have developed a rapid ASL‐FISP MRI acquisition for high‐field preclinical MRI scanners providing perfusion‐weighted images with little or no artifacts in less than 2 s. In this initial implementation, a flow‐sensitive alternating inversion recovery (FAIR) ASL preparation was combined with a rapid, centrically encoded FISP readout. Validation studies on healthy C57/BL6 mice provided consistent estimation of in vivo mouse brain perfusion at 7 and 9.4 T (249 ± 38 and 241 ± 17 mL/min/100 g, respectively). The utility of this method was further demonstrated in the detection of significant perfusion deficits in a C57/BL6 mouse model of ischemic stroke. Reasonable kidney perfusion estimates were also obtained for a healthy C57/BL6 mouse exhibiting differential perfusion in the renal cortex and medulla. Overall, the ASL‐FISP technique provides a rapid and quantitative in vivo assessment of tissue perfusion for high‐field MRI scanners with minimal image artifacts. Copyright © 2014 John Wiley & Sons, Ltd.

Type of Medium: Online Resource

ISSN: 0952-3480 , 1099-1492

URL: Issue

URL: Article

DOI: 10.1002/nbm.v27.8

DOI: 10.1002/nbm.3143

Language: English

Publisher: Wiley

Publication Date: 2014

detail.hit.zdb_id: 2002003-X

detail.hit.zdb_id: 1000976-0

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