Cyclic adenosine monophosphate (cAMP) signaling is critical for regulating metabolic homeostasis in mammals. In particular, transcriptional regulation by cAMP response element-binding protein (CREB) and its coactivator, CREB-regulated transcription coactivator (CRTC), is essential for controlling the expression of critical enzymes in the metabolic process, leading to more chronic changes in metabolic flux. Among the CRTC isoforms, CRTC2 is predominantly expressed in peripheral tissues and has been shown to be associated with various metabolic pathways in tissue-specific manners. While initial reports showed the physiological role of CRTC2 in regulating gluconeogenesis in the liver, recent studies have further delineated the role of this transcriptional coactivator in the regulation of glucose and lipid metabolism in various tissues, including the liver, pancreatic islets, endocrine tissues of the small intestines, and adipose tissues. In this review, we discuss recent studies that have utilized knockout mouse models to delineate the role of CRTC2 in the regulation of metabolic homeostasis.

PURPOSE: To investigate the relativethe signal difference. Also this optimal angle increased as TR increased. The optimal flip angles varied along with [Gd] concentration such that high concentration allowed larger flip angle. The experiment revealed similar results and confirmed the results obtained from simulation. Both simulation and experimental results suggest that the optimization scheme of imaging parameters for maximum signal difference, which gives best vessel visualization, is very close to that for maximizing blood signal alone for short TR application of contrast enhanced MRA. CONCLUSION: To improve the vessel visualization, it is necessary to optimize the imaging parameters. The expected optimal flip angle is very close to Ernst angle. Higher [Gd] concentration and longer TR, if allowed, will give rise to higher blood signal.
Acoustics* ; Angiography* ; Healthy Volunteers ; Magnetic Resonance Imaging* ; Noise* ; Photic Stimulation ; Visual Cortex

PURPOSE: To evaluate the availability of magnetic resonance (MR) voiding cystography for the diagnosis of vesicoureteral reflux (VUR) and to compare the sensitivity of MR voiding cystography (MRVC) with that of radiographic voiding cystourethrography (VCUG) in the detection of VUR. MATERIALS AND METHODS: MRVC was performed upon 20 children referred for investigation of VUR. Either coronal T1-weighted spin-echo or spoiled gradient-echo images were obtained before and after transurethral administration of a mixture of normal saline and gadopentetate dimeglumine, and immediately after voiding. The findings of MRVC were compared with those of VCUG performed within 6 months of MRVC. RESULTS: VUR was detected in 23 ureterorenal units (16 VUR's by both methods, five VUR's by VCUG, and two VUR's by MRVC). The sensitivity of VCUG and MRVC in detecting VUR was 91.3% (21/23) and 78.3% (18/23), respectively. MRVC detected renal scarring in 15 out of 17 kidneys with scintigraphically detected renal scarring. CONCLUSION: Although MRVC is slightly less sensitive than VCUG in the detection of VUR, it can be used for the diagnosis of VUR and renal scarring simultaneously, and thus will reduce the radiation hazard.
Child ; Cicatrix ; Diagnosis* ; Gadolinium DTPA ; Humans ; Kidney ; Ureter ; Vesico-Ureteral Reflux*

PURPOSE: To investigate the signal enhancement ratio by NOE effect on in vivo 31P MRS in human heart muscle and liver. we also evaluated the enhancement ratios of different phosphorus metabolites, which are important in 31P MRS for each organ. MATERIALS AND METHODS: Ten normal subjects (M: F = 8: 2, age range = 24-32 yrs) were included for in vivo 31P MRS measurements on a 1.5 T whole-body MRI/MRS system using 1H-31P dual tuned surface coil. Two-dimensional Chemical Shift Imaging (2D CSI) pulse sequence for 31P MRS was employed in all 31P MRS measurements. First, 31P MRS performed without NOE effect and then the same 2D CSI data acquisitions were repeated with NOE effect. After postprocessing the MRS raw data in the time domain, the signal enhancements in percent were estimated from the major metabolites. RESULTS: The calculated NOE enhancement for liver 31P MRS were: alpha-ATP (7%), beta- ATP (9%), gamma-ATP (17%), Pi (1%), PDE (19%), and PME (31%). Because there is no creatine kinase activity in liver, PCr signal is absent. For cardiac 31P MRS, whole body coil gave better scout images and thus better localization than surface coil. In 31P cardiac multi-voxel spectra, DPG signal increased from left to right according to the amount of blood included. The calculated enhancement for cardiac 31P MRS were: alpha -ATP (12%), beta-ATP (19%), gamma-ATP (30%), PCr (34%), Pi (20%), PDE (51%), and DPG (72%). CONCLUSION: Our results revealed that the NOE effect was more pronounced in heart muscle than in liver with different coupling to 1H spin system and thus different heteronuclear cross-relaxation.
Adenosine Triphosphate ; Creatine Kinase ; Heart* ; Humans ; Liver* ; Magnetic Resonance Imaging ; Myocardium ; Phosphorus ; Polymerase Chain Reaction

Background and Objectives: Injection laryngoplasty is a common method for treatment of unilateral vocal fold paralysis. Unilateral vocal fold paralysis has various causes, including idiopathic, infection, stroke, neurologic condition, surgery and nerve invasion by cancer. To the knowledge of the authors, there was no study on the relationship between the causes of vocal cord paralysis and the outcome of injection laryngoplasty. Therefore, we tried to investigate the difference in the outcomes of injection laryngoplasty between vocal cord paralysis after surgery group and nerve invasion by cancer group.Materials and Method A retrospective analysis was performed for 24 patients who underwent vocal cord injection due to unilateral vocal cord paralysis caused by surgery or nerve invasion by cancer. The objective quality of the voice was assessed by acoustic voice analysis with the Multi-Dimensional Voice Program. Results: Both group showed an improvement of fundamental frequemcy (F0), jitter percent, shimmer (percent), and noise to hearmonic ratio (NHR) after injection laryngoplasty. The vocal cord paralysis due to nerve invasion group showed more improvement in both the mean and median value of F0, shimmer percent and NHR than the vocal cord paralysis due to surgery group, but there was not statistically significant. Conclusion Our study did not show a statistically significant difference in outcome between vocal cord paralysis due to cancer invasion group and surgery group, but statistically tendency was suggested. The vocal cord paralysis due to nerve invasion group showed more improvement in both the mean and median value of acoustic voice analysis than surgery group.

PURPOSE: To introduce and demonstrate the advantages of the new hybrid two-dimensional (2D) proton spectroscopic imaging (Sl) over the single voxel spectroscopy (SVS) and conventional 2D Sl in the clinical application of spectroscopy for pediatric cerebral disease. MATERIALS AND METHODS: Eighty-one hybrid 2D proton spectroscopic imaging was performed in 79 children (36 normal infants and children, 10 with hypoxic-ischemic injury, 20 with toxic metabolic encephalopathy, seven with brain tumor, three with meningoencephalitis, one with neurofibromatosis, one with Sturge-Weber syndrome and one with lissencephaly) ranging in age from the third day of life to 15 years. In adult volunteers (n = 5), all three techniques including hybrid 2D proton Sl, SVS using PRESS sequence, and conventional 2D proton Sl were performed. Both hybrid 2D proton Sl and SVS using PRESS sequence were performed in clinical cases(n= 12). All measurements were peformed with a 1.5-T scanner using standard head quadrature coil. The 16 x 16 phase encoding steps were set on variable field of view (FOV) depending on the size of the brain. The hybrid volume of interest inside FOV was set as 75 x 75 x 15 mm3 or smaller to get rid of unwanted fat signal. Point-resolved spectroscopy (TR/TE = 1,500 msec/135 or 270 msec) was employed with standard chemical shift selective saturation (CHESS) pulses for water suppression. The acquisition time and spectral quality of hybrid 2D proton Sl were compared with those of SVS and conventional 2D proton Sl. RESULTS: The hybrid 2D proton Sl was successfully conducted upon all patients. The 2D spectral data acquisition time was less than 6 minutes, while the data acquisition time of SVS was 4.3 minutes. This was short enough for pediatric application. The spectra acquired with hybrid 2D proton Sl showed nearly the same sensitivity and spectral resolution with SVS. The spectral quality of hybrid 2D proton Sl was, on the other hand, far better than that of conventional 2D proton Sl. The other advantage of hybrid 2D proton Sl was that the extent of metabolic abnormalities could be evaluated through the characteristics of the relative levels of the three metabolites, i.e., N-acetylaspartate, choline, and creatine. CONCLUSION: The hybrid 2D proton Sl can be successfully employed for the evaluation of the metabolic abnormalities in the various pathologic conditions of pediatric brain without penalty in acquisition time and spectral quality when compared to SVS. The extent of metabolic abnormalities, which cannot be obtained with SVS technique, also can be evaluated with hybrid 2D proton Sl.
Adult ; Brain Diseases, Metabolic ; Brain Neoplasms ; Brain* ; Child ; Choline ; Creatine ; Hand ; Head ; Humans ; Infant ; Magnetic Resonance Spectroscopy ; Meningoencephalitis ; Neurofibromatoses ; Protons* ; Spectrum Analysis ; Sturge-Weber Syndrome ; Volunteers ; Water

PURPOSE: To determine the possible mechanism by which an area of high signal intensity appears on T1-weighted MR images adjacent to a vacuum cleft in intervertebral disks. MATERIALS AND METHODS: We analyzed a total of 14 disks in nine patients in whom a vacuum cleft with T1-signal hyperintensity was observed. Lesions were present from T11-12 to L5-S1 using a 1.5-T whole-body imager, sagittal spine-echo T1-weighted and gradient-echo images (flip angle, 20 'and 60 ) were obtained. In order to identify the vacuum cleft, using plain radiographs in all patients and CT scans in two were also obtained. A 3% agar-gel block containing empty slits to form a magnetic susceptibility difference, a phantom was designed. The air spaces were 1.6 mm in thickness, 25 mm in width, and 20 to 25 mm in depth with 1.6-mm spacing. RESULTS: In all patients, vacuum clefts were confirmed by plain radiographs and CT scans. At the level containing air, T1-weighted images (both spin-echo and gradient-echo) showed a signal void resulting from the intervertebral disk vacuum cleft. A hyperintense band adjacent to the vacuum cleft was, however, observed. A gradient-echo image with a 60 'flip angle showed a brighter signal intensity than one with a 20 'angle. Our phantom study gave the same results. CONCLUSION: The magnetic susceptibility artifact may be responsible for the T1-signal hyperintensity observed adjacent to the vacuum cleft in intervertebral disks. In addition, in order to generate signal hyperintensity, the desiccating disk material must contain a certain amount of water molecules.
Artifacts ; Humans ; Intervertebral Disc* ; Tomography, X-Ray Computed ; Vacuum*

PURPOSE: To determine the possible mechanism by which an area of high signal intensity appears on T1-weighted MR images adjacent to a vacuum cleft in intervertebral disks. MATERIALS AND METHODS: We analyzed a total of 14 disks in nine patients in whom a vacuum cleft with T1-signal hyperintensity was observed. Lesions were present from T11-12 to L5-S1 using a 1.5-T whole-body imager, sagittal spine-echo T1-weighted and gradient-echo images (flip angle, 20 'and 60 ) were obtained. In order to identify the vacuum cleft, using plain radiographs in all patients and CT scans in two were also obtained. A 3% agar-gel block containing empty slits to form a magnetic susceptibility difference, a phantom was designed. The air spaces were 1.6 mm in thickness, 25 mm in width, and 20 to 25 mm in depth with 1.6-mm spacing. RESULTS: In all patients, vacuum clefts were confirmed by plain radiographs and CT scans. At the level containing air, T1-weighted images (both spin-echo and gradient-echo) showed a signal void resulting from the intervertebral disk vacuum cleft. A hyperintense band adjacent to the vacuum cleft was, however, observed. A gradient-echo image with a 60 'flip angle showed a brighter signal intensity than one with a 20 'angle. Our phantom study gave the same results. CONCLUSION: The magnetic susceptibility artifact may be responsible for the T1-signal hyperintensity observed adjacent to the vacuum cleft in intervertebral disks. In addition, in order to generate signal hyperintensity, the desiccating disk material must contain a certain amount of water molecules.
Artifacts ; Humans ; Intervertebral Disc* ; Tomography, X-Ray Computed ; Vacuum*