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PURPOSE Dynamic contrast-enhanced MRI can be used in pharmacokinetic models to quantify functional parameters such as perfusion and permeability. However, precise quantification in preclinical models is challenged by the difficulties to dynamically measure the true arterial blood contrast agent concentration. We propose a novel approach toward a precise and experimentally feasible method to derive the arterial input function from DCE-MRI in mice. METHODS Arterial blood was surgically shunted from the femoral artery to the tail vein and led through an extracorporeal circulation that resided on the head of brain tumor-bearing mice inside the FOV of a 9.4T MRI scanner. Dynamic 3D-FLASH scanning was performed after injection of gadobutrol with an effective resolution of 0.175 × 0.175 × 1 mm and a temporal resolution of 4 seconds. Pharmacokinetic modeling was performed using the extended Tofts and two-compartment exchange model. RESULTS Arterial input functions measured inside the extracorporeal circulation showed little noise, small interindividual variance, and typical curve shapes. Ex vivo and mass spectrometry validation measurements documented the influence of shunt flow velocity and hematocrit on estimation of contrast agent concentrations. Modeling of tumors and muscles allowed fitting of the recorded dynamic concentrations, resulting in quantitative plausible parameters. CONCLUSION The extracorporeal circulation allows deriving the contrast agent dynamics in arterial blood with high robustness and at acceptable experimental effort from DCE-MRI, previously not achievable in mice. It sets the basis for quantitative precise pharmacokinetic modeling in small animals to enhance the translatability of preclinical DCE-MRI measurements to patients. © 2020 The Authors. Magnetic Resonance in Medicine published by Wiley Periodicals, Inc. on behalf of International Society for Magnetic Resonance in Medicine.Due to advances in captive nonhuman primate (NHP) medical care, the number of geriatric chimpanzees (≥35-years old) is growing. With old age comes a variety of physical conditions, including arthritis, stroke, and mobility impairments. Programs aimed at enhancing the welfare of geriatric chimpanzees are now quite common, but there are few published empirical evaluations of the efficacy of such programs. The current study aimed to create, implement, and evaluate the effects of participation in a physical therapy (PT) program on physical health, mobility, welfare, and behavior. Nine chimpanzees with mobility impairments participated in personalized PT routines (using positive reinforcement training) twice per week for 5 months. Additionally, nine control chimpanzees (non-mobility-impaired, matched with PT chimpanzees on age and gender) participated in body exam behavior sessions (also using positive reinforcement training) twice per week. All chimpanzees were rated on 14 health, well-being, and behavior items, as well as level of mobility throughout the PT program. Chimpanzees that participated in the PT program showed significant increases in ratings of physical health, well-being, and activity levels across phases of the program. Furthermore, compared to control chimpanzees, PT chimpanzees showed significant increases in ratings of ease of movement. Because raters were not blind to physical therapy treatment, our results represent an initial evaluation of the program that may suggest that participation in the PT program has physical, behavioral, and welfare benefits. Assessments of novel geriatric-focused care strategies and programs are essential to further enhance the welfare of the captive chimpanzee population, which is currently comprised of many geriatric animals, whose proportion of the captive population will only increase. © 2020 Wiley Periodicals, Inc.PURPOSE Motion artifact limits the clinical translation of high-field MR. We present an optical prospective motion correction system for 7 Tesla MRI using a custom-built, within-coil camera to track an optical marker mounted on a subject. METHODS The camera was constructed to fit between the transmit-receive coils with direct line of sight to a forehead-mounted marker, improving upon prior mouthpiece work at 7 Tesla MRI. We validated the system by acquiring a 3D-IR-FSPGR on a phantom with deliberate motion applied. The same 3D-IR-FSPGR and a 2D gradient echo were then acquired on 7 volunteers, with/without deliberate motion and with/without motion correction. Three neuroradiologists blindly assessed image quality. In 1 subject, an ultrahigh-resolution 2D gradient echo with 4 averages was acquired with motion correction. Four single-average acquisitions were then acquired serially, with the subject allowed to move between acquisitions. A fifth single-average 2D gradient echo was acquired following subject removal and reentry. RESULTS In both the phantom and human subjects, deliberate and involuntary motion were well corrected. Despite marked levels of motion, high-quality images were produced without spurious artifacts. The quantitative ratings confirmed significant improvements in image quality in the absence and presence of deliberate motion across both acquisitions (P less then .001). The system enabled ultrahigh-resolution visualization of the hippocampus during a long scan and robust alignment of serially acquired scans with interspersed movement. CONCLUSION We demonstrate the use of a within-coil camera to perform optical prospective motion correction and ultrahigh-resolution imaging at 7 Tesla MRI. The setup does not require a mouthpiece, which could improve accessibility of motion correction during 7 Tesla MRI exams. © 2020 International Society for Magnetic Resonance in Medicine.Immediate biomechanical and functional effects of knee braces are often reported, however, the duration and type of knee brace treatment for knee osteoarthritis (KOA) remain unclear. The objective was to evaluate usage, comfort, pain, and knee adduction moment (KAM) of three knee braces each worn 3 months by patients. Twenty-four patients with KOA were assigned in a randomized crossover trial a valgus three-point bending system brace (V3P-brace), an unloader brace with valgus and external rotation functions (VER-brace) and a stabilizing brace used after ligament injuries (ACL-brace). Functional questionnaires and gait assessment were carried out before and after each brace wear period of 3 months. A Friedman test was applied between brace wear diary recordings. Repeated measures analyses of variance contrasted the factors brace type (ACL, V3P, and VER), time (pre and post) and wear (without and with) on comfort, pain, function, and KAM. Brace usage was similar, but the V3P-brace was slightly less worn. Discomfort was significantly lowered with the VER-brace. All knee braces relieved pain and symptoms from 10% to 40%. KAM angular impulse was reduced with the three braces, but the VER-brace obtained the lowest relative reduction of 9%. The interaction between time and wear indicated that part of the KAM reduction with brace wear was maintained post treatment. All three knee braces have great benefits for pain and function among the medial KOA population. The VER-brace offers additional advantages on daily use, comfort and KAM, which could improve compliance to brace treatment. © 2020 Orthopaedic Research Society. Published by Wiley Periodicals, Inc.C1qTNF-related protein 6 (CTRP6) is a member of the CTRP family and exerts a key role in the progression of diabetes mellitus. However, the role of CTRP6 in diabetic nephropathy remains unknown. The present study was designed to examine the roles of CTRP6 in diabetic nephropathy and explore the potential molecular mechanisms. Our results showed that the expression level of CTRP6 was significantly increased in high glucose (HG)-stimulated glomerular mesangial cells (MCs). The following loss/gain-of-function assays demonstrated that CTRP6 knockdown significantly inhibited HG-induced reactive oxygen species (ROS) production in MCs. CTRP6 knockdown caused significant decreases in tumour necrosis factor-α (TNF-α), interleukin (IL)-1β and IL-6 production levels in HG-induced MCs. Moreover, knockdown of CTRP6 inhibited HG-stimulated extracellular matrix (ECM) accumulation in MCs characterized by decreased expression and production levels of fibronectin (FN) and collagen IV (Col IV). Furthermore, CTRP6 knockdown suppressed HG-induced the activation of Akt/NF-κB pathway in MCs, while overexpression of CTRP6 exhibited the opposite effects. Treatment with LY294002, an inhibitor of Akt, reversed the induction effects of CTRP6 overexpression on ROS production, inflammation and ECM accumulation in MCs. In conclusion, these findings demonstrated that CTRP6 knockdown inhibits HG-induced ROS production, inflammation and ECM accumulation in MCs, which were mediated by the inactivation of the Akt/NF-κB pathway. The roles of CTRP6 in diabetic nephropathy provided evidence for its therapeutic potential for the treatment of diabetic nephropathy. © 2020 John Wiley & Sons Australia, Ltd.INTRODUCTION Bicuspid aortic valve (BAV) is a common congenital valve abnormality. There are no data in the literature regarding the range of aortic valve area (AVA) in normal functioning BAV. We aimed to evaluate the normal range of BAV area and to compare it to subjects with tricuspid aortic valve (TAV). METHODS Bicuspid aortic valve subjects were identified from Sheba medical center echocardiographic database and were compared with TAV subjects. Inclusion criteria were normal tissue leaflets appearance and normal functioning valve in the presence of normal echocardiogram. Echocardiographic data, patients hemodynamics, and size were collected. AVA was measured with both planimetry and the continuity equation. RESULTS Fifty BAV and 50 control subjects were studied (37 men, age 40 ± 13 years). All studies were performed with normal hemodynamics. Fusion between the coronary leaflets was the most common morphology (82%), followed by fusion between the right coronary leaflet with the noncoronary leaflet (18%). see more The left ventricular outflow tract (LVOT) diameter in BAV group was significantly larger (2.3 ± 0.3 cm vs 2.1 ± 0.2; P less then .001). The BAV group presented with a larger AVA planimetry (3.8 ± 0.9 vs 3.3 ± 0.6; P less then .001). However, measuring AVA using continuity equation has shown no differences between groups. link2 If using the principles of coefficient of contraction, it seems that measuring AVA by planimetry overestimates the real anatomic AVA. CONCLUSION This data provide normal values for echocardiographically determined AVA in BAV subjects. This population was characterized by large LVOT diameter and large AVA. The larger AVA measured with the planimetry emphasizes the limitation of this method in BAV population. © 2020 Wiley Periodicals, Inc.PURPOSE Diffusion weighted imaging (DWI) is increasingly used in evaluating breast cancer, as complement to DCE measurements of superior spatial resolution. link3 Extracting fine morphological features in DWI is complicated by limitations that sequences such as EPI face, when applied to heterogeneous organs. This study investigates the ability of spatiotemporal encoding (SPEN) MRI to screen breast cancers and define diffusivity features at mm and sub-mm resolutions on a 3T scanner METHODS Twenty-one patients with biopsy-confirmed breast cancer lesions were examined by T2-weighted and DCE protocols, by EPI-based DWI, and by SPEN-based protocols optimized for SNR, robustness and spatial resolution, respectively. RESULTS Excellent agreement was found between the diffusivity parameters measured by all SPEN protocols and by EPI, with the lower ADCs characteristic of tumors being readily detected. SPEN provided systematically better SNR and improved qualitative results, particularly when dealing with small lesions surrounded by fatty tissue, or lesions close to tissue/air interfaces.