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Mieog JS Troyan SL Hutteman M Donohoe KJ van der Vorst JR Stockdale A Liefers GJ Choi HS Gibbs-Strauss SL Putter H Gioux S Kuppen PJ Ashitate Y Löwik CW Smit VT Oketokoun R Ngo LH van de Velde CJ Frangioni JV Vahrmeijer AL 《Annals of surgical oncology》2011,18(9):2483-2491
Background
Near-infrared (NIR) fluorescent sentinel lymph node (SLN) mapping in breast cancer requires optimized imaging systems and lymphatic tracers.Materials and Methods
A small, portable version of the FLARE imaging system, termed Mini-FLARE, was developed for capturing color video and two semi-independent channels of NIR fluorescence (700 and 800 nm) in real time. Initial optimization of lymphatic tracer dose was performed using 35-kg Yorkshire pigs and a 6-patient pilot clinical trial. More refined optimization was performed in 24 consecutive breast cancer patients. All patients received the standard of care using 99mTechnetium-nanocolloid and patent blue. In addition, 1.6 ml of indocyanine green adsorbed to human serum albumin (ICG:HSA) was injected directly after patent blue at the same location. Patients were allocated to 1 of 8 escalating ICG:HSA concentration groups from 50 to 1000 μM.Results
The Mini-FLARE system was positioned easily in the operating room and could be used up to 13 in. from the patient. Mini-FLARE enabled visualization of lymphatic channels and SLNs in all patients. A total of 35 SLNs (mean = 1.45, range 1–3) were detected: 35 radioactive (100%), 30 blue (86%), and 35 NIR fluorescent (100%). Contrast agent quenching at the injection site and dilution within lymphatic channels were major contributors to signal strength of the SLN. Optimal injection dose of ICG:HSA ranged between 400 and 800 μM. No adverse reactions were observed.Conclusions
We describe the clinical translation of a new NIR fluorescence imaging system and define the optimal ICG:HSA dose range for SLN mapping in breast cancer. 相似文献2.
E. S. Agoro G. C. Chinyere E. I. Akubugwo M. M. Wankasi V. N. Agi 《The Australian journal of forensic sciences》2019,51(4):476-484
In this study, acute carbon monoxide (CO) was used to cause the death of experimental animals through inhalation. The sample size of the study was made up of 18 rabbits divided into the control group (CG), disguised death (DD) and carbon monoxide death (CD) groups respectively. Vitreous humours were extracted using standard methodologies and biochemical parameters estimated using WHO approved methods and procedures. The findings showed a significant decrease (P < 0.05) in vitreous humour chloride ion, calcium ion, pH, uric acid and total calcium in the CDs. However, vitreous lactate dehydrogenase (LDH) of the experimental animals significantly increased (P < 0.05) only in the CD group, while creatine kinase (CK) and creatine significantly increased in both the DD and CD animal groups, although they were markedly higher in the CD. Therefore, decreases in concentrations of vitreous humour uric acid, chloride and calcium profile, and an increase in vitreous LDH could serve as possible indicators of CO poisoning, especially in scenarios of impracticable use of blood, as in rigor mortis, livor mortis or decomposition. 相似文献
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Gioux S Mazhar A Lee BT Lin SJ Tobias AM Cuccia DJ Stockdale A Oketokoun R Ashitate Y Kelly E Weinmann M Durr NJ Moffitt LA Durkin AJ Tromberg BJ Frangioni JV 《Journal of biomedical optics》2011,16(8):086015
Oxygenation measurements are widely used in patient care. However, most clinically available instruments currently consist of contact probes that only provide global monitoring of the patient (e.g., pulse oximetry probes) or local monitoring of small areas (e.g., spectroscopy-based probes). Visualization of oxygenation over large areas of tissue, without a priori knowledge of the location of defects, has the potential to improve patient management in many surgical and critical care applications. In this study, we present a clinically compatible multispectral spatial frequency domain imaging (SFDI) system optimized for surgical oxygenation imaging. This system was used to image tissue oxygenation over a large area (16×12 cm) and was validated during preclinical studies by comparing results obtained with an FDA-approved clinical oxygenation probe. Skin flap, bowel, and liver vascular occlusion experiments were performed on Yorkshire pigs and demonstrated that over the course of the experiment, relative changes in oxygen saturation measured using SFDI had an accuracy within 10% of those made using the FDA-approved device. Finally, the new SFDI system was translated to the clinic in a first-in-human pilot study that imaged skin flap oxygenation during reconstructive breast surgery. Overall, this study lays the foundation for clinical translation of endogenous contrast imaging using SFDI. 相似文献
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Susan L. Troyan MD Vida Kianzad PhD Summer L. Gibbs-Strauss PhD Sylvain Gioux MEng Aya Matsui MD PhD Rafiou Oketokoun MEng Long Ngo PhD Ali Khamene PhD Fred Azar PhD John V. Frangioni MD PhD 《Annals of surgical oncology》2009,16(10):2943-2952
Background
Invisible NIR fluorescent light can provide high sensitivity, high-resolution, and real-time image-guidance during oncologic surgery, but imaging systems that are presently available do not display this invisible light in the context of surgical anatomy. The FLARE™ imaging system overcomes this major obstacle. 相似文献6.
Megan L Noonan Pu Ni Rafiou Agoro Spencer A Sacks Elizabeth A Swallow Jonathan A Wheeler Erica L Clinkenbeard Maegan L Capitano Matthew Prideaux Gerald J Atkins William R Thompson Matthew R Allen Hal E Broxmeyer Kenneth E White 《Journal of bone and mineral research》2021,36(6):1117-1130
Fibroblast growth factor-23 (FGF23) is a critical factor in chronic kidney disease (CKD), with elevated levels causing alterations in mineral metabolism and increased odds for mortality. Patients with CKD develop anemia as the kidneys progressively lose the ability to produce erythropoietin (EPO). Anemia is a potent driver of FGF23 secretion; therefore, a hypoxia-inducible factor prolyl hydroxylase inhibitor (HIF-PHI) currently in clinical trials to elevate endogenous EPO to resolve anemia was tested for effects on iron utilization and FGF23-related parameters in a CKD mouse model. Mice were fed either a casein control diet or an adenine-containing diet to induce CKD. The CKD mice had markedly elevated iFGF23 and blood urea nitrogen (BUN), hyperphosphatemia, and anemia. Cohorts of mice were then treated with a patient-equivalent dose of BAY 85-3934 (BAY; Molidustat), which elevated EPO and completely resolved aberrant complete blood counts (CBCs) in the CKD mice. iFGF23 was elevated in vehicle-treated CKD mice (120-fold), whereas circulating iFGF23 was significantly attenuated (>60%) in the BAY-treated CKD mice. The BAY-treated mice with CKD also had reduced BUN, but there was no effect on renal vitamin D metabolic enzyme expression. Consistent with increased EPO, bone marrow Erfe, Transferrin receptor (Tfrc), and EpoR mRNAs were increased in BAY-treated CKD mice, and in vitro hypoxic marrow cultures increased FGF23 with direct EPO treatment. Liver Bmp-6 and hepcidin expression were downregulated in all BAY-treated groups. Femur trabecular parameters and cortical porosity were not worsened with BAY administration. In vitro, differentiated osteocyte-like cells exposed to an iron chelator to simulate iron depletion/hypoxia increased FGF23; repletion with holo-transferrin completely suppressed FGF23 and normalized Tfrc1. Collectively, these results support that resolving anemia using a HIF-PHI during CKD was associated with lower BUN and reduced FGF23, potentially through direct restoration of iron utilization, thus providing modifiable outcomes beyond improving anemia for this patient population. © 2021 American Society for Bone and Mineral Research (ASBMR). 相似文献
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