R. Garrick scite author profile

. Noninvasive interrogation of microvasculature for signs of endothelial dysfunction in patients with chronic renal failure. Am J Physiol Heart Circ Physiol 287: H2687-H2696, 2004. First published August 5, 2004; doi:10.1152/ajpheart.00287.2004.-Endothelial cell dysfunction (ECD) has been demonstrated in patients with end-stage renal disease (ESRD) who have cardiovascular disease (CD) or diabetes mellitus (DM). While techniques to examine conduit arteries have been adapted to these patients, evaluation of microvascular function has lagged behind. Therefore, we used laser Doppler flowmetry (LDF) and scanned laser Doppler imaging (LDI) to quantify parameters of the postocclusion reactive hyperemia and thermal hyperemic responses (local heating to 43°C) in ESRD patients (n ϭ 63) and healthy individuals (n ϭ 33). Patients with ESRD were partitioned among those with either CD or DM or both (designated CDorDM, n ϭ 30), patients with both CD and DM (designated CDϩDM, n ϭ 12, statistically similar to CDorDM), and patients with neither CD or DM (designated ϳCDorDM, n ϭ 33). LDF during thermal hyperemia showed a decrease in the thermal peaks and plateau as well as a delay in plateau compared with control, consistent with ECD. LDF during reactive hyperemia showed a decrease in the pay-back area under the curve, also consistent with ECD. ϳCDorDM were heterogeneous: almost 50% contained flow abnormalities similar to CDorDM. There was also a reduction in the number of functional arterioles on LDI images. Fourier analysis of LDF oscillations showed that low-frequency oscillations characterizing endothelial function were impaired in CDorDM and in many ϳCDorDM. The data demonstrate that ESRD patients with expected ECD (CDorDM) are characterized by distinct abnormalities in LDF parameters. However, similar abnormalities are found in approximately one-half of ESRD patients without evidence for CD or DM. Postocclusive and thermal interrogation of the microvasculature with laser Doppler-resolved parameters of the microcirculation, followed by Fourier analysis of the very slow oscillations, may provide a valuable adjunct to early noninvasive diagnosis of ECD in ESRD, especially important in a subpopulation of ESRD patients with no known CD or DM, which could be at increased risk of impending clinical manifestations of vasculopathy.laser Doppler flowmetry; imaging; microcirculation; coronary artery disease; diabetes mellitus CARDIOVASCULAR COMPLICATIONS have emerged as the most serious life-threatening accompaniment of end-stage renal disease (ESRD) (23). Widespread macrovascular endothelial cell dysfunction (ECD), diagnosed in large conduit vessels as paradoxical vasoconstriction to acetylcholine occurring before angiographic stigmata of atherosclerosis are detectable, is believed to be ultimately responsible for the development of many cardiovascular complications (24,33,43). Patients with ESRD are at additional risk for ECD because the uniform and concomitant presence of hyperhomocystenemia, accumulation of asymmetric dimethylargi...

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Laser Doppler flowmetry detection of endothelial dysfunction in end-stage renal disease patients: Correlation with cardiovascular risk

Kruger

Stewart

Sahityani

et al. 2006

Kidney International

113

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Prediction of cardiovascular (CV) complications represents the Achilles' heel of end-stage renal disease. Surrogate markers of endothelial dysfunction have been advocated as predictors of CV risk in this cohort of patients. We have recently adapted a noninvasive laser Doppler flowmetry (LDF) functional testing of endothelium-dependent microvascular reactivity and demonstrated that end-stage renal disease patients are characterized by profound alterations in thermal hyperemic responsiveness. We hypothesized that such functional assessment of the cutaneous microcirculation may offer a valid, noninvasive test of the severity of endothelial dysfunction and CV risk. To test this hypothesis, we performed a cross-sectional study, in which we compared LDF measurements to conventional risk factors, and performed a pilot longitudinal study. LDF studies were performed in 70 patients and 33 controls. Framingham and Cardiorisk scores were near equivalent for low-risk patients, but more divergent as risk increased. C reactive protein (CRP) levels and LDF parameters (amplitude of thermal hyperemia (TH), area under the curve of TH) showed significant abnormality in high-risk vs low-risk patients calculated using either Framingham or Cardiorisk scores. Patients who had abnormal LDF parameters showed increased CV mortality, however, had similar risk assessments (Framingham, Cardiorisk, CRP, and homocysteine) to those with unimpaired LDF tracings. In conclusion, LDF parameters of microvascular reactivity offer a sensitive characterization of endothelial dysfunction, which may improve CV risk assessment through incorporation into the Framingham or Cardiorisk algorithm.

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Patient and Facility Safety in Hemodialysis

Garrick

Kliger

Stefanchik

2012

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SummaryPatient safety is the foundation of high-quality health care. More than 350,000 patients receive dialysis in the United States, and the safety of their care is ultimately the responsibility of the facility medical director. The medical director must establish a culture of safety in the dialysis unit and lead the quality assessment and performance improvement process. Several lines of investigation, including surveys of patients and dialysis professionals, have helped to identify important areas of safety risk in dialysis facilities. Among these are lapses in communication, medication errors, patient falls, errors in machine and membrane preparation, failure to follow established policies, and lapses in infection control. The quality assessment and performance improvement process should include a dedicated safety team to focus on specifically identified areas of risk and to establish outcome goals guided by best practices and agreed-upon measures of success. A safety questionnaire can be given to patients and staff and the responses evaluated to improve understanding of the prevailing attitudes and concerns about safety. By sharing these results, openly acknowledging the challenges, and using a blame-free root cause process to identify action plans, the facility can begin to establish a culture of safety.

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R. Garrick

Noninvasive interrogation of microvasculature for signs of endothelial dysfunction in patients with chronic renal failure

Laser Doppler flowmetry detection of endothelial dysfunction in end-stage renal disease patients: Correlation with cardiovascular risk

Patient and Facility Safety in Hemodialysis

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