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Advances In Chronic Kidney Disease[JOURNAL]

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What Have We Learned so Far From the Use of Sodium-Glucose Cotransporter 2 Inhibitors in Clinical Practice?

Rossing P, Persson F

Adv Chronic Kidney Dis · 2021 Jul · PMID 34922685 · Publisher ↗

Since the introduction of sodium-glucose cotransporter 2 (SGLT2) inhibitors, the aim of this therapy has expanded from being solely a glucose-lowering treatment into also being organ protective even in people without dia... Since the introduction of sodium-glucose cotransporter 2 (SGLT2) inhibitors, the aim of this therapy has expanded from being solely a glucose-lowering treatment into also being organ protective even in people without diabetes. In this review, we present this evolution of the treatment principle, from early studies over randomized controlled trials. We discuss available real-world evidence and summarize a number of recent post hoc analyses from the randomized controlled trials with kidney end points. As the use of sodium-glucose cotransporter 2 inhibitors becomes more widespread, new questions arise regarding initiation and follow-up, which we try to answer by providing the currently available data. For translation of study results to global effects, implementation becomes important. As is often the case, this does not happen without barriers, which must be addressed and handled. Finally, future studies and populations are discussed because it may well be that sodium-glucose cotransporter 2 inhibition are expanding into further areas.

Targeting the Pathobiology of Diabetic Kidney Disease.

Thomas MC

Adv Chronic Kidney Dis · 2021 Jul · PMID 34922684 · Publisher ↗

The pathobiology of diabetic kidney disease (DKD) involves an interplay between all the many different cell types that exist within the kidney and their shared and cumulative dysfunction in response to chronic hyperglyce... The pathobiology of diabetic kidney disease (DKD) involves an interplay between all the many different cell types that exist within the kidney and their shared and cumulative dysfunction in response to chronic hyperglycemia. DKD is characteriszed by morphological changes including tubular hypertrophy, podocyte dysfunction, mesangial expansion and mesangiolysis, endothelitis and capillary rarefaction, arteriolar hyalinosis, basement membrane thickening, and ultimately nephron dropout and tubulointerstitial fibrosis. These adaptive but ultimately maladaptive changes accelerate the progression of lesions in the diabetic kidney by increasing mechanical and oxidative stress, hypoxia, fibrogenesis, inflammation, senescence, and apoptosis. In particular, atrophy at the critical junction between Bowman's capsule and the proximal tubule likely represent the leading cause of nephron dropout and kidney function decline in DKD. Preventing, slowing, or reversing these changes should be the target of future "smart" therapies for patients with DKD, many of which are now under development.

A New Therapeutic Era in the Management of Diabetic Kidney Disease.

Rosas SE, Cherney DZI

Adv Chronic Kidney Dis · 2021 Jul · PMID 34922683 · Full text

Abstract loading — click title to view on PubMed.

Treatment of Diabetic Nephropathy: Changing Landscapes and New Horizons.

Thakar CV

Adv Chronic Kidney Dis · 2021 Jul · PMID 34922682 · Publisher ↗

Abstract loading — click title to view on PubMed.

Practical Aspects of Point-of-Care Ultrasound: From Billing and Coding to Documentation and Image Archiving.

Zeidan A, Liu EL

Adv Chronic Kidney Dis · 2021 May · PMID 34906312 · Publisher ↗

As point-of-care ultrasound (POCUS) is increasingly implemented into the routine clinical practice of nephrologists, it is important to consider the practical aspects of a POCUS workflow including documentation, image ar... As point-of-care ultrasound (POCUS) is increasingly implemented into the routine clinical practice of nephrologists, it is important to consider the practical aspects of a POCUS workflow including documentation, image archiving, billing, and coding. Documentation of POCUS studies performed allows for accurate information exchange among all members of the care team and can be effectively implemented using preset documentation worksheets. Image archiving systems provide a mechanism for review, storage, and quality assurance processes that are directly linked to the patient's record. Understanding the coding components required for billing and developing efficient systems to support billing and coding can contribute to ensuring financial support for POCUS programs long term. Each individual component, documentation, image archiving, billing, and coding is necessary to incorporate into a POCUS workflow as documentation, archiving, and coding of studies are required for appropriate billing. Most importantly, incorporating these practical components creates opportunities for communicating clinically relevant findings among care teams and enhances the quality of patient care delivered in health systems.

Deep Learning in Kidney Ultrasound: Overview, Frontiers, and Challenges.

De Jesus-Rodriguez HJ, Morgan MA, Sagreiya H

Adv Chronic Kidney Dis · 2021 May · PMID 34906311 · Publisher ↗

Ultrasonography is a practical imaging technique used in numerous health care settings. It is relatively inexpensive, portable, and safe, and it has dynamic capabilities that make it an invaluable tool for a wide variety... Ultrasonography is a practical imaging technique used in numerous health care settings. It is relatively inexpensive, portable, and safe, and it has dynamic capabilities that make it an invaluable tool for a wide variety of diagnostic and interventional studies. Recently, there has been a revolution in medical imaging using artificial intelligence (AI). A particularly potent form of AI is deep learning, in which the computer learns to recognize pixel or written data on its own without the selection of predetermined features, usually through a specific neural network architecture. Neural networks vary in architecture depending on their task, and key design considerations include the number of layers and complexity, data available, technical requirements, and domain knowledge. Deep learning models offer the potential for promising innovations to workflow, image quality, and vision tasks in sonography. However, there are key limitations and challenges in creating reliable and safe AI models for patients and clinicians.

VExUS Nexus: Bedside Assessment of Venous Congestion.

Argaiz ER

Adv Chronic Kidney Dis · 2021 May · PMID 34906310 · Publisher ↗

Organ dysfunction in the setting of heart failure is mainly determined by backward transmission of increased right atrial pressure. Although traditional point-of-care ultrasound applications such as inferior vena cava an... Organ dysfunction in the setting of heart failure is mainly determined by backward transmission of increased right atrial pressure. Although traditional point-of-care ultrasound applications such as inferior vena cava and lung ultrasound have been increasingly incorporated in the clinical care of congestive heart failure, they do not directly evaluate the hemodynamic consequences of high right atrial pressure on organ blood flow. Congestion induces alterations in the venous flow patterns of abdominal organs that can be readily assessed using Doppler imaging. These alterations have been consistently associated with congestive organ dysfunction and adverse clinical outcomes. In this article, we provide a comprehensive overview of the bedside assessment of venous congestion using Doppler imaging. The review focuses mainly on the normal and abnormal Doppler patterns of the hepatic, portal, and intrarenal veins along with clinical examples of how to incorporate this tool in the management of patients with venous congestion.

Critical Care Echocardiography: A Primer for the Nephrologist.

Mitchell OJL, Teran F, Patel S … +1 more , Baston C

Adv Chronic Kidney Dis · 2021 May · PMID 34906309 · Full text

Critical care echocardiography (CCE) refers to the goal-directed use of transthoracic or transesophageal echocardiography and represents one of the most common applications of critical care ultrasound. CCE can be perform... Critical care echocardiography (CCE) refers to the goal-directed use of transthoracic or transesophageal echocardiography and represents one of the most common applications of critical care ultrasound. CCE can be performed at the point of care, is easily repeated following changes in clinical status, and does not expose the patient to ionizing radiation. Nephrologists who participate in the care of patients in the intensive care unit will regularly encounter CCE as part of the decision-making and bedside management of ICU patients. The four primary indications for CCE are the characterization of shock, evaluation of preload tolerance, evaluation of volume responsiveness, and serial hemodynamic assessment to evaluate response to therapeutic interventions. This article provides an overview of the anatomical structures that are routinely assessed in basic CCE, describes how these findings are incorporated into the clinical assessment of critically ill patients, and introduces some common applications of advanced CCE.

Building and Maintaining an Ultrasound Program: It Takes a Village.

Dversdal RK, Northcutt NM, Ferre RM

Adv Chronic Kidney Dis · 2021 May · PMID 34906308 · Publisher ↗

Building and maintaining a successful point-of-care ultrasound program is a complex process that involves establishing an ecosystem between three unique but overlapping domains: ultrasound equipment, ultrasound users, an... Building and maintaining a successful point-of-care ultrasound program is a complex process that involves establishing an ecosystem between three unique but overlapping domains: ultrasound equipment, ultrasound users, and the health care system. By highlighting the different areas of focus and each of the key stakeholders and components, a group can ensure adequate attention is paid to all aspects of point-of-care ultrasound program development in nephrology.

Point-of-care Vascular Ultrasound: Of Fistulas and Flows.

Voiculescu AS, Hentschel DM

Adv Chronic Kidney Dis · 2021 May · PMID 34906307 · Publisher ↗

Point-of-care ultrasound (POCUS) is increasingly being used in nephrology as a diagnostic tool, and there is a growing interest among physicians and nursing staff to learn how to use POCUS for the evaluation of the dialy... Point-of-care ultrasound (POCUS) is increasingly being used in nephrology as a diagnostic tool, and there is a growing interest among physicians and nursing staff to learn how to use POCUS for the evaluation of the dialysis vascular access (DVA). The goal of POCUS is to extend the physical examination and more closely evaluate the DVA at bedside. Typically, POCUS quickly answers yes-no questions (ie, Is the vein too deep? Y/N). It is not the goal of POCUS of the vascular access to extensively investigate the entire fistula or graft. In conjunction with a good physical examination, brightness-mode ultrasound alone can answer most questions regarding the DVA, such as depth and diameter of the vessel. With some additional training, a limited color Doppler can be added to the standard evaluation to check flow direction and pseudoaneurysms. With more extensive training and an understanding of Doppler physics, access flow volumes can also be determined using spectral Doppler-mode ultrasound.

Inferior Vena Cava Collapsibility Index: Clinical Validation and Application for Assessment of Relative Intravascular Volume.

Kaptein MJ, Kaptein EM

Adv Chronic Kidney Dis · 2021 May · PMID 34906306 · Publisher ↗

Accurate assessment of relative intravascular volume is critical to guide volume management of patients with acute or chronic kidney disorders, particularly those with complex comorbidities requiring hospitalization or i... Accurate assessment of relative intravascular volume is critical to guide volume management of patients with acute or chronic kidney disorders, particularly those with complex comorbidities requiring hospitalization or intensive care. Inferior vena cava (IVC) diameter variability with respiration measured by ultrasound provides a dynamic noninvasive point-of-care estimate of relative intravascular volume. We present details of image acquisition, interpretation, and clinical scenarios to which IVC ultrasound can be applied. The variation in IVC diameter over the respiratory or ventilatory cycle is greater in patients who are volume responsive than those who are not volume responsive. When 2 recent prospective studies of spontaneously breathing patients (n = 214) are added to a prior meta-analysis of 181 patients, for a total of 7 studies of 395 spontaneously breathing patients, IVC collapsibility index (CI) had a pooled sensitivity of 71% and specificity of 81% for predicting volume responsiveness, which is similar to a pooled sensitivity of 75% and specificity of 82% for 9 studies of 284 mechanically ventilated patients. IVC maximum diameter <2.1 cm, that collapses >50% with or without a sniff is inconsistent with intravascular volume overload and suggests normal right atrial pressure (0-5 mmHg). Inferior vena cava collapsibility (IVC CI) < 20% with no sniff suggests increased right atrial pressure and is inconsistent with overt hypovolemia in spontaneously breathing or ventilated patients. These IVC CI cutoffs do not appear to vary greatly depending on whether patients are breathing spontaneously or are mechanically ventilated. Patients with lower IVC CI are more likely to tolerate ultrafiltration with hemodialysis or improve cardiac output with ultrafiltration. Our goal for IVC CI generally ranges from 20% to 50%, respecting potential biases to interpretation and overriding clinical considerations. IVC ultrasound may be limited by factors that affect IVC diameter or collapsibility, clinical interpretation, or optimal visualization, and must be interpreted in the context of the entire clinical situation.

Cardiac Ultrasound for the Nephrologist: Know Thy Heart to Know Thy Kidneys.

Goyal P, Minardi J, Sakhuja A

Adv Chronic Kidney Dis · 2021 May · PMID 34906305 · Full text

Kidney disease patients have a high prevalence of cardiovascular morbidity and mortality. It can be challenging to adequately assess their cardiovascular status based on physical examination alone. Cardiac ultrasound has... Kidney disease patients have a high prevalence of cardiovascular morbidity and mortality. It can be challenging to adequately assess their cardiovascular status based on physical examination alone. Cardiac ultrasound has proven to be a powerful tool to accomplish this objective and is increasingly being adopted by noncardiologists to augment their skills and expedite clinical decision-making. With the advent of inexpensive and portable ultrasound equipment, simplified protocols, and focused training, it is becoming easier to master basic cardiac ultrasound techniques. After a short course of training in focused cardiac ultrasound, nephrologists can quickly and reliably assess ventricular size and function, detect clinically relevant pericardial effusion and volume status in their patients. Additional training in Doppler ultrasound can extend their capability to measure cardiac output, right ventricular systolic pressure, and diastolic dysfunction. This information can be instrumental in effectively managing patients in inpatient, office, and dialysis unit settings. The purpose of this review is to highlight the importance and feasibility of incorporating cardiac ultrasound in nephrology practice, discuss the principles of basic and Doppler ultrasound modalities and their clinical utility from a nephrologist's perspective.

Lung Ultrasound: A "Biomarker" for Fluid Overload?

Suarez J, Niyyar VD

Adv Chronic Kidney Dis · 2021 May · PMID 34906304 · Publisher ↗

Fluid overload is associated with poor outcomes in patients with acute kidney injury as well as end-stage kidney disease. Lung ultrasound (LUS) has been used in many different settings and specialties including the emerg... Fluid overload is associated with poor outcomes in patients with acute kidney injury as well as end-stage kidney disease. Lung ultrasound (LUS) has been used in many different settings and specialties including the emergency department, intensive care unit, trauma, cardiology, and nephrology. Although LUS has been a valuable tool in assessing pulmonary congestion, LUS findings may not always be pathognomonic for pulmonary congestion. Furthermore, the feasibility of doing an extensive LUS examination as has been done in research studies may be hard to implement within the clinical setting. This review will go over the use of LUS to evaluate for fluid overload, compare LUS with other markers of fluid overload, review limitations of LUS, and suggest potential future directions in the use of LUS in nephrology.

An Introduction to Point-of-Care Ultrasound: Laennec to Lichtenstein.

Koratala A, Kazory A

Adv Chronic Kidney Dis · 2021 May · PMID 34906303 · Publisher ↗

Point-of-care ultrasonography (POCUS) is rapidly evolving as a noninvasive adjunct to physical examination among various specialties. POCUS increases the sensitivity of conventional physical examination by providing the... Point-of-care ultrasonography (POCUS) is rapidly evolving as a noninvasive adjunct to physical examination among various specialties. POCUS increases the sensitivity of conventional physical examination by providing the answers to simple clinical questions at the bedside. As such, it can reduce fragmentation of care and expedite management. In addition, using bedside ultrasound as the first-line investigation may eliminate unnecessary radiation and contrast exposure. The advent of highly portable and affordable ultrasound devices has made the use of POCUS more practical and user-friendly, making it the stethoscope of the 21st century. This review will provide an overview of the rationale for integrating POCUS into nephrology practice. We also discuss the current scope of POCUS practice and state of training.

The Ultrasound-Augmented Physical Exam for Nephrologists: Beyond the Kidney.

Reisinger N, Ahmed N

Adv Chronic Kidney Dis · 2021 May · PMID 34906302 · Publisher ↗

Abstract loading — click title to view on PubMed.

Nocturnal Hemodialysis: Why Aren't More People Doing It?

Malavade TS, Dey A, Chan CT

Adv Chronic Kidney Dis · 2021 Mar · PMID 34717866 · Publisher ↗

Nocturnal hemodialysis is a form of intensive hemodialysis, which may be done in center or at home. Despite the documented clinical and economic benefits of ncturnal hemodialysis, uptake of this modality has been relativ... Nocturnal hemodialysis is a form of intensive hemodialysis, which may be done in center or at home. Despite the documented clinical and economic benefits of ncturnal hemodialysis, uptake of this modality has been relatively low. In this review, we aim to address the potential barriers and possible mitigation strategies. Among the patient-related barriers, lack of knowledge and awareness remains the most common barrier, while administrative inertia to change from conventional in-center hemodialysis continues to be a challenge. Current global effort to grow home dialysis will re-focus the need for better patient education, innovate home dialysis technology, and evolve new models of care. New patient-focused policy will allow changes in reimbursement and develop appropriate momentum toward an integrated "home first model" to kidney replacement therapy.

Innovations to Increase Home Hemodialysis Utilization: The Transitional Care Unit.

Hussein WF, Bennett PN, Schiller B

Adv Chronic Kidney Dis · 2021 Mar · PMID 34717865 · Publisher ↗

A large proportion of patients undergoing incident dialysis start in-center hemodialysis with suboptimal preparation and predialysis education. Transitional care units deliver a structured program by dedicated staff, wit... A large proportion of patients undergoing incident dialysis start in-center hemodialysis with suboptimal preparation and predialysis education. Transitional care units deliver a structured program by dedicated staff, with less patient-to-staff ratios than in regular in-center dialysis care, with the goals of supporting the emotional and physical well-being of patients while providing them with education and equipping them with the right tools to start their journey on dialysis. Key components of these programs include an emphasis on patient activation and self-management, educating and supporting patients to make informed modality choices, timely coordination of care, and an integrated approach to formation and use of the dialysis access. While data are still limited on best practices and on outcomes of these programs at a large scale, endorsing the model of transitional care units is a step in the right direction to fill the gap in our current care system.

Quality Assurance and Preventing Serious Adverse Events in the Home Hemodialysis Setting.

More KM, Tennankore K

Adv Chronic Kidney Dis · 2021 Mar · PMID 34717864 · Publisher ↗

Patient safety is of the utmost importance in home hemodialysis (HHD). Recognizing that there are risks related to vascular access (both infectious and noninfectious events), dialysis water quality, and procedural-relate... Patient safety is of the utmost importance in home hemodialysis (HHD). Recognizing that there are risks related to vascular access (both infectious and noninfectious events), dialysis water quality, and procedural-related adverse events (including arteriovenous fistula needle dislodgement or air embolism), there is a need for systematic identification and management. Although adverse events are relatively infrequent in HHD, the potential consequences of these events may include significant morbidity, HHD treatment failure, or death. Therefore, having a systematic framework to review each event, audit and retrain patient technique, disclose and discuss events with patients, home unit staff and device companies (if relevant) and determine preventative measures to avoid future adverse events, is crucial. In this review, we will describe the literature around the types and relative frequency of serious adverse events in the HHD setting and we will outline a quality assurance framework for capturing, managing, and avoiding serious adverse events. Finally, we will describe some of the novel existing approaches to preventing or addressing serious adverse events and critical knowledge gaps that should be evaluated in future study.

Essentials of Vascular Access for Home Hemodialysis.

Agarwal AK, Boubes KY, Haddad NF

Adv Chronic Kidney Dis · 2021 Mar · PMID 34717863 · Publisher ↗

Hemodialysis (HD) at home has gained increasing popularity in recent years because of regulatory and financial issues. Creation and maintenance of a well-functioning, cannulatable vascular access is essential for perform... Hemodialysis (HD) at home has gained increasing popularity in recent years because of regulatory and financial issues. Creation and maintenance of a well-functioning, cannulatable vascular access is essential for performance of home HD (HHD). A vascular access team-based approach to creation, maintenance, and troubleshooting of vascular access can facilitate removing barriers to cannulation at home related to fear of pain and bleeding associated with large bore needles. Frequent cannulation of HD access is associated with more frequent access complications, especially infections. Thus, proper cannulation of arteriovenous access requires careful training of rope ladder and buttonhole techniques to avoid infectious and traumatic complications that can lead to dire consequences. Development of better methods of creating buttonholes and single needles for dialysis can facilitate HHD. A culture of self-cannulation at dialysis centers can also promote HHD.

Prescribing Home Hemodialysis.

Glickman JD, Teitelbaum I, Golper TA

Adv Chronic Kidney Dis · 2021 Mar · PMID 34717862 · Publisher ↗

Home hemodialysis (HHD), performed more frequently than in-center hemodialysis, is underutilized in the United States but has had a recent resurgence driven predominantly by innovative dialysis equipment that is easy to... Home hemodialysis (HHD), performed more frequently than in-center hemodialysis, is underutilized in the United States but has had a recent resurgence driven predominantly by innovative dialysis equipment that is easy to use, less intrusive to the home, and requires less storage space. There are 3 different hemodialysis machines approved for use in the home but currently NxStage™ accounts for the overwhelming majority of HHD patients. Therefore, it is the focus of this article. To minimize storage space in the home, the NxStage platform minimizes the volume of dialysate that is used per treatment. We refer to this method as the Frequent Low Dialysate Volume Approach (FLDVA). The approach to urea removal with the NxStage platform is much different compared to traditional in-center HD. To minimize the volume of dialysate per treatment, and still achieve target urea removal, the dialysate must be highly saturated. In this article, we explain how to increase the saturation of dialysate fluid. We also draw a parallel between urea removal in peritoneal dialysis and NxStage therapy and use that model to estimate an initial HHD prescription and to alter prescriptions when necessary.
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