Kidney transplant recipients may be at a high risk of developing critical coronavirus disease 2019 (COVID‐19) illness due to chronic immunosuppression and comorbidities. We identified hospitalized adult kidney transplant recipients at 12 transplant centers in the United States, Italy, and Spain who tested positive for COVID‐19. Clinical presentation, laboratory values, immunosuppression, and treatment strategies were reviewed, and predictors of poor clinical outcomes were determined through multivariable analyses. Among 9845 kidney transplant recipients across centers, 144 were hospitalized due to COVID‐19 during the 9‐week study period. Of the 144 patients, 66% were male with a mean age of 60 (±12) years, and 40% were Hispanic and 25% were African American. Prevalent comorbidities included hypertension (95%), diabetes (52%), obesity (49%), and heart (28%) and lung (19%) disease. Therapeutic management included antimetabolite withdrawal (68%), calcineurin inhibitor withdrawal (23%), hydroxychloroquine (71%), antibiotics (74%), tocilizumab (13%), and antivirals (14%). During a median follow‐up period of 52 days (IQR: 16‐66 days), acute kidney injury occurred in 52% cases, with respiratory failure requiring intubation in 29%, and the mortality rate was 32%. The 46 patients who died were older, had lower lymphocyte counts and estimated glomerular filtration rate levels, and had higher serum lactate dehydrogenase, procalcitonin, and interleukin‐6 levels. In sum, hospitalized kidney transplant recipients with COVID‐19 have higher rates of acute kidney injury and mortality.
Background Patients with chronic kidney disease commonly experience gait abnormalities, which predispose to falls and fall-related injuries. An unmet need is the development of improved methods for detecting patients at high risk of these complications, using tools that are feasible to implement in nephrology practice. Our prior work suggested step length could be such a marker. Here we explored the use of step length as a marker of gait impairment and fall risk in adults with chronic kidney disease. Methods We performed gait assessments in 2 prospective studies of 82 patients with stage 4 and 5 chronic kidney disease (n = 33) or end-stage renal disease (ESRD) (n = 49). Gait speed and step length were evaluated during the 4-m walk component of the Short Physical Performance Battery (SPPB). Falls within 6 months prior to or following enrollment were identified by questionnaire. Associations of low step length (≤47.2 cm) and slow gait speed (≤0.8 m/s) with falls were examined using logistic regression models adjusted for demographics and diabetes and peripheral vascular disease status. Results Assessments of step length were highly reproducible (r = 0.88, p < 0.001 for duplicate measurements at the same visit; r = 0.78, p < 0.001 between baseline and 3-month evaluations). Patients with low step length had poorer physical function, including lower SPPB scores, slower gait speed, and lower handgrip strength. Although step length and gait speed were highly correlated (r = 0.73, p < 0.001), one-third (n = 14/43) of patients with low step length did not have slow gait speed. Low step length and slow gait speed were each independently associated with the likelihood of falls (odds ratio (OR) 3.90 (95% confidence interval (CI) 1.05–14.60) and OR 4.25 (95% CI 1.24–14.58), respectively). Compared with patients who exhibited neither deficit, those with both had a 6.55 (95% CI 1.40–30.71) times higher likelihood of falls, and the number of deficits was associated with a graded association with falls (p trend = 0.02). Effect estimates were similar after further adjustment for ESRD status. Conclusions Step length and gait speed may contribute additively to the assessment of fall risk in a general adult nephrology population.
Kidney transplantation is the ideal treatment option for patients with end-stage kidney disease (ESKD). Since there is clear mortality benefit to receiving a transplant regardless of comorbidities and age, the gold standard of care should focus on attaining kidney transplantation and minimizing, or better yet eliminating, time on dialysis. Unfortunately, only a small percentage of patients with ESKD receive a kidney transplant. Several barriers to kidney transplantation have been identified. Barriers can largely be grouped into three categories: patient-related, physician/provider-related, and system-related. Several barriers fall into multiple categories and play a role at various levels within the healthcare system. Acknowledging and understanding these barriers will allow transplant centers and dialysis facilities to make the necessary interventions to mitigate these disparities, optimize the transplant evaluation process, and improve patient outcomes. This review will discuss these barriers and potential interventions to increase access to kidney transplantation.
Background: Physical inactivity is common in patients receiving hemodialysis, but activity patterns throughout the day and in relation to dialysis are largely unknown. This knowledge gap can be addressed by long-term, continuous activity monitoring, but this has not been attempted and may not be acceptable to dialysis patients. Methods: Ambulatory patients with end-stage kidney disease receiving thrice-weekly hemodialysis wore commercially available wrist-worn activity monitors for 6 months. Step counts were collected every 15 minutes and were linked to dialysis treatments. Physical function was assessed using the Short Physical Performance Battery (SPPB). Fast time to recovery from dialysis was defined as ≤2 hours. Mixed effects models were created to estimate step counts over time. Results: Of 52 patients enrolled, 48 were included in the final cohort. The mean age was 60 years, and 75% were Black or Hispanic. Comorbidity burden was high, 38% were transported to and from dialysis by paratransit, and 79% had SPPB <10. Median accelerometer use (199 days) and adherence (95%) were high. 42 patients (of 43 responders) reported wearing the accelerometer every day, and few barriers to adherence were noted. Step counts were lower on dialysis days (3991 (95% CI 3187-4796) vs. 4561 (95% CI 3757-5365)), but step count intensity was significantly higher during the hour immediately following dialysis than during the corresponding time on non-dialysis days (188 steps/hour increase (95% CI 171-205)); these levels were the highest noted at any time. Post-dialysis increases were more pronounced among patients with fast recovery time (225 (95% CI 203-248) vs. 134 (95% CI 107-161) steps/hour) or those with SPPB≥7. Estimates were unchanged after adjustment for demographics, diabetes status, and ultrafiltration rate. Conclusions: Long-term, continuous monitoring of physical activity is feasible in hemodialysis patients. Highly granular data collection and analysis yielded new insights into patterns of activity following dialysis treatments.
Casestudy Urinalysis is important to assess disease activity in Lupus nephritis (LN). Hematuria, pyuria, cellular/granular casts and proteinuria are scored separately for assessing renal activity in SLEDAI. However, pyuria is not specific, and could indicate infection. We studied the correlation of microscopic urinalysis and degree of lymphocyturia with histological ISN/RPS 2018 class of LN. Methods Pre-biopsy urine was collected in 76 LN patients. The urine sediment was analyzed using light and phase- contrast microscope. Smear stained with supravital stain Sternheimer Malbin, was assessed semi-quantitatively for lymphocytes (per HPF). Renal biopsy was classified into proliferative (Class III/IV ± V)[N=64] and non-proliferative LN (Class I, II, V, VI) [N=12]. Results 48 patients had active urinary sediment. Cellular and/or granular casts were identified only in proliferativeLN (n=15/64; 23.4%). Hematuria (Range 0-65/HPF) was seen in 45 patients. Dysmorphic RBCs were identified in proliferative (n=17/41; mean 9.9 RBCs/HPF) and were absent in non-proliferative LN (mean 1.4 RBCs/HPF). 20 of the 34 patients with pyuria showed predominant lymphocytes. Lymphocyturia (Range 0-20/HPF) was significantly higher in proliferative LN (Mean 4.6/HPF) as compared to non-proliferative LN (Mean 1.5/HPF). Degree of pyuria or proteinuria had no correlation with biopsy class or activity. Lymphocyturia and hematuria showed correlation with biopsy activity index (r=0.30 and 0.39; p<0.05 and <0.001 respectively). A cut-off of average 6 RBCs/HPF or 5 lymphocytes/HPF could correctly identify proliferative LN with 100% specificity (p<0.001; AUC 0.72 and 0.74 respectively, combined AUC 0.81) and sensitivity of 0.42 and 0.36 respectively. Conclusion Although renal biopsy is the gold standard for assessment of renal lesions in LN, urine lymphocytes ≥5 and RBCs ≥6/HPF have a high specificity to differentiate proliferative and non-proliferative LN. This may be especially important in patients having comorbidities contraindicating a renal biopsy. Defining urine sediments using lymphocytes can increase the specificity of clinical activity indices.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.