Acute Kidney Injury Among Children Admitted With Viral Rhabdomyolysis

BACKGROUND

Infectious etiologies cause a large portion of pediatric rhabdomyolysis. Among pediatric patients with rhabdomyolysis, it is unknown who will develop acute kidney injury (AKI). We sought to test the hypothesis that a viral etiology would be associated with less AKI in children admitted with rhabdomyolysis than a nonviral etiology.

METHODS

In this single-center retrospective cohort study, patients <21 years of age admitted with acute rhabdomyolysis from May 1, 2010, through December 31, 2018, were studied. The primary outcome was development of AKI, defined by using the Kidney Disease: Improving Global Outcomes guidelines. The primary predictor was identification of viral infection by laboratory testing or clinical diagnosis. Covariates included age, sex, race, insurance provider, presence of proteinuria and myoglobinuria, and initial creatinine kinase and serum urea nitrogen. Routine statistics and multivariable logistic modeling were performed via SAS 9.4 (SAS Institute, Inc, Cary, NC).

RESULTS

In total, 319 pediatric patients with rhabdomyolysis were studied. The median age was 13 years. Patients were predominately male (69.9%), non-Hispanic Black (55.2%), and publicly insured (45.1%). We found no difference in the rates of AKI in those with a viral diagnosis versus those without a viral diagnosis (30 of 77 [39.0%] vs 111 of 234 [47.4%]; P = .19). Multivariable analysis revealed that viral diagnosis was not associated with the development of AKI. Patients ≥13 years of age, male patients, and those with proteinuria and elevated serum urea nitrogen on admission had increased odds of developing AKI.

CONCLUSIONS

In our study, viral rhabdomyolysis did not have lower rates of AKI compared with nonviral etiologies of AKI; therefore, providers should consider continued caution in these patients.

Contact sport participation and chronic traumatic encephalopathy are associated with altered severity and distribution of cerebral amyloid angiopathy

Cerebral amyloid angiopathy (CAA) consists of beta-amyloid deposition in the walls of the cerebrovasculature and is commonly associated with Alzheimer's disease (AD). However, the association of CAA with repetitive head impacts (RHI) and with chronic traumatic encephalopathy (CTE) is unknown. We evaluated the relationship between RHI from contact sport participation, CTE, and CAA within a group of deceased contact sport athletes (n = 357), a community-based cohort (n = 209), and an AD cohort from Boston University AD Center (n = 241). Unsupervised hierarchal cluster analysis demonstrated a unique cluster (n = 11) with increased CAA in the leptomeningeal vessels compared to the intracortical vessels (p < 0.001) comprised of participants with significantly greater frequencies of CTE (7/11) and history of RHI. Overall, participants with CTE (n = 251) had more prevalent (p < 0.001) and severe (p = 0.010) CAA within the frontal leptomeningeal vessels compared to intracortical vessels. Compared to those with AD, participants with CTE had more severe CAA in frontal than parietal lobes (p < 0.001) and more severe CAA in leptomeningeal than intracortical vessels (p = 0.002). The overall frequency of CAA in participants with CTE was low, and there was no significant association between contact sport participation and the presence of CAA. However, in those with CAA, a history of contact sports was associated with increased CAA severity in the frontal leptomeningeal vessels (OR = 4.01, 95% CI 2.52-6.38, p < 0.001) adjusting for AD, APOE ε4 status, and age. Participants with CAA had increased levels of sulcal tau pathology and decreased levels of the synaptic marker PSD-95 (p's < 0.05), and CAA was a predictor of dementia (OR = 1.75, 95% CI 1.02-2.99, p = 0.043) adjusting for age, sex, and comorbid pathology. Overall, contact sport participation and CTE were associated with more severe frontal and leptomeningeal CAA, and CAA was independently associated with worse pathological and clinical outcomes.

Variation in TMEM106B in chronic traumatic encephalopathy

The genetic basis of chronic traumatic encephalopathy (CTE) is poorly understood. Variation in transmembrane protein 106B (TMEM106B) has been associated with enhanced neuroinflammation during aging and with TDP-43-related neurodegenerative disease, and rs3173615, a missense coding SNP in TMEM106B, has been implicated as a functional variant in these processes. Neuroinflammation and TDP-43 pathology are prominent features in CTE. The purpose of this study was to determine whether genetic variation in TMEM106B is associated with CTE risk, pathological features, and ante-mortem dementia. Eighty-six deceased male athletes with a history of participation in American football, informant-reported Caucasian, and a positive postmortem diagnosis of CTE without comorbid neurodegenerative disease were genotyped for rs3173615. The minor allele frequency (MAF = 0.42) in participants with CTE did not differ from previously reported neurologically normal controls (MAF = 0.43). However, in a case-only analysis among CTE cases, the minor allele was associated with reduced phosphorylated tau (ptau) pathology in the dorsolateral frontal cortex (DLFC) (AT8 density, odds ratio [OR] of increasing one quartile = 0.42, 95% confidence interval [CI] 0.22–0.79, p = 0.008), reduced neuroinflammation in the DLFC (CD68 density, OR of increasing one quartile = 0.53, 95% CI 0.29–0.98, p = 0.043), and increased synaptic protein density (β = 0.306, 95% CI 0.065–0.546, p = 0.014). Among CTE cases, TMEM106B minor allele was also associated with reduced ante-mortem dementia (OR = 0.40, 95% CI 0.16–0.99, p = 0.048), but was not associated with TDP-43 pathology. All case-only models were adjusted for age at death and duration of football play. Taken together, variation in TMEM106B may have a protective effect on CTE-related outcomes.

Real-time FPGA data collection of pulsed-laser cavity ringdown signals

This paper presents results from a pulsed-laser cavity ring-down spectrometer with novel field programable gate array real-time data collection. We show both theoretically and experimentally that the data extraction can be achieved from a single cavity ringdown event, and that the absorbance can be determined without the need to fit the ringdown time explicitly. This methodology could potentially provide data acquisition rate up to 1 MHz, with the accuracy and precision comparable to nonlinear least squares fitting algorithms.