Glycemic relapse in a collaborative primary care-based type 2 diabetes management program.

OBJECTIVES: The purpose of this study is to evaluate the incidence of glycemic relapse in patients who attained their glycosylated hemoglobin (A1C) goal through a health system-wide collaborative primary care-based pharmacist- and Certified Diabetes Care and Education Specialist (CDCES)-led type 2 diabetes (T2D) management program and to identify relapse risk factors. METHODS: This retrospective cohort study examined patients with T2D in the diabetes management program with a baseline A1C of at least 9% who attained their A1C goal. The primary outcome was incidence of glycemic relapse. Time to relapse was estimated using Kaplan-Meier curve, and a cox proportional hazards model was fitted to identify the risk factors for glycemic relapse. RESULTS: Three hundred sixty-two patients were followed-up for a median of 10.5 (interquartile range 12.1) months after program completion; 38 patients (10.5%) experienced a glycemic relapse. Kaplan-Meier analysis estimated a 12-month relapse rate of 8.3%. The presence of a medication adherence barrier, presence of a higher number of chronic medications at baseline, presence of a baseline body mass index (BMI) of 30-39.9, and use of insulin at program completion increased risk for glycemic relapse in a univariate model. In multivariate regression, baseline BMI of 30-39.9 remained statistically significant. Older age at baseline was associated with a statistically significantly decreased relapse risk in both models. CONCLUSION: This study highlights a low incidence of glycemic relapse for patients with T2D who reach their A1C goal through a collaborative primary care-based pharmacist- and CDCES-led T2D management program. The presence of risk factors for glycemic relapse may indicate a need for ongoing intensive care despite achieving A1C goal.

Investigation of nasal CO2 receptor transduction mechanisms in wild-type and GC-D knockout mice.

The main olfactory system of mice contains a small subset of olfactory sensory neurons (OSNs) that are stimulated by CO2. The objective of this study was to record olfactory receptor responses to a range of CO2 concentrations to further elucidate steps in the proposed CO2 transduction pathway in mice. Electro-olfactograms (EOGs) were recorded before and after inhibiting specific steps in the CO2 transduction pathway with topically applied inhibitors. Inhibition of extracellular carbonic anhydrase (CA) did not significantly affect EOG responses to CO2 but did decrease EOG responses to several control odorants. Inhibition of intracellular CA or cyclic nucleotide-gated channels attenuated EOG responses to CO2, confirming the role of these components in CO2 sensing in mice. We also show that, like canonical OSNs, CO2-sensitive OSNs depend on Ca²âº-activated Cl⁻ channels for depolarization of receptor neurons. Lastly, we found that guanylyl cyclase-D knockout mice were still able to respond to CO2, indicating that other pathways may exist for the detection of low concentrations of nasal CO2. We discuss these findings as they relate to previous studies on CO2-sensitive OSNs in mice and other animals.

Hospitalization Outcomes Among Patients With COVID-19 Undergoing Remote Monitoring.

Importance: Health care systems have implemented remote patient monitoring (RPM) programs to manage patients with COVID-19 at home, but the associations between participation and outcomes or resource utilization are unclear. Objective: To assess whether an RPM program for COVID-19 is associated with lower or higher likelihood of hospitalization and whether patients who are admitted present earlier or later for hospital care. Design, Setting, and Participants: This retrospective, observational, cohort study of RPM was performed at Froedtert & Medical College of Wisconsin Health Network, an academic health system in southeastern Wisconsin. Participants included patients with internal primary care physicians and a positive SARS-CoV-2 test in the ambulatory setting between March 30, 2020, and December 15, 2020. Data analysis was performed from February 15, 2021, to February 2, 2022. Exposures: Activation of RPM program. Main Outcomes and Measures: Hospitalizations within 2 to 14 days of a positive test. Inverse propensity score weighting was used to account for differences between groups. Sensitivity analyses were performed looking at usage of the RPM among patients who activated the program. Results: A total of 10 660 COVID-19-positive ambulatory patients were eligible, and 9378 (88.0%) had email or mobile numbers on file and were invited into the RPM program; the mean (SD) age was 46.9 (16.3) years and 5448 patients (58.1%) were women. Patients who activated monitoring (5364 patients [57.2%]) had a mean (SD) of 35.3 (33.0) check-ins and a mean (SD) of 1.27 (2.79) (median [IQR], 0 [0-1]) free-text comments. A total of 878 patients (16.4%) experienced at least 1 alert; 128 of 5364 activated patients (2.4%) and 158 of 4014 inactivated patients (3.9%) were hospitalized (χ21 = 18.65; P < .001). In weighted regression analysis, activation of RPM was associated with a lower odds of hospitalization (odds ratio, 0.68; 95% CI, 0.54-0.86; P = .001) adjusted for demographics, comorbidities, and time period. Monitored patients had a longer mean (SD) time between test and hospitalization (6.67 [3.21] days vs 5.24 [3.03] days), a shorter length of stay (4.44 [4.43] days vs 7.14 [8.63] days), and less intensive care use (15 patients [0.3%] vs 44 patients [1.1%]). Conclusions and Relevance: These findings suggest that activation of an RPM program is associated with lower hospitalization, intensive care use, and length of stay among patients with COVID-19.

Semantic memory functional MRI and cognitive function after exercise intervention in mild cognitive impairment.

Mild cognitive impairment (MCI) is associated with early memory loss, Alzheimer's disease (AD) neuropathology, inefficient or ineffective neural processing, and increased risk for AD. Unfortunately, treatments aimed at improving clinical symptoms or markers of brain function generally have been of limited value. Physical exercise is often recommended for people diagnosed with MCI, primarily because of its widely reported cognitive benefits in healthy older adults. However, it is unknown if exercise actually benefits brain function during memory retrieval in MCI. Here, we examined the effects of exercise training on semantic memory activation during functional magnetic resonance imaging (fMRI). Seventeen MCI participants and 18 cognitively intact controls, similar in sex, age, education, genetic risk, and medication use, volunteered for a 12-week exercise intervention consisting of supervised treadmill walking at a moderate intensity. Both MCI and control participants significantly increased their cardiorespiratory fitness by approximately 10% on a treadmill exercise test. Before and after the exercise intervention, participants completed an fMRI famous name discrimination task and a neuropsychological battery, Performance on Trial 1 of a list-learning task significantly improved in the MCI participants. Eleven brain regions activated during the semantic memory task showed a significant decrease in activation intensity following the intervention that was similar between groups (p-values ranged 0.048 to 0.0001). These findings suggest exercise may improve neural efficiency during semantic memory retrieval in MCI and cognitively intact older adults, and may lead to improvement in cognitive function. Clinical trials are needed to determine if exercise is effective to delay conversion to AD.