Fine particulate matter and nonaccidental and cause-specific mortality: Do associations vary by exposure assessment method?

Background: There is considerable heterogeneity in fine particulate matter (PM)-mortality associations between studies, potentially due to differences in exposure assessment methods. Our aim was to evaluate associations of PM predicted from different models with nonaccidental and cause-specific mortality.

Methods: We followed 107,906 participants of the Nurses' Health Study cohort from 2001 to 2016.

Clinical Inertia in the Diagnosis and Management of Hypertension Following Ambulatory Blood Pressure Monitoring.

Background: Clinical inertia is common when blood pressure (BP) is high in the office. Little is known about the extent of clinical inertia after ambulatory BP monitoring (ABPM).

Methods: This was an electronic health record-based retrospective cohort study of patients with high office BP (≥140/90 mmHg) referred for ABPM at a medical center in New York City between 2016 and 2020.

The effect of body position on cardiovascular, skeletal muscle and ventilatory responses to submaximal cycling.

The completion of exercise in different body positions can impact the function of various components of the oxygen delivery pathway; however, the effect of the haemodynamic conditions induced by a semi-upright body position on the integrative physiological response to exercise is poorly understood. The purpose of this study was to explore the effect of a semi-upright body position on cardiac output (CO), vastus lateralis oxygen saturation ( ), oxygen consumption ( ) and ratings of perceived exertion (Borg RPE) during submaximal cycling. Twenty healthy individuals (22 ± 3 years, 50% female) each completed alternating 5-min bouts of submaximal upright and semi-upright (40° incline) cycling at 50 and 100 W.

Carbon Nanotube-Based Segregated Thermoplastic Nanocomposites Structured via Electromagnetic Melt Processing.

A cutting-edge method that uses electromagnetic (EM) energy for the melt processing of thermoplastic polymer nanocomposites (TPNCs) is reported. The properties and microstructures of TPNCs produced via the proposed EM-processing method and TPNCs via conventional heat processing are contrasted. The EM-processed TPNCs prepared with EM-susceptible carbon nanotubes (CNTs) exhibited a significant enhancement in transport and mechanical properties, outperforming the conventionally processed TPNCs.