Distribution of maximal systolic blood pressure drops due to head rotation in the patient group.

<div><p>Notes.</p> <p>X-axis; the maximal systolic blood pressure drop due to head rotation, Y-axis; the number of patients that met the specified systolic blood pressure drop.</p> <p>The systolic blood pressure drops of 20-29 mmHg are due to left head rotation in 3 patients, right head rotation in 4 patients and hyperextension in 7 patients.</p> <p>The systolic blood pressure drops of 30-39 mmHg are due to left head rotation in 5 patients, right head rotation in 5 patients and hyperextension in 6 patients.</p> <p>The systolic blood pressure drops of 40-49 mmHg are due to left head rotation in 2 patients, right head rotation in 1 patients and hyperextension in 4 patients.</p> <p>The systolic blood pressure drops >50 mmHg are due to left head rotation in 4 patients.</p></div

Venn diagram showing the distribution of head turning-induced hypotension across the different head movements.

<p>Venn diagram showing the distribution of head turning-induced hypotension across the different head movements.</p

Longitudinal multiple case study on effectiveness of network-based dementia care towards more integration, quality of care, and collaboration in primary care - Fig 3

<p>A) Network maturity trajectories of networks that have shown considerable improvement on network maturity, but no substantial improvement on quality of care, reflected in improvement goals that were focused on collaboration and network strength, and; B) quality of care trajectories.</p

Longitudinal multiple case study on effectiveness of network-based dementia care towards more integration, quality of care, and collaboration in primary care - Fig 4

<p>A) Network maturity trajectories of networks with decreasing quality of care scores: solid lines are networks that had various problems leading to a decrease in quality of care, and; B) quality of care trajectories.</p

Longitudinal multiple case study on effectiveness of network-based dementia care towards more integration, quality of care, and collaboration in primary care - Fig 5

<p>A) Network maturity trajectories of networks with suboptimal leadership and display no substantial improvement on network maturity or quality of care, and; B) quality of care trajectories.</p

Characteristics and narrative summaries of the primary care networks in the DementiaNet program.

<p>Characteristics and narrative summaries of the primary care networks in the DementiaNet program.</p

Longitudinal multiple case study on effectiveness of network-based dementia care towards more integration, quality of care, and collaboration in primary care - Fig 7

<p>A) Network maturity trajectories of all networks; dashed lines are networks with above average catchment areas, solid lines are networks with smaller catchment areas. Solid lines show more increase than dashed lines, and; B) quality of care trajectories.</p

Inferences from joint interpretation of data sources.

<p>Inferences from joint interpretation of data sources.</p

Longitudinal multiple case study on effectiveness of network-based dementia care towards more integration, quality of care, and collaboration in primary care - Fig 6

<p>A) Network maturity trajectories of all networks; improvement goals and starting level of collaboration: dashed lines are networks with existing collaborations; solid lines are networks with new collaborations. Dashed lines indeed start at higher levels of network maturity, and; B) quality of care trajectories.</p

Hemodynamic concentration changes in young adults.

<p>Mean (± SEM) changes of [O₂Hb], [HHb] and [tHb] in the left and right hemisphere during the six 30-s time segments of the verbal 0-back task (<i>upper panels</i>), 1-back task (<i>middle panels</i>) and 2-back task (<i>lower panels</i>).</p