Stenosis of the carotid, drawing Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stenosis-of-the-carotid-drawing-image68402130.html
RMDY7YH6–Stenosis of the carotid, drawing
. Regional anesthesia : its technic and clinical application . f from 10 to 15 c.c. of the 2 per cent, solution. Thesyringe is almost completely discharged in the depth, and the rest ofthe solution distributed while the needle is withdrawn. The axillaryartery is then retracted upward (toward the pectoralis major) by theindex-finger, and the needle inserted through another wheal raised alittle below the first site of puncture (Fig. 152). The needle is advanceddeeply behind the artery, in a direction parallel with the axis of the BLOCKING OF SPINAL NERVES 187 arm, along the outer wall of the axi Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/regional-anesthesia-its-technic-and-clinical-application-f-from-10-to-15-cc-of-the-2-per-cent-solution-thesyringe-is-almost-completely-discharged-in-the-depth-and-the-rest-ofthe-solution-distributed-while-the-needle-is-withdrawn-the-axillaryartery-is-then-retracted-upward-toward-the-pectoralis-major-by-theindex-finger-and-the-needle-inserted-through-another-wheal-raised-alittle-below-the-first-site-of-puncture-fig-152-the-needle-is-advanceddeeply-behind-the-artery-in-a-direction-parallel-with-the-axis-of-the-blocking-of-spinal-nerves-187-arm-along-the-outer-wall-of-the-axi-image370062734.html
RM2CE1PP6–. Regional anesthesia : its technic and clinical application . f from 10 to 15 c.c. of the 2 per cent, solution. Thesyringe is almost completely discharged in the depth, and the rest ofthe solution distributed while the needle is withdrawn. The axillaryartery is then retracted upward (toward the pectoralis major) by theindex-finger, and the needle inserted through another wheal raised alittle below the first site of puncture (Fig. 152). The needle is advanceddeeply behind the artery, in a direction parallel with the axis of the BLOCKING OF SPINAL NERVES 187 arm, along the outer wall of the axi
Stenosis of the carotid, drawing Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stenosis-of-the-carotid-drawing-image68402134.html
Atheromatous plaque inside blood vessel, computer illustration. Cholesterol atheroma causing a narrowing of an artery (atherosclerosis). Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/stock-photo-atheromatous-plaque-inside-blood-vessel-computer-illustration-cholesterol-122194009.html
RFH2PBKN–Atheromatous plaque inside blood vessel, computer illustration. Cholesterol atheroma causing a narrowing of an artery (atherosclerosis).
Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/macrophage-foam-cell-illustration-foam-cells-are-macrophage-cells-that-contain-lipid-droplets-and-are-components-of-atherosclerotic-plaque-image262370577.html
RFW6T09N–Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque.
Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/macrophage-foam-cell-illustration-foam-cells-are-macrophage-cells-that-contain-lipid-droplets-and-are-components-of-atherosclerotic-plaque-image262370516.html
RFW6T07G–Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque.
Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/macrophage-foam-cell-illustration-foam-cells-are-macrophage-cells-that-contain-lipid-droplets-and-are-components-of-atherosclerotic-plaque-image262370562.html
RFW6T096–Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque.
Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/macrophage-foam-cell-illustration-foam-cells-are-macrophage-cells-that-contain-lipid-droplets-and-are-components-of-atherosclerotic-plaque-image262370612.html
RFW6T0B0–Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque.
Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/macrophage-foam-cell-illustration-foam-cells-are-macrophage-cells-that-contain-lipid-droplets-and-are-components-of-atherosclerotic-plaque-image262370546.html
RFW6T08J–Macrophage foam cell, illustration. Foam cells are macrophage cells that contain lipid droplets and are components of atherosclerotic plaque.
Structure of atherosclerotic plaque, computer illustration. The necrotic centre, foam cells and T-lymphocytes are seen inside of the cholesterol plaque. The walls are made of smooth muscle cells and endothelium from the blood vessel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-atherosclerotic-plaque-computer-illustration-the-necrotic-centre-foam-cells-and-t-lymphocytes-are-seen-inside-of-the-cholesterol-plaque-the-walls-are-made-of-smooth-muscle-cells-and-endothelium-from-the-blood-vessel-image262370418.html
RFW6T042–Structure of atherosclerotic plaque, computer illustration. The necrotic centre, foam cells and T-lymphocytes are seen inside of the cholesterol plaque. The walls are made of smooth muscle cells and endothelium from the blood vessel.
Structure of atherosclerotic plaque, computer illustration. The necrotic centre, foam cells and T-lymphocytes are seen inside of the cholesterol plaque. The walls are made of smooth muscle cells and endothelium from the blood vessel. Stock Photohttps://www.alamy.com/image-license-details/?v=1https://www.alamy.com/structure-of-atherosclerotic-plaque-computer-illustration-the-necrotic-centre-foam-cells-and-t-lymphocytes-are-seen-inside-of-the-cholesterol-plaque-the-walls-are-made-of-smooth-muscle-cells-and-endothelium-from-the-blood-vessel-image262370427.html
RFW6T04B–Structure of atherosclerotic plaque, computer illustration. The necrotic centre, foam cells and T-lymphocytes are seen inside of the cholesterol plaque. The walls are made of smooth muscle cells and endothelium from the blood vessel.