PMC:6640909 / 76497-77258 JSONTXT

{"project":"TEST0","denotations":[{"id":"31100109-176-183-7604","span":{"begin":191,"end":194},"obj":"[\"12919984\"]"},{"id":"31100109-109-116-7605","span":{"begin":306,"end":309},"obj":"[\"21918165\"]"},{"id":"31100109-236-243-7606","span":{"begin":548,"end":551},"obj":"[\"21675054\"]"},{"id":"31100109-88-95-7607","span":{"begin":642,"end":645},"obj":"[\"15172773\"]"},{"id":"31100109-202-209-7608","span":{"begin":756,"end":759},"obj":"[\"21952594\"]"}],"text":"9.1 Monitoring\nFor central venous access, ultrasound guidance is preferred due to the high incidence of thrombosis caused by previous indwelling catheters or transvenous pacemaker leads [217–220]. Although the impact of a pulmonary artery catheter on outcome has not been demonstrated for cardiac surgery [221], in relation to MCS implantation, pulmonary artery catheters provide valuable information including mixed venous oxygen saturation, pulmonary arterial pressure and vascular resistance that can guide intraoperative therapy decisions [222–224]. Neuromonitoring with electroencephalography is aimed at avoiding anaesthesia awareness [225]; cerebral perfusion can be assessed by estimating tissue oxygen saturation using near infrared spectroscopy [226]."}

{"project":"MyTest","denotations":[{"id":"31100109-12919984-28905664","span":{"begin":191,"end":194},"obj":"12919984"},{"id":"31100109-21918165-28905665","span":{"begin":306,"end":309},"obj":"21918165"},{"id":"31100109-21675054-28905666","span":{"begin":548,"end":551},"obj":"21675054"},{"id":"31100109-15172773-28905667","span":{"begin":642,"end":645},"obj":"15172773"},{"id":"31100109-21952594-28905668","span":{"begin":756,"end":759},"obj":"21952594"}],"namespaces":[{"prefix":"_base","uri":"https://www.uniprot.org/uniprot/testbase"},{"prefix":"UniProtKB","uri":"https://www.uniprot.org/uniprot/"},{"prefix":"uniprot","uri":"https://www.uniprot.org/uniprotkb/"}],"text":"9.1 Monitoring\nFor central venous access, ultrasound guidance is preferred due to the high incidence of thrombosis caused by previous indwelling catheters or transvenous pacemaker leads [217–220]. Although the impact of a pulmonary artery catheter on outcome has not been demonstrated for cardiac surgery [221], in relation to MCS implantation, pulmonary artery catheters provide valuable information including mixed venous oxygen saturation, pulmonary arterial pressure and vascular resistance that can guide intraoperative therapy decisions [222–224]. Neuromonitoring with electroencephalography is aimed at avoiding anaesthesia awareness [225]; cerebral perfusion can be assessed by estimating tissue oxygen saturation using near infrared spectroscopy [226]."}

{"project":"0_colil","denotations":[{"id":"31100109-12919984-7604","span":{"begin":191,"end":194},"obj":"12919984"},{"id":"31100109-21918165-7605","span":{"begin":306,"end":309},"obj":"21918165"},{"id":"31100109-21675054-7606","span":{"begin":548,"end":551},"obj":"21675054"},{"id":"31100109-15172773-7607","span":{"begin":642,"end":645},"obj":"15172773"},{"id":"31100109-21952594-7608","span":{"begin":756,"end":759},"obj":"21952594"}],"text":"9.1 Monitoring\nFor central venous access, ultrasound guidance is preferred due to the high incidence of thrombosis caused by previous indwelling catheters or transvenous pacemaker leads [217–220]. Although the impact of a pulmonary artery catheter on outcome has not been demonstrated for cardiac surgery [221], in relation to MCS implantation, pulmonary artery catheters provide valuable information including mixed venous oxygen saturation, pulmonary arterial pressure and vascular resistance that can guide intraoperative therapy decisions [222–224]. Neuromonitoring with electroencephalography is aimed at avoiding anaesthesia awareness [225]; cerebral perfusion can be assessed by estimating tissue oxygen saturation using near infrared spectroscopy [226]."}

{"project":"2_test","denotations":[{"id":"31100109-12919984-28905664","span":{"begin":191,"end":194},"obj":"12919984"},{"id":"31100109-21918165-28905665","span":{"begin":306,"end":309},"obj":"21918165"},{"id":"31100109-21675054-28905666","span":{"begin":548,"end":551},"obj":"21675054"},{"id":"31100109-15172773-28905667","span":{"begin":642,"end":645},"obj":"15172773"},{"id":"31100109-21952594-28905668","span":{"begin":756,"end":759},"obj":"21952594"}],"text":"9.1 Monitoring\nFor central venous access, ultrasound guidance is preferred due to the high incidence of thrombosis caused by previous indwelling catheters or transvenous pacemaker leads [217–220]. Although the impact of a pulmonary artery catheter on outcome has not been demonstrated for cardiac surgery [221], in relation to MCS implantation, pulmonary artery catheters provide valuable information including mixed venous oxygen saturation, pulmonary arterial pressure and vascular resistance that can guide intraoperative therapy decisions [222–224]. Neuromonitoring with electroencephalography is aimed at avoiding anaesthesia awareness [225]; cerebral perfusion can be assessed by estimating tissue oxygen saturation using near infrared spectroscopy [226]."}