(A) Sagittal section through the thoracic aorta demonstrating division of the ascending aorta from the sinotubular junction to the origin of the left subclavian.

Slides:

Advertisements

Similar presentations

6. Vessel 7. Vessel 1. Vessel 8. Vessel 9. Vessel 2. Vessel 3. Vessels

Advertisements

Cardiovascular System Anatomy and MRI Hilary McIntyre.

Aorta Pulmonary Artery Basal Loop Right segment Basal Loop Left Segment Apical Loop Descending Segment Apical Loop Ascending Segment.

HEART MODEL I Anterior View

Right Lung Left Lung.

ORIENTATION: VIEWING HEART IN AXIAL CT AND MRI Orientation of heart in axial CT and MRI 20 MINUTE ANATOMY VIDEOS No sinner is ever saved after the first.

Superior vena cava Aorta Pulmonary trunk Pericardium (cut) Apex of heart.

Blood Flow Through the Heart. Right Lung Left Lung.

Vascular Anatomy Chapter 21. Cardiovascular System Cardio = ______________ Vascular = ________________ –Arteries Carry blood _____________the heart –Veins.

Aortic arch Pulmonary trunk Superior vena cava Auricle of left atrium

Chapter 17 Vascular Anatomy. Cardiovascular System Cardio ________________ Vascular Pulmonary ______________.

Heart Models Small Heart.

The Human Body: An Orientation

The Human Body: An Orientation

The Human Body: An Orientation

Mediastinum: Sternal angle angle Lower border of T4

Directional orientation explains a particular view of a person.

The Human Body: An Orientation

A&P 102 Lab 1 Exercise 35 Structure of the heart.

Heart Anatomy Review.

Mediastinum: Sternal angle angle Lower border of T4

The Human Body: An Orientation

Right lung Left lung Heart in fibrous pericardium 01_A3485_labeled.jpg

A, Brachial neuritis with long thoracic nerve neuritis.

Subsidence of LT-CAGE devices at L5–S1.

The Human Body: An Orientation

The Human Body: An Orientation

Bashi V. Velayudhan, MBBS, MS, MCh, A

Sectional Anatomy Of the The Chest.

John S. Ikonomidis, MD, PhD, FRCS(C), Abe DeAnda, MD, D

Extent and distribution of calcification in the ascending aorta/arch by location, normalised by dividing quadrant totals by segment length. Extent and.

The Human Body: An Orientation

Hybrid endovascular treatment of aneurysm degeneration in a rare right-aortic arch anomaly with Kommerell diverticulum Paolo Frigatti, MD, Franco Grego,

Iki Adachi, MD, Rajesh Krishnamurthy, MD, David L.S. Morales, MD

CT coronary angiography curved planar reconstruction of the left anterior descending coronary artery showing an atherosclerotic plaque with calcified and.

MR images demonstrating a large left middle cranial fossa mass.

The Human Body: An Orientation

1 4a 2 4b 5a 5b 3 4c 9b 9a 5c a 8 1. Sagittal head

Tomaso Bottio, MD, PhD, Gino Gerosa, MD

Thoracoscopic lobectomy

Anterior transpericardial approach for postchemotherapy residual midvisceral mediastinal mass in metastatic germ cell tumors Marc de Perrot, MD, Donna.

Surgical findings with an intramural segment and severe RCA territory ischaemia in a patient with an intramural segment of an AAORCA (A and B, asterix.

Asymptomatic 67-year-old man prior to orthopaedic surgery with three cardiac risk factors and borderline ST-segment depression inferior-posterior on treadmill.

Nicole M. Bhave et al. JIMG 2018;11:

(A) Quantitative plaque analysis of the RCA

Nicole M. Bhave et al. JIMG 2018;11:

Screening for fibromuscular dysplasia (FMD).

Flow chart showing reinterventions by type in patients with anomalous origin of coronary artery from the pulmonary artery patients, divided into early.

Coronal (A, B) and sagittal (D) sections of MIP reformations of a MDCTA performed on a 4-row-detector system in a 54-year old woman (patient 10) with an.

The Human Body: An Orientation

Representative images of coronary angiography and fractional flow reserve (FFR) from a patient who showed no resting ECG abnormality. Representative images.

Thomas Knickelbine et al. JIMG 2009;2:

Aortic fenestration for chronic aortic dissection type B complicated by transient ischemic attacks of spinal cord Maraya Altuwaijri, MD, Konstantinos.

A, Sagittal view through the brain stem and cervical spinal cord shows the extent of T2 hyperintensities involving the pyramidal tract and posterior columns.

A, Coronal drawing demonstrates the basic anatomy of the BPL

Angiogram of total cavopulmonary connection.

Illustrative four-chamber (left) and parasternal long axis (right) echocardiographic image of a female aged 49 years with systolic displacement of anterior.

A 35-year-old man with a history of Behçet vasculitis who presented with left-sided weakness. A 35-year-old man with a history of Behçet vasculitis who.

Four-point subjective rating scale of the perihippocampal fissures (PHF).A and B, Axial and coronal view of same case. Four-point subjective rating scale.

(A) Posterioranterior (PA) chest X-ray demonstrates pneumomediastinum in the anterior and middle mediastinum extending into the cervical soft tissues.

Photographs of specimens of a cadaveric aorta

Heat map of microRNA microarray expression from the four groups of patients. Heat map of microRNA microarray expression from the four groups of patients.

Angiographic findings in spontaneous coronary artery dissection.

Bone algorithm CT images from the same case, demonstrating focal enlargement of the right tympanic segment, in the axial (left) and coronal (right) planes.

Type B Aortic Dissection After the Use of Tadalafil

A 64-year-old man with a right descending thoracic vertebral artery.

Standardised right ventricular perfusion images used for segmental analysis in patients with congenitally corrected TGA. (A) Transaxial (cross sectional)

A 59-year-old woman with bilateral descending thoracic vertebral arteries. A 59-year-old woman with bilateral descending thoracic vertebral arteries. A,

The Human Body: An Orientation

(A) Axial CT scan and (B) coronal section demonstrating Zephyr valve in a good position in the right upper lobe and (C) Zephyr valve poorly positioned.

Presentation transcript:

(A) Sagittal section through the thoracic aorta demonstrating division of the ascending aorta from the sinotubular junction to the origin of the left subclavian artery (blue arrow) into three segments. (A) Sagittal section through the thoracic aorta demonstrating division of the ascending aorta from the sinotubular junction to the origin of the left subclavian artery (blue arrow) into three segments. (B) Axial section through the ascending aorta at the level of the right pulmonary artery demonstrating division of the ascending aorta (segments 1 and 2) into four quadrants (anterior (a), posterior (p), right (r) and left (l)). (C) Coronal reformat at the level of the left subclavian artery origin (blue arrow) demonstrating division into right (r), left (l), superior (s), inferior (i) quadrants. (D) Axial section through the ascending aorta at the level of the left pulmonary artery (segment 2) demonstrating calcification extending across just over 50% of the posterior segment (assigned a score of 3: 50%–74% involvement). No calcification is demonstrated in the other quadrants at this level. Thomas Snow et al. Open Heart 2018;5:e000703 ©2018 by British Cardiovascular Society