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CONGENITAL HEART DISEASES
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HEART DISEASES
Normal heart:
• Pumps 6000 L blood/day
• Beats 40 millions times in a year
Weight:
• 250- 300 gm- females
• 300- 350 gm- males
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HEART DISEASES• Congenital HD • Myocardium:IHD,Cardiomyopathies,
Myocarditis• Endocardium: Valvular Heart
Diseases(Rheumatic Heart Disease, Subacute Bacterial Endocarditis, Non Bacterial Thrombotic Endocarditis)
• Pericardium:Pericarditis, Pericardial effusion
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CONGENITAL HEART DISEASES
Cyanotic/ Acyanotic
Shunts:
• Left- Right
• Right- left
Obstructive
• Coarctation of aorta
• Pulmonary stenosis
• Aortic stenosis
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CONGENITAL HEART DISEASES
Pathogenesis:• Sporadic genetic abnormalies(deletion, addition, trisomies,
monosomies)• Mutation of single gene affect many protiens( Transcription Factor).
Many Transcription Factor work together and regulate expression of target genes
• Deletion of chromosome 22• Trisomy 21• Monosomy OX• Marfan syndrome *1st degree relative are at a greater risk of developing the congenitalheart defects as compared to general population.
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CONGENITAL HEART DISEASES
Left- Right shunts- Atrial Septal Defect (ASD):
• Right ventricular dilatation
• Pulmonary vascular blood flow increases
• Murmur
• Well tolerated
• Can be treated surgically
• Normal span of life
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CONGENITAL HEART DISEASES
Left- Right shunt:
Patent foramen Ovale:
Patent foramen of Fossa Ovalis may lead to paradoxical emboli
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CONGENITAL HEART DISEASES
Left- Right shunt: Ventricular Septal Defect
• Small spontaneous closure
• Large defects needs early closure
*May lead to pulmonary hypertention
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CONGENITAL HEART DISEASES
• Left- Right shunt: • Patent Ductus Arteriosus:• Shunting of blood from pulmonary artery
aorta• 90% isolated• 10%- with VSD, Coarctation, Aortic and
Pulmonary artery stenosis• Machinery murmur• Isolated close early/ Prostaglandin E
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CONGENITAL HEART DISEASES
Left- Right shunt:
• Atrioventricular septal defects
• Failure of superior and inferior endocardial cushion to close
• 1/3rd of Downs syndrome
• Surgical repair is possible
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CONGENITAL HEART DISEASES
Right- Left shunts:
Tetralogy of Fallot
• Right vetricular hypertrophy– Boot shaped Heart
• Pulmonary stenosis
• Overriding of aorta
• VSD
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CONGENITAL HEART DISEASES
Right- Left shunts:
Transposition of great vessels:
• Abnormal formation of aortopulmonary septum
• Aorta arises from right ventricle lies anterior and to right of pulmonary artery
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CONGENITAL HEART DISEASES
Right- Left shunts:
Persistent Truncus Ateriosis:
Rare Failure of separation of truncus arteriosis into aorta and pulmonary artery
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CONGENITAL HEART DISEASES
Right- Left shunts:
• Tricuspid atresia
• Complete occlusion
• Cyanosis is present from birth
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CONGENITAL HEART DISEASES
Obstructive congenital pathology:
• Coarctation of aorta
• Pulmonary Stenosis
• Aortic Stenosis
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ISCHEMIC HEART DISEASES
Decreased perfusion:
• Atherosclerosis
• Acute plaque change
• Thrombosis
• Vasospasm
• Hypoxia
• Nutrition
• Metabolite accumulation
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ISCHEMIC HEART DISEASES
Decreased perfusion:
Other causes:
Coronary emboli blockage= small blood vessel
Hypotention
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Figure 12-11 Atherosclerotic plaque rupture. A, Plaque rupture without superimposed thrombus, in patient who died suddenly. B, Acute coronary thrombosis superimposed on an atherosclerotic plaque with focal disruption of the fibrous cap, triggering fatal myocardial infarction. C, Massive plaque rupture with superimposed thrombus, also triggering a fatal
myocardial infarction (special stain highlighting fibrin in red). In both A and B, an arrow points to the site of plaque rupture. (B, reproduced from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles. Philadelphia, W.B. Saunders, 1989, p. 61.)
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Figure 12-11 Atherosclerotic plaque rupture. A, Plaque rupture without superimposed thrombus, in patient who died suddenly. B, Acute coronary thrombosis superimposed on an atherosclerotic plaque with focal disruption of the fibrous cap, triggering fatal myocardial infarction. C, Massive plaque rupture with superimposed thrombus, also triggering a fatal
myocardial infarction (special stain highlighting fibrin in red). In both A and B, an arrow points to the site of plaque rupture. (B, reproduced from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles. Philadelphia, W.B. Saunders, 1989, p. 61.)
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Figure 12-11 Atherosclerotic plaque rupture. A, Plaque rupture without superimposed thrombus, in patient who died suddenly. B, Acute coronary thrombosis superimposed on an atherosclerotic plaque with focal disruption of the fibrous cap, triggering fatal myocardial infarction. C, Massive plaque rupture with superimposed thrombus, also triggering a fatal
myocardial infarction (special stain highlighting fibrin in red). In both A and B, an arrow points to the site of plaque rupture. (B, reproduced from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles. Philadelphia, W.B. Saunders, 1989, p. 61.)
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Figure 12-13 Postmortem angiogram showing the posterior aspect of the heart of a patient who died during the evolution of acute myocardial infarction, demonstrating total occlusion of the distal right coronary artery by an acute thrombus (arrow) and a large zone of myocardial hypoperfusion involving the posterior left and right ventricles, as indicated by arrowheads,
and having almost absent filling of capillaries, that is, less white. The heart has been fixed by coronary arterial perfusion with glutaraldehyde and cleared with methyl salicylate, followed by intracoronary injection of silicone polymer. Photograph courtesy of Lewis L. Lainey. (Reproduced by permission from Schoen FJ: Interventional and Surgical
Cardiovascular Pathology: Clinical Correlations and Basic Principles. Philadelphia, WB Saunders, 1989, p. 60.)
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ISCHEMIC HEART DISEASES
Syndrome:
• MI
• Angina pectoris
• Chronic IHD with failure
• Sudden death
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ISCHEMIC HEART DISEASES- PATHOGENESIS
Chronic atherosclerosis 70%- occlusion
Exercise angina- vasodilators
90%- occlusion- angina at rest
Slow develop- collateral
Arteries mostly affected:
• LAD diagonal
• LCX obtuse marginal branch
• RCA posterior descending branch
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ISCHEMIC HEART DISEASESACUTE PLAQUE CHANGES:RISK distribution, structure, degree of obstruction
ACUTE CORONARY SYNDROME: Unstable angina due to rupture, erosion,
ulceration,fissuring or deep haemorrhageLife threating: • Unstable angina• Acute MI• Sudden death
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ISCHEMIC HEART DISEASES
CONSEQUENCES;
• Stable angina,
• Unstable angina
• Myocardial Infarction
• Myocardial ischemia(Fatal Arrythmias)
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Figure 12-12 Schematic representation of sequential progression of coronary artery lesion morphology, beginning with stable chronic plaque responsible for typical angina and leading to the various acute coronary syndromes. (Modified and redrawn from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles.
Philadelphia, W.B. Saunders Co., 1989, p. 63.)
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ISCHEMIC HEART DISEASESAngina pectoris: Stable angina: 15 sec, 15 minute rest-
vasodilators Prinzmetal variant: Vasospasm- Not related to physical activity, Heart
Rate, Blood Pressure- Calcium channel blockers Unstable: Prolonged duration- Exercise,
Rest( atherosclerotic plaque disruption, thrombosis( Emboli, Vasospasm) warning for MI
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ISCHEMIC HEART DISEASES
MYOCARDIAL INFARCTION:
RISK FACTORS:
• Age
• Male Gender
• Atherosclerosis
• Women after menopause
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ISCHEMIC HEART DISEASESPATHOGENESIS:
Coronary arteries- Atherosclerotic plaque- haemorrage erosion and ulceration
Vasospasm-mediator platelet
Tissue factor- coagulation pathway
Thrombus- completely occludes
Myocardial response
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ISCHEMIC HEART DISEASES
PATHOGENESIS:
OTHER CAUSES-
Vasospasm:Platelet aggregates
Emboli Atheromas, Mural thrombi, vegetation
Patent foramen ovale: Paradoxical emboli
Ischemia:Vasculitis, Sickle cell anemia
Amyloid, Dissection, Surgery
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ISCHEMIC HEART DISEASES
Key events:
1) ATP depletion- seconds
2) Loss of cotraction- < 2 minutes
3) ATP- 50%- 10 min
4) ATP 10%- 40 min
5) Irreversible injury- 20- 40 min
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ISCHEMIC HEART DISEASES
Sudden death: causes
• Coronary artery dissection
• Mitral valve prolapse
• Aortic stenosis
• HCM, DCM
• Pulmonary hypertension
• Conduction defects
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ISCHEMIC HEART DISEASESDuration Gross Light Microscopic Electron
Microscopic
Reversible ½ hour None None Mitochondria loss, Loss of glycogen,Myocytes relax
Irreversible ½ - 4 hrs None Wavy Sarcolemmal disruption, Mitochondrial amorphous densities
4-12 hours Dark mottling Coagulative necrosis (triphenyltetrazolium chloride), Edema and Hemorrage
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ISCHEMIC HEART DISEASES
Transmural infarct:
• LAD- 50%
• LCA- 15%
• RCA- 30%
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ISCHEMIC HEART DISEASES
Non Transmural Infarct:
• Transient obstruction
• Hypotention
• Intramural vessels
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Figure 12-14 Schematic representation of the progression of myocardial necrosis after coronary artery occlusion. Necrosis begins in a small zone of the myocardium beneath the endocardial surface in the center of the ischemic zone. This entire region of myocardium (shaded) depends on the occluded vessel for perfusion and is the area at risk. Note that a very
narrow zone of myocardium immediately beneath the endocardium is spared from necrosis because it can be oxygenated by diffusion from the ventricle. The end result of the obstruction to blood flow is necrosis of the muscle that was dependent on perfusion from the coronary artery obstructed. Nearly the entire area at risk loses viability. The process is called
myocardial infarction, and the region of necrotic muscle is a myocardial infarct.
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Figure 12-15 Acute myocardial infarct, predominantly of the posterolateral left ventricle, demonstrated histochemically by a lack of staining by the triphenyltetrazolium chloride (TTC) stain in areas of necrosis (arrow). The staining defect is due to the enzyme leakage that follows cell death. Note the myocardial hemorrhage at one edge of the infarct that was associated
with cardiac rupture, and the anterior scar (arrowhead), indicative of old infarct. (Specimen the oriented with the posterior wall at the top.)
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Figure 12-16 Microscopic features of myocardial infarction and its repair. A, One-day-old infarct showing coagulative necrosis along with wavy fibers (elongated and narrow), compared with adjacent normal fibers (at right). Widened spaces between the dead fibers contain edema fluid and scattered neutrophils. B, Dense polymorphonuclear leukocytic infiltrate in area of acute myocardial infarction of 3 to 4 days' duration. C, Nearly complete removal of necrotic myocytes by phagocytosis (approximately 7 to 10 days). D, Granulation tissue characterized by loose collagen and abundant capillaries. E, Well-healed myocardial infarct with replacement of the necrotic fibers by dense collagenous scar. A few residual cardiac muscle cells are
present.
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Figure 12-16 Microscopic features of myocardial infarction and its repair. A, One-day-old infarct showing coagulative necrosis along with wavy fibers (elongated and narrow), compared with adjacent normal fibers (at right). Widened spaces between the dead fibers contain edema fluid and scattered neutrophils. B, Dense polymorphonuclear leukocytic infiltrate in area of acute myocardial infarction of 3 to 4 days' duration. C, Nearly complete removal of necrotic myocytes by phagocytosis (approximately 7 to 10 days). D, Granulation tissue characterized by loose collagen and abundant capillaries. E, Well-healed myocardial infarct with replacement of the necrotic fibers by dense collagenous scar. A few residual cardiac muscle cells are
present.
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Figure 12-16 Microscopic features of myocardial infarction and its repair. A, One-day-old infarct showing coagulative necrosis along with wavy fibers (elongated and narrow), compared with adjacent normal fibers (at right). Widened spaces between the dead fibers contain edema fluid and scattered neutrophils. B, Dense polymorphonuclear leukocytic infiltrate in area of acute myocardial infarction of 3 to 4 days' duration. C, Nearly complete removal of necrotic myocytes by phagocytosis (approximately 7 to 10 days). D, Granulation tissue characterized by loose collagen and abundant capillaries. E, Well-healed myocardial infarct with replacement of the necrotic fibers by dense collagenous scar. A few residual cardiac muscle cells are
present.
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Figure 12-16 Microscopic features of myocardial infarction and its repair. A, One-day-old infarct showing coagulative necrosis along with wavy fibers (elongated and narrow), compared with adjacent normal fibers (at right). Widened spaces between the dead fibers contain edema fluid and scattered neutrophils. B, Dense polymorphonuclear leukocytic infiltrate in area of acute myocardial infarction of 3 to 4 days' duration. C, Nearly complete removal of necrotic myocytes by phagocytosis (approximately 7 to 10 days). D, Granulation tissue characterized by loose collagen and abundant capillaries. E, Well-healed myocardial infarct with replacement of the necrotic fibers by dense collagenous scar. A few residual cardiac muscle cells are
present.
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Figure 12-16 Microscopic features of myocardial infarction and its repair. A, One-day-old infarct showing coagulative necrosis along with wavy fibers (elongated and narrow), compared with adjacent normal fibers (at right). Widened spaces between the dead fibers contain edema fluid and scattered neutrophils. B, Dense polymorphonuclear leukocytic infiltrate in area of acute myocardial infarction of 3 to 4 days' duration. C, Nearly complete removal of necrotic myocytes by phagocytosis (approximately 7 to 10 days). D, Granulation tissue characterized by loose collagen and abundant capillaries. E, Well-healed myocardial infarct with replacement of the necrotic fibers by dense collagenous scar. A few residual cardiac muscle cells are
present.
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Figure 12-17 Temporal sequence of early biochemical, ultrastructural, histochemical, and histologic findings after onset of severe myocardial ischemia. For approximately 30 minutes after the onset of even the most severe ischemia, myocardial injury is potentially reversible. Thereafter, progressive loss of viability occurs that is complete by 6 to 12 hours. The benefits of reperfusion are greatest when it is achieved early, with progressively smaller benefit occurring as reperfusion is delayed. (Modified with permission from Antman E: Acute myocardial
infarction. In Braunwald E, Zipes DP, Libby P (eds): Heart Disease: A Textbook of Cardiovascular Medicine, 6th ed. Philadelphia, WB Saunders, 2001, pp. 1114-1231.)
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ISCHEMIC HEART DISEASES
Reperfusion:
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Figure 12-18 Consequences of myocardial ischemia followed by reperfusion. A, Schematic illustration of the progression of myocardial ischemic injury and its modification by restoration of flow (reperfusion). Hearts suffering brief periods of ischemia of 20 minutes followed by reperfusion do not develop necrosis (reversible injury). Brief ischemia followed by
reperfusion results in stunning. If coronary occlusion is extended beyond 20 minutes' duration, a wavefront of necrosis progresses from subendocardium to subepicardium over time. Reperfusion before 3 to 6 hours of ischemia salvages ischemic but viable tissue. (This salvaged tissue may demonstrate stunning.) Reperfusion beyond 6 hours does not appreciably
reduce myocardial infarct size. Late reperfusion may still have a beneficial effect on reducing or preventing myocardial infarct expansion and left ventricular remodeling. B, Gross and C, microscopic appearance of myocardium modified by reperfusion. B, Large, densely hemorrhagic, anterior wall acute myocardial infarction from patient with left anterior descending artery thrombus treated with streptokinase intracoronary thrombolysis (triphenyl tetrazolium chloride-stained heart slice). (Specimen oriented with posterior wall at top.) C, Myocardial necrosis with hemorrhage and contraction bands, visible as dark bands spanning some myofibers (arrow). This is the characteristic appearance of markedly ischemic myocardium that
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Figure 12-18 Consequences of myocardial ischemia followed by reperfusion. A, Schematic illustration of the progression of myocardial ischemic injury and its modification by restoration of flow (reperfusion). Hearts suffering brief periods of ischemia of 20 minutes followed by reperfusion do not develop necrosis (reversible injury). Brief ischemia followed by
reperfusion results in stunning. If coronary occlusion is extended beyond 20 minutes' duration, a wavefront of necrosis progresses from subendocardium to subepicardium over time. Reperfusion before 3 to 6 hours of ischemia salvages ischemic but viable tissue. (This salvaged tissue may demonstrate stunning.) Reperfusion beyond 6 hours does not appreciably
reduce myocardial infarct size. Late reperfusion may still have a beneficial effect on reducing or preventing myocardial infarct expansion and left ventricular remodeling. B, Gross and C, microscopic appearance of myocardium modified by reperfusion. B, Large, densely hemorrhagic, anterior wall acute myocardial infarction from patient with left anterior descending artery thrombus treated with streptokinase intracoronary thrombolysis (triphenyl tetrazolium chloride-stained heart slice). (Specimen oriented with posterior wall at top.) C, Myocardial necrosis with hemorrhage and contraction bands, visible as dark bands spanning some myofibers (arrow). This is the characteristic appearance of markedly ischemic myocardium that
has been reperfused.Downloaded from: Robbins & Cotran Pathologic Basis of Disease (on 26 October 2005 05:06 AM)
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Figure 12-18 Consequences of myocardial ischemia followed by reperfusion. A, Schematic illustration of the progression of myocardial ischemic injury and its modification by restoration of flow (reperfusion). Hearts suffering brief periods of ischemia of 20 minutes followed by reperfusion do not develop necrosis (reversible injury). Brief ischemia followed by
reperfusion results in stunning. If coronary occlusion is extended beyond 20 minutes' duration, a wavefront of necrosis progresses from subendocardium to subepicardium over time. Reperfusion before 3 to 6 hours of ischemia salvages ischemic but viable tissue. (This salvaged tissue may demonstrate stunning.) Reperfusion beyond 6 hours does not appreciably
reduce myocardial infarct size. Late reperfusion may still have a beneficial effect on reducing or preventing myocardial infarct expansion and left ventricular remodeling. B, Gross and C, microscopic appearance of myocardium modified by reperfusion. B, Large, densely hemorrhagic, anterior wall acute myocardial infarction from patient with left anterior descending artery thrombus treated with streptokinase intracoronary thrombolysis (triphenyl tetrazolium chloride-stained heart slice). (Specimen oriented with posterior wall at top.) C, Myocardial necrosis with hemorrhage and contraction bands, visible as dark bands spanning some myofibers (arrow). This is the characteristic appearance of markedly ischemic myocardium that
has been reperfused.Downloaded from: Robbins & Cotran Pathologic Basis of Disease (on 26 October 2005 05:06 AM)
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ISCHEMIC HEART DISEASESConsequenses:• Myocardial rupture• Septum rupture• Papillary valve rupture• Fibrinous pericarditis• Mural thrombus• Ventricular aneurysm
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ISCHEMIC HEART DISEASES
Reperfusion:
<20 min- no necrosis
3- 6 hrs- salvage viable
> 6hrs- infarct size not reduced
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ISCHEMIC HEART DISEASES
Lab evaluation:
• Myoglobin
• Troponi-T, I
• CK- MB
• Lactate Dehydrogenase
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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Figure 12-19 Complications of myocardial infarction. Cardiac rupture syndromes (A, B, and C). A, Anterior myocardial rupture in an acute infarct (arrow). B, Rupture of the ventricular septum (arrow). C, Complete rupture of a necrotic papillary muscle. D, Fibrinous pericarditis, showing a dark, roughened epicardial surface overlying an acute infarct. E, Early
expansion of anteroapical infarct with wall thinning (arrow) and mural thrombus. F, Large apical left ventricular aneurysm. The left ventricle is on the right in this apical four-chamber view of the heart. (A-E, Reproduced by permission from Schoen FJ: Interventional and Surgical Cardiovascular Pathology: Clinical Correlations and Basic Principles, Philadelphia, WB
Saunders, 1989.) (F, Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.)
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HYPERTENSIVE HEART DISEASES
Systemic(left sided):
Left ventricular hypertrophy- 2 cm- 500 gm,
difficulty in diastolic filling
Left Atrial Enlargement
Myocytes:
Increase in diameter and nuclear size
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Figure 12-20 Hypertensive heart disease with marked concentric thickening of the left ventricular wall causing reduction in lumen size. The left ventricle is on the right in this apical four-chamber view of the heart. A pacemaker is incidentally present in the right ventricle (arrow).
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HYPERTENSIVE HEART DISEASES
Right- sided; Pulmonary hypertensive heart disease Cor pulmonale Increase pressure- Right vent Right ventricular hypertrophy, dilated,
failure,secondarily to pulmonary hypertension
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VALVULAR HEART DISEASESCalcific Aortic stenosis:
Age related- 7th, 8th decade- senile calcific aortic stenosis
Stenotic bicuspid valve- 5th- 7th decade
Functional area decreases
Non Rheumatic, Rheumatic
Right ventricular hypertrophy
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Figure 12-22 Calcific valvular degeneration. A, Calcific aortic stenosis of a previously normal valve having three cusps (viewed from aortic aspect). Nodular masses of calcium are heaped-up within the sinuses of Valsalva (arrow). Note that the commissures are not fused, as in postrheumatic aortic valve stenosis (see Fig. 12-24E). B, Calcific aortic stenosis
occurring on a congenitally bicuspid valve. One cusp has a partial fusion at its center, called a raphe (arrow). C and D, Mitral annular calcification, with calcific nodules at the base (attachment margin) of the anterior mitral leaflet (arrows). C, Left atrial view. D, Cut section of myocardium.
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Figure 12-22 Calcific valvular degeneration. A, Calcific aortic stenosis of a previously normal valve having three cusps (viewed from aortic aspect). Nodular masses of calcium are heaped-up within the sinuses of Valsalva (arrow). Note that the commissures are not fused, as in postrheumatic aortic valve stenosis (see Fig. 12-24E). B, Calcific aortic stenosis
occurring on a congenitally bicuspid valve. One cusp has a partial fusion at its center, called a raphe (arrow). C and D, Mitral annular calcification, with calcific nodules at the base (attachment margin) of the anterior mitral leaflet (arrows). C, Left atrial view. D, Cut section of myocardium.
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Figure 12-22 Calcific valvular degeneration. A, Calcific aortic stenosis of a previously normal valve having three cusps (viewed from aortic aspect). Nodular masses of calcium are heaped-up within the sinuses of Valsalva (arrow). Note that the commissures are not fused, as in postrheumatic aortic valve stenosis (see Fig. 12-24E). B, Calcific aortic stenosis
occurring on a congenitally bicuspid valve. One cusp has a partial fusion at its center, called a raphe (arrow). C and D, Mitral annular calcification, with calcific nodules at the base (attachment margin) of the anterior mitral leaflet (arrows). C, Left atrial view. D, Cut section of myocardium.
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MITRAL LEAFLET PROLAPSEMyxomatous degeneration of mitral leaflets
Attenuation – fibrosa
Increase- spongiosa
Etiology? Marfan’s syndrome- fibrillin mutation- TGF-b
Valve surgical correction
Complication- mitral insufficiency, Infective Endocarditis, stroke
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Figure 12-22 Calcific valvular degeneration. A, Calcific aortic stenosis of a previously normal valve having three cusps (viewed from aortic aspect). Nodular masses of calcium are heaped-up within the sinuses of Valsalva (arrow). Note that the commissures are not fused, as in postrheumatic aortic valve stenosis (see Fig. 12-24E). B, Calcific aortic stenosis
occurring on a congenitally bicuspid valve. One cusp has a partial fusion at its center, called a raphe (arrow). C and D, Mitral annular calcification, with calcific nodules at the base (attachment margin) of the anterior mitral leaflet (arrows). C, Left atrial view. D, Cut section of myocardium.
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Figure 12-23 Myxomatous degeneration of the mitral valve. A, Long axis of left ventricle demonstrating hooding with prolapse of the posterior mitral leaflet into the left atrium (arrow). The left ventricle is on right in this apical four-chamber view. (Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.) B, Opened valve, showing pronounced hooding of
the posterior mitral leaflet with thrombotic plaques at sites of leaflet-left atrium contact (arrows). C, Opened valve with pronounced hooding from patient who died suddenly (double arrows). Note also mitral annular calcification (arrowhead).
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Figure 12-23 Myxomatous degeneration of the mitral valve. A, Long axis of left ventricle demonstrating hooding with prolapse of the posterior mitral leaflet into the left atrium (arrow). The left ventricle is on right in this apical four-chamber view. (Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.) B, Opened valve, showing pronounced hooding of
the posterior mitral leaflet with thrombotic plaques at sites of leaflet-left atrium contact (arrows). C, Opened valve with pronounced hooding from patient who died suddenly (double arrows). Note also mitral annular calcification (arrowhead).
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Figure 12-23 Myxomatous degeneration of the mitral valve. A, Long axis of left ventricle demonstrating hooding with prolapse of the posterior mitral leaflet into the left atrium (arrow). The left ventricle is on right in this apical four-chamber view. (Courtesy of William D. Edwards, M.D., Mayo Clinic, Rochester, MN.) B, Opened valve, showing pronounced hooding of
the posterior mitral leaflet with thrombotic plaques at sites of leaflet-left atrium contact (arrows). C, Opened valve with pronounced hooding from patient who died suddenly (double arrows). Note also mitral annular calcification (arrowhead).
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