89. Rheumatic Fever and Rheumatic Heart Disease (RHD)
90. Acute Pericarditis
91. Myocarditis
92. Infective Endocarditis (IE)
93. Congenital Heart Disease
94. Cardiomyopathies
95. Arteriosclerosis
96. Atherosclerosis
97. Inflammatory Disease of Blood Vessels
98. Aneurysms and Dissection
99. Congestive Heart Failure
100. Iron Deficiency Anaemia
101. Megaloblastic anaemia
102. Pancytopenia
103. Leucocytosis and Leucopenia
104. Aplastic anaemia
105. Haemolytic anaemia
106. Hereditary Spherocytosis
107. Haemoglobinipathies
108. Thalassemia syndrome
109. Sickle Cell Disease
110. Leukaemia
111. Leukemoid reaction
112. Lymphadenitits
113. Hodgkin lymphoma
114. Non-hodgkin lymphoma
115. Myeloproliferative disorders
116. Myelofibrosis
117. Multiple myeloma
118. Bleeding disorders
119. Coagulation disorders
120. any
121. Blood grouping
122
Microbiology
122. Introduction of Blood borne infections
123. Infective Endocarditis
124. Brucella
125. Rickettsiae
126. Leishmania donovani
127. Plasmodium
128. Wuchereria bancrofti
129
Biochemistry
129. Metabolism in Blood Cells
130. Iron metabolism
131. Haemoglobin
132. Lipoprotein metabolism
133. Biochemical aspect of MI
134
Biochemistry
133. Biochemical aspect of MI
1.
Explain the importance of CK, CPK (MB), troponin in clinical diagnosis.
[2072]
➤
2.
Explain clinical importance of cardiac markers.
[2069, 2061]
➤
3.
List cardiac markers and their clinical importance.
➤
4.
Write short notes on cardiac markers.
[2064]
➤
5.
Give the biochemical reasons in myocardial infarction.
[2074]
➤
6.
Discuss cardiac markers and their limitations.
➤
7.
List the tests used in evaluation of cardiac function. Describe the tests ordered in a patient with short history of MI (16 hours) and expected results.