Survey of Human Disease Exam 2 Notes
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Barstow Community College
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These are detailed notes on various human diseases, including cancer, genetics, and related topics. The notes cover different types of cancer, benign vs. malignant tumors, risk factors, and diagnostic methods. They also touch on genetics and chromosomes.
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Chapter 4: - Cancer = uncontrolled growth of abnormal cells - Can spread to other parts of the body, known as metastasis - Epidemiology -- study of the distribution, transmission, and treatment of disease across a specified area - Interesting: the most common area of...
Chapter 4: - Cancer = uncontrolled growth of abnormal cells - Can spread to other parts of the body, known as metastasis - Epidemiology -- study of the distribution, transmission, and treatment of disease across a specified area - Interesting: the most common area of cancer within men is prostate and the most common place of cancer for women is the breast - The leading sites of cancer deaths in the U.S. are the lung and bronchus - Benign vs. malignant tumors (also called neoplasms) - Benign -- - Organized and uniform cell growth, expansion, cellular characteristics - Not invasive into other tissues - Encapsulated by fibrous cconnective tissue - Malignant -- - Uncontrolled growth of cells - Invasive in growth - Lose cellular uniformity and characteristic - Metastasis possible - Nomenclature of tumors - - Polyp -- epithelial tumor that is benign - Carcinoma -- confirmed cancer cells that are derived from epithelial cells and includes those of the prostate, lung, and colon - Sarcomas -- those of the connective tissue (bone, cartilage, fat) - Leukemias -- cells that comprise the blood cells - Lymphoma -- that of the lymphatic system - Blastoma -- cancers from immature precursor cells or embryonic tissue - Benign tumors have the suffix -oma usually - Known risk factors for cancer: - AGE - Tobacco - Infections - Radiation -- carcinogens cause changes to certain genes, can damage DNA - Chronic inflammation -- those with inflammatory bowel diseases - Immunosuppressive medications - Less able to detect and destroy the cancerous cells via cytotoxic T cells (CD8) - Diet -- may change a cancer risk - Hormones -- estrogens are actually known to be human carcinogens - Viruses -- HPV, EBV, HIV, HBV, HCV - Obesity -- increases the risk - Sunlight -- radiation form that can cause early skin aging and damage skin more than anything - Cancer has general s/sx: - Unexplained weight loss from the nutrient intake of the cancer cells and starvation of the normal cells of the body - Fever - Fatigue - Cough - Pain - Skin changes - Leukoplakia -- thick, white patches on the inside surfaces of the mouth - Bleeding that is unexplained and does not stop a lot - Cancer etiology - - Puzzles people, can be explained by genetics a little bit - Genes -- - oncogenes (mutated gene that can cause cancer) - proto-oncogenes though help normal cells to grow, so if they mutate or make too many copies then you have cancer from the uncontrolled cell growth - tumor suppressor (encodes for genes that act to regulate cell division and to keep it in check -- protect it from becoming cancer - suicide genes (cell apoptosis -- programmed cell death) - DNA repair genes -- correct the mistakes that are found within DNA - Gene mutations that are inherited or acquired are not always risk factors for causing cancer - Mutations - Carcinogens - Cancer diagnosis: - Blood work - Diagnostic imaging: radiography, CT, MRi, ultrasound - Biopsy - Treatment: - CEA (a tumor associated antigen) can monitor the response to therapy - Radiotherapy is localized whereas chemotherapy is more systemic - Chemo works throughout the entire body and treats distant metastatic sites - Chemo typically targets the different phases of the cell cycle - Intensity and level of treatment has to balance so doesn't kill too much of normal cells - Just need to know the difference between naked and conjugated antibodies for that slide - Many ways to prevent the risk factors for cancer development Chapter 5: - Genes are different combinations of nitrogenous bases (CTGACTGA) - Chromosome: in the human body, there are 20,000 to 25,000 genes - DNA so big that it needs compression (made possible by histone proteins to help wrap around to make the chromosomes) - Loci is an area on the chromosome that houses a gene - Alternative form of gene is an allele - So for eye color example, there is an alternative form of that gene within the **same locus** - Dominant allele (brown) is the one that you manifest - Only thing that changes is the form of the gnee, not the loci (same across the entire human genome) - Karyotype: pictural representation of your chromosomes - Allows you to tell if someone has certain genetic disorders - Ex: down syndrome, at chromosome 21, extra pair is there - Sex cells meiosis, everything else is by mitosis - Mitosis -- diploid, meiosis -- haploid (reason for needing the other partner's gamete to produce an embryo) - Prophase -- chromosomes condense and become visible, centromeres of combined sister chromatids, centrosomes release spindle fibers, nuclear envelop degrades and so does the nucleolus - Metaphase -- chromosomes lined up on the middle of the cell, with each sister chromatid being attached to a centromere. - Anaphase -- the sister chromatids are at the end of the cells - Telophase -- the separate nuclei and nucleoli begin to form - Cytokinesis -- division with equal sharing of cytoplasm - 46 -- 22 pairs of autosomes and 1 pair of sex chromosomes - Can have mutations on either type of chromosome - Can have extra or loss of copy - Sex linked can be additional or missing X - Autosomal dominant disorder: you need to inherit only one copy from your parents (typically present with that disease from one copy - Huntingtons disease - - Polydactyly - - Achrondroplasia -- short limb dwarfism - 80% of cases are new mutation - Faulty cartilage growth that affects long bones - Breathing problems and ear infections - Marfan syndrome - - Familial hypercholesterolemia - You have a 50% chance for affected child (dominant), while the chance for recessive is 25% if one parent is affected - Autosomal recessive -- have to inherit 2 copies - 25% for affected (would need homozygous inheritance for disease manifestation) and 50% for carrier child - Cystic fibrosis - Mutation on chromosome 7 that affects the CFTR gene - Defined by abnormality in transport of NaCl across cell membranes - Affects chlorine channels of the cells and exocrine glands all throughout the body - Presents with thickened mucous secretions - Average lifespan is 32 - Hemochromatosis - Excessive iron absorption, bronze skin, cause pancreatic issues, cirrhosis of the liver - Tx is blood drawing and medication to bind iron - Phenylketonuria - Deficiency of phenylalanine hydroxylase (phenylalanine -\> tyrosine) - Increase in phenyl pyruvic acid which causes mental deficiency - Restriction of phenylalanine in the diet -- tx - Dx via blood test after birth - Galactosemia - Sickle cell anemia - Both genes child inherited are hemoglobin S - Before marriage, checking for sickle cell anemia carrier is a possible risk - Sickle cells plug capillaries and blood vessels which causes pain - Tay-Sachs - In Jewish origin - Hexose aminidase A absence, allows gangloside to accumulate and make red spot in retina - Death between 3 and 4 years old - Blood test - Albinism - X-linked disorder - Hemophillia is carried on the X-chromosome - Deficiency of coagulation factor VIII and is characterized by joint bleeding - Men are more affected because they have one X chromosome because the Y is very small and does not have much genetic information - Hemizygous -- men having a trait that is on the X - Treatments include clotting factors, avoiding trips and falls - Queen Victoria blood line example - Fragile X Syndrome - Constriction on the end of the chromosomes from large number f CGG repeats - Long, narrow face, large ears, prom jaw and forehead, flat feet and large balls in men - Abnormal Chromosome Disease - Down Syndrome -- - Trisomy 21 (just an extra copy at position 21) - Shorter lifespan and mental impairment with characteristic appearance - 50% are at risk for cardiac defect - Eyes with an upward slant, low muscle tone, deep crease across palm, small stature - Sex anomalies - Missing copies - Hermaphroditism - Klinefelter's -- extra X chromosome - Has XXY - Phenotypically a male though - Some more female characteristics from the extra X - Breast, sparse facial hair, underdeveloped testes, learning/speech problems, dyspraxia (balance issue) - Turner's Syndrome -- gonadal dysgenesis - Look like females but only have 1 X chromosome - Phenotype normal but genotype is abnormal - Missing sexual organs - Heart defects, short, infertility - Screening for these disorders occurs through genetic counseling and diagnosis - Amniocentesis -- take a needle and place through belly, and take amniotic fluid for analysis, 14 weeks and above - Chronic villus sampling -- tells you the gender of the child as well, transvaginally done and can read under 10 weeks of age - Gene Therapy - Congenital Disorders - **Present at birth - key** - Infection, radiation exposure, environment, drug, inherited genetic - Congenital rubella -- mother must have rubella infection during pregnancy - Cerebral palsy -- issues with deliver which influenced the brain - Hydrocephalus -- abnormality in drainage of CSF (swelling of the head) - Spina bifida -- folic acid deficiency - Cleft lip and palate Chapter 6: - S/F of the heart: - Myocardium -- muscular portion that is thickest and the middle layer - Endocardium -- innermost layer that covers the values as well and vessels - Pericardium/Epicardium -- external covering of the heart - Visceral -- covers heart itself - Parietal -- lining of the sac (clear lining of the heart) - Pericarditis -- inflammation of pericardial space that can house infections - Can have inflammation of any of the space - Heart SF in detail: - AV valves -- atrioventricular (mitral and tricuspid) - Bicuspid/Mitral on the left side (has 2 flaps) - Tricuspid on the right side (has 3 flaps) - Diastole -- when heart is at rest, valves are open and blood fill those spaces - Systole -- when heart is contracting/pumping - Coronary arteries -- although heart pumps blood, the organ needs blood to survive from the Cas. - MI is because one of the coronary arteries is blocked - Blood drains in Superior vena cava for brain and higher organs - Blood low in O2 but high in CO2 - Aorta is thick in muscle because needs more force to oxygenate the entire body - Only exception to arteries having oxygenation blood - Also, from umbilical cords when a baby is born - Ventricular valves -- aortic and pulmonary valves - Other name is semilunar valves - The little openings in the aorta are for the coronary arteries - Branches of the coronary arteries -- right and left (but they are branched) - Left CA goes into left anterior descending and circumflex - **LAD is the most common spot for a MI effected** - Right CA goes into right marginal and posterior interventricular which gives posterior wall of heart - Coronary sinus is what drains the blood from coronary artery - Conduction System -- autonomic system that helps the heart to beat and generate its own electricity - Electrical Conduction - SA node -- pacemaker, where the electricity is generated (located in the right atrium) - AV -- node that receives from SA - Bundle of His is hit, right and left branches are hit - Purkinje fibers then distribute charge to myocardial cells - Nodes are under the influence of cardioacclerator (cardiac nerve) and caridoinhibitor (vagus nerve) - Types of circulation: - Pulmonary circulation: right ventricle to the lungs - Systemic: from left ventricle to whole body through aorta into arteries -\> arterioles -\> capillaries (gaseous exchange due to meshwork -\> venules -\> veins -\> vena cava - Aorta and vena cava are the largest - Arterioles and venules - Capillaries smallest - Tests: - Echocardiogram -- US of the heart - Do not need to know the PQRS complex for the exam - Doppler ECG -- use dye effect and see more colors - Cardiac catheterization. -- look for blockages in vessels - Coronary arteriography -- dye, map of arteries to look for blockages - Arrhythmia is a disturbance in the sequence of electrical conduction from the SA node to the Bundle of His - Myocardial diseases: - Myocarditis -- inflamed heart muscle - Usually from a virus like Coxsackie, adenovirus, echovirus - Treatment is bedrest and treatment of underlying condition - Usually no permanent heart damage happens - Cardiomyopathy - Dilated: looks like someone in heart failure bc heart is dilated and valves are weak, not pumping enough from weakness - **Hypertrophic -- the one that is most common among young athletes, enlargement of the walls** - Restrictive -- chambers are very large, so stops blood from coming to the blood - Usually genetic, other factors do contribute - Tx: medications (diuretics, antibiotics), surgically implanted devices, heart transplant - Endocardial diseases - Vegetations - Bacterial collections within the heart valves that comes from RHD - Risk for infective endocarditis is rheumatic heart disease - Rheumatic fever - Occurs in children between 5 and 15 years of age - Usually has staphylococcal infection and it is poorly treated, sometimes the bacteria can then go and affect the heart valves - Rheumatic heart disease -- unusually use prophylactic antibiotics - Prevents from bacteria moving to bloodstream and valves - Heart valve diseases: - Stenosis: valves are weak, stenosis means there is fibrosis which limits flexibility. - Regurgitation or Incompetence: valves are weak - Imagine if valves cannot work well, there is backflow of blood and thus there is valvular regurgitation - Treatment will be replacement with artificial valves - Aortic valve replacement is an example - Prolapse mitral valve similar to incompetence - The valve is bulging into the left atrium when the ventricle contracts - Can make diagnosis by cardiac echo - Most common sign is chest pain, treated with beta blocker. - Prophlyaxis antibiotics are also used here for the prevention of the infection within the endocardium from bacteria migrating via the bloodstream - CVD: - Lipids play a large role within the generation of these set of disease - Hyperlipidemia -- high fat amount in the blood - Lipoproteins -- help to transport proteins - Low density -- bad cholesterol - What carries cholesterol from the liver and distributes all through the BV - High density -- good cholesterol - Carries chole from body to the liver to get processed - LDL bad, HDL good -- don't want high of the LDL and low HDL - High LDL puts u at risk for atherosclerosis - Could make plaques - Hypercholesteremia -- high cholesterol found within the blood - CAD - **First thing that happens is endothelial injury** (test question) - **Refers to one from high BP over time, increased motion** - **Can be prevented from the modifiable risk factors** - Macrophages then are released, absorb cholesterol and lipid from the blood -- macros look like fam cells - Smooth muscle cells and fibroblasts replicate, deposit fibrin and this becomes the atheromatous plaque - Foam cells -\> deposition of fibrin -\> plaque is made and increases in size untl there is partial or complete obstruction (causes MI which is likely to cause death) - Partial can be found with chest pain when exercise - Cardiac stent is a possible intervention - Narrowing of the coronary artery that supplies the heart - High levels of cholesterol and lipids causes the buildup - Risk factors: - Familial hypercholesteremia (200,300,400 LDL) - Genetic -- non mod - Age -- non mod - Male -- non mod - Elevated BP, cholesterol, and lipoproteins - Smoking - Overweight - Obesity - Stress - Bad diet - Stable plaque -- complete blockage - A mm decrease applied to the fourth power can cause increased blockage - Flow rate varies with the fourth power of the lumen diameter - Imaging: - Coronary angiograms can be used with X-rays to visualize the heart BV - Tx: angioplasty with balloon like stent placement (can be inflated to create a space) - If that does not work, can do a bypass surgery - Arteriosclerosis -- artery walls become thick, hard, and not flexible - Usually from calcium deposition, cholesterol, aging - Atherosclerosis -- only concerns lipid deposition - Is an example of arteriosclerosis - Aspirin helps to reduce cardiac risk in CAD - Inactivates thromboxane A2 to stop clotting process - Peripheral arterial disease -- all the changes that can happen in the heart can also occur in any other arteries within the body - Usually seen in people with diabetes - Intermittent claudication -- lower extremity muscle pain that occurs during exercise - Aneurysm -- ballooning of artery, abnormal dilation (asymptomatic) - Can be born with it, over time - Saccular - Fusiform - Either can occur within abdominal, thoracic, brain - There is no real screening for it, other than examination of family history - Hypertension - Over 70% of HTN is essential -- no real cause but there are risk factors - Secondary -- we know what is causing that HTN - Could be complication of kidney disease, adrenal tumor - 140/90 is stage 1 HTN, stage 2 is 160/100 - 120/80 is the standard BP value - Disease of venous circulation: - Varicose veins: - Weakness of the valves of the veins - Spider vein appearance - Managed by compression sclerotherapy -- helps to milk the valves and move blood flow - Cardiac arrythmia -- heart conduction is abnormal - Tachycardia -- pulse is 60 to 100 - Bradycardia -- pulse below 60 - Normal low pulse rates for atheletes - Congestive heart failure - Chronic degradaition in blood pumping ability by the heart - Present with dyspnea, cough, swelling (edema) from no movement of fluids - Tx: beta blockers, diruetics - Shock -- BP drops so low that it cannot sustain life - Anything causing the BP to go very low - Cardiogenic -- heart affected via MI, heart not operating properly and no beating so no blood being supplied to body systems - Hypovolemic -- in accident and fracture of hip bone, carries a lot, bleeding out because losing so much blood -\> low volume bc of the traumatic injury - Anaphylactic -- due to allergic reaction, BV dilated and blood flow reduced - Septic -- infection like staph, leads to dilated BV which then leads to shock - Neurogenic -- nerves tell the BV to dilate and contract - If damaged, the control of BV is messed up - Fetal circulation - Child in utero gets blood from mother through the placenta through umbilical vein and the artery - Ductus venosus comes from umbilical vein - When born closes up and becomes ligamentum teres - High pressure in lungs, so blood does not go to lungs - Bypasses them and goes through foramen ovale (hole between right and left shunt of atria) - Cardiac congenital abnormalities - 1\. Foramen ovale fails to close - 25% have it - 2\. Coarctation of aorta - Narrowing in artery aorta - 3\. Patent ductus arteriosus -- open between pulmonary artery and aorta - 4\. Tetralogy of Fallot (know this) - Stenosed pulmonary semilunar valve - Aorta emerges from both ventricles - **Interventricular septic defect** - **Enlarged right ventricle (NOT left ventricle) (hypertrophy)** **Cancer signs not specific** **Osteoma -- benign tumor from the bone** **Cyclins are not in the DNA division process** **Oncogenes can lead to cancer** **Sex chromosomal abnormality -- turners** **Supplementary Article Summaries:** **Chapter 4 -** 1. How cancer kills - Cancer disrupts cellular destruction and renewal process, making the new cells abnormal - Genetic condition because it comes from changes in the cellular genes that control cell function where they grow and divide - Person can actually inherit some of these genes from their parents as cancer is genetic. - Oncogenes are abnormal and have the potential to cause cancer from the cell growth to be uncontrollable - Tumors are usually solid masses of abnormal tissue, but some cancers can be within the blood - Cancer cells also do not mature and do not develop into specific cells with specialized functions - Cancer cells can also hide from the immune system - May also command the normal cells to make vascular channels in the tumor to help with growth and spread - "in situ" refers to cancers that have not moved and stay where they are (stage 0) - Early-stage cancer, tumors are small and not deeply embedded in tissues around (stage 1) - Never of these stages deal with the LN as there has been no metastasis - Stage 2 and 3 cancer are larger and may be deeper into tissues as well as spread to LN - Stage 4 is metastatic and has now spread to different parts of the body - **Some people die from cancer fairly quickly, especially if there were unexpected complications or the cancer was very severe. In other cases, it can take months or years.** - In final days with cancer, sometimes there is slow breathing with long pauses that last for 10-30 seconds 2. Mammogram article - The procedure takes about 20 minutes to complete **Chapter 5 -** 3. Birth Defects - Congenital anomalies are in 3% of pregnancies - Most common is a heart defect with no obvious cause and there is the chance of developing it if the woman has smoked or is even a diabetic - Most common HD is a ventricular septal defect - Hole in the wall that separates the lower 2 ventricles - Limb reduction -- limb does not form in the womb - Cleft lip -- tissues that form roof of the mouth or lips do not join right - Neural tube defects -- brain and spinal cord are the organs that are affected - Anencephaly -- part of brain or skull do not frm at all - Encephalocele -- neural tube does not close fully - Spina bifida -- spine does not form and close right (1/2758 births) - - Can be structural (3%) or developmental (affect 17%) categories - Structural relate to body parts - Heart defects, spina bifida, cleft lip or palate, clubfoot - Developmental has to do with the function of the body parts - Down syndrome -- 1/700 affected - Generally, 50% of congenital anomalies have no obvious cause - Nearly 1% of babies are born with CHD (congestive heart disease) - Atleast 15% of people with CHD have a genetic disorder as well -