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_________________________________________________Section 1.0 INTRODUCTION 1.1 ‘Geriatrics’ :It is a branch in medicine that is concerned with the elderly patients and their problems. Infact, it is the study of human aging and the care of the elderly. Geriatrics prefer to focus the care of older adults on improving physical and mental function rather than being solely concerned with disease detection and cure. The goal of geriatrics is however, not to promote senescence, but to maximize the positive aspects of aging. Patients who are considered as elderly are those with ages 60 and above. As a person proceeds in age, his body starts reacting differently to various situations. For example, the effect of stress on a child’s body differs from that on the body of a person who is in the twenties. Similarly, the impact of stress on the elderly is different and may cause severe deterioration of health. The elderly have multiple and often chronic diseases; thus they are the main consumers of drugs. Infact, in most developed countries, the elderly now account for 25% to 40% of drug expenditure. 1.2 ABNORMALITIES WITH AGING The physiologic state for any organ in any individual, however, is determined by the rate of change that organ has been experiencing multiplied by the number of years that change has occurred. Age related changes in one organ are not predictive of changes in other organs. Also, the rate of change of function of any organ varies from individual to individual. 1.2.1 Physiological changes Cardiovascular changes do occur with aging, however some cardiovascular functions do not decline due to age alone. There is no obligatory decline in cardiovascular function at rest. There is no age-related change found in cardiac output, end-diastolic or end-systolic volumes, or ejection fraction in the elderly at rest. Cardiac tissue itself undergoes only small metabolic changes due to aging itself . Age related changes are seen, however, in the large arteries of the body which lose their elasticity due to changes in elastin and collagen composition. Thus, there will be an increased aortic stiffness, loss of elasticity, and loss of diastolic recoil, resulting in increased peripheral resistance. Systolic hypertension alone, or systolic and diastolic hypertension may then become manifest and require treatment. Left ventricular hypertrophy develops as an adaptive mechanism to the untreated increased peripheral resistance. Increased ventricular wall thickness, although not due to aging alone, does lead to increased ventricular wall stiffness in early diastole with consequent potential cardiac compromise when tachycardia occurs in the elderly. The elderly respond to stress with less tachycardia Changes in compliance of the chest wall with increased rigidity, lowered diaphragms during tidal breathing, and loss of internal alveolar surface area all combine for a slowly progressive loss of pulmonary function with aging. The residual volume of the elderly is increased because the diaphragms ascend less vigorously. With aging, there is a progressive decrease in arterial oxygenation, which is made worse when people are in the supine position. Intrathoracic changes alter the lungs ability to clear infections. Chronic obstructive pulmonary disease due to smoking, pneumonia, and pulmonary emboli are disease processes which occur with frequency in the elderly. When the additive limitations of smoking or pulmonary disease, however, accumulate upon the age related decline in ventilitory function the sick elderly have little reserve against hypoxia. Unfortunately, an age-related diminished responsiveness to hypoxia and hypercapnia may further make the older person more vulnerable to transient reductions in arterial oxygen tension during pneumonia or exacerbation of COPD. Gastrointestinal complaints are frequent in the elderly however, the gastrointestinal tract basically retains physiologic function with aging because of the large surface area and redundancy involved. Swallowing in the elderly , for example is of great concern to geriatricians and to caregivers. In patients who have had a stroke, coordination of the cricopharyngeus muscle may be affected, resulting in an upper esophageal sphincter which does not relax when food or liquid is ingested, and high probability of aspiration of liquids especially. 1.2.2 Pharmacodynamic changes in the elderly Molecular and cellular changes that occur with aging may alter the response to drugs in the elderly. Causes of pharmacodynamic changes in the elderly are : 1) Reduction in hemostatic reseve. 2) Changes in specific receptor and target sites. Reduced hemostatic reserve One) Orthostatic circulatory responses In normal elderly subjects, there is blunting of the reflex tachycardia that occurs in young subjects on standing or in response to vasodilation and this could be due to structural changes in the vascular tree. Drugs that decrease the sympathetic outflow from the central nervous system are more likely to produce hypotension in the elderly. Two) Postural control Postural stability is normally achieved by static reflexes, which involve sustained contraction of the musculature, and phase reflexes, which are dynamic, short term and involve transient corrective movements. With aging, the frequency and amplitude of corrective movements increase and an age- related reduction in dopamine receptors in the striatum takes place. Three) Thermoregulation Accidental hypothermia can occur in the elderly with drugs that produce sedation, impaired subjective awareness of temperature, decreased mobility and muscular activity, and vasodilation. This is due to the impaired thermoregulatory mechanisms in the elderly. Four) Cognitive function Aging is associated with marked structiral and neurochemical changes in the central nervous system. Cholinergic transmission is linked with normal cognitive function, and in the elderly the activity of choline acetyltransferase is reduced in some areas in the cortex and limbic system. Several drugs cause confusion in the elderly Five) Visceral muscle function Constipation is a common problem in the elderly as there is a gastrointestinal motility with aging. Anti-cholinergics, opiates, and antihistamines are more likely to cause constipation or ileus in the elderly. Anti-chlinergics may cause urinary retention in elderly men, especially those who have prostatic hypertrophy. Bladder instability is common in the elderly, and urethral dysfunction more prevalent in elderly women. Loop diuretics may vause incontinence in such patients. 1.3 Age-related changes in specific receptors and target sites Response to drugs may be altered by the number of receptors, the affinity of the receptor, post-receptor events within cells resulting in impaired enzyme activation and signal amplification, or altered response of the target tissue itself. Aging is associated with these changes. Examples:. Name of drug Atropine Benzodizepines Propranolol Digoxin Warfarin Response of the elderly Produces less tachycardia in the elderly than in the young Elderly are more sensitive to them. In the elderly it produces less beta blocking effect than in the young due to the decrease in the beta receptors that occur by age. The elderly are more sensitive to the adverse effects of digoxin. The elderly are more sensitive to warfarin 1.4 Pharmacokinetic changes in the elderly Aging results in many physiological changes that may effect absorption, first-pass metabolism, protein binding, distribution and elimination of drugs. Age related changes in the gastro-intestinal tract, liver and kidneys are : Reduced gastric acid secretion Decreased gastro-intestinal motility Reduced total surface area of absorption Reduced splanchnic blood flow Reduced liver size Reduced liver blood flow Reduced glomarular filtration Reduced renal tubular filtration. 1.4.1Absorption There is a delay in gastric emptying, reduction in gastric acid output and splanchnic blood flow with aging. These changes do not significantly affect the absorption of the majority of drugs. Although the absorption of some drugs may be slower, the overall absorption is similar to that in the young. The absorption of D-Xylose decreases by age due to decreased intestinal absorption of carbohydrates. There is however, no evidence for decrease in absorption of either fat soluble or water soluble vitamins, iron, or protein with age. A perceived agerelated decrease in calcium absorption may be related to vitamin D deficiency, an altered responsiveness of calcium binding proteins in the intestinal mucosa , or other factors. 1.4.2 First-pass metabolism After absorption, drugs are transported via the portal circulation to the liver, where many lipid soluble agents are metabolized extensively (more than 9095%).This results in marked reduction in systemic bioavailibility. Obviously, even minor reductions in first pass metabolism can result in a significant increase in the bioavailibility of such drugs. Impaired first pass metabolism may alter the effects of certain drugs; example : the hypotensive effect of Nifidipine which is a calcium channel blocker is enhanced in the elderly. Also, in frail hospitalized elderly patients, i.e. those with chronic debiliating diseases, the reduction in presystemic elimination is even more significant. 1.4.3 Distribution The age related physiological changes which may affect drug distribution are : Reduced lean body mass Reduced total body water Increased total body fat Lower serum albumin level Alpha 1-acid glycoprotein level unchanged or slightly raised. Increased body fat in the elderly results in an increased volume of distribution for fat soluble compounds such as diazepam and thiopentone. On the other hand, reductions in body water results in a decrease in the distribution volume of water soluble drugs such as cimitidine, digoxin and ethanol. Acidic drugs tend to bind to plasma albumin, whilst basic drugs bind to alpha 1-acid glycoprotein. Plasma albumin levels decrease with age and, therefore, the free fraction of acidic drugs such as cimitidine, frusemide and warfarin will increase. Plasma alpha 1-acid glycoprotein levels may remain unchanged or may rise slightly with aging, and this may result in minimal reductions in free fractions of basic drugs such as lignocaine. The age related changes in distribution and protein binding are of significance only in the acute administration of drugs, because at steady state the plasma concentration of a drug is determined by free drug clearance by the liver and the kidneys rather than by distribution volume or protein binding. 1.4.4 Renal clearance By age, the glomarular filtration rate declines. Also, the effective renal plasma flow and the renal tubular function declines with age. Thus, the doses of predominantly renally excreted drugs should be individualized. It is also necessary to reduce the dose of drugs that have a narrow therapeutic index. Although total serum renin concentration remains stable with age, there is an age-dependent decline in active renin concentration.This is responsible for a blunted renin response to postural changes, and is one of the mechanisms postulated for the frequency of postural hypotension in the elderly. Because of the decreased GFR, blunted renin-aldosterone axis, and decreased tubular mass, the elderly may have less ability to protect against hyperkalemia in the face of increased potassium loads. There is a water conservation defect in the elderly which predisposes them to dehydration due to a decreased responsiveness to vasopressin and a resting decrease in total body water with age that is more pronounced in women than in men. This can result in dehydration when water loss is significant, as during a fever,or when the t hirst mechanism is blunted. 1.4.5 Hepatic clearance Drugs that depend on the liver for their clearance have a rapid rate of metabolism and the rate of extraction by the liver is very high. Hepatic extraction is dependent upon liver size, blood flow, uptake into hepatocytes, and the affinity and activity of hepatic enzymes. Liver size falls with age and this will hence result in a decreased hepatic blood flow However, standard liver function tests such as bilirubin, amino transferases, and alkaline phosphatase do not change with age. Storage capacity of the liver may be affected, however, as demonstrated by altered clearance of dyes such as bromsulphalein from the bloodstream. Clearance of antipyrine, a measurement of microsomal oxidation, is slowed with aging, however no age-related changes in the activities of other microsomal enzymes systems have been found in other studies. Clearance of alcohol, which occurs through non-microsomal oxidation mechanisms, moreover, is not affected by aging. Neither is there an age related change in the clearance of isoniazid or oxazepam which are cleared by hepatic conjugation. Because of the fact that demethylation by the liver is decreased with aging, the half life of drugs such as benzodiazepines , chlordiazepoxide, diazepam, and aminopyrine may be doubled in older individuals. PHARMACO-ECONOMICS As managed care for older adults becomes the tren, there are special opportunities for positive developments from a primary care perspective. One is the possibility of shifting the focus away from disease-oriented care. In geriatrics, function, not disease, is the issue. What we need are function-management care plans, not disease-management care plans. Diseases do not predict utilization and healthcare costs, but function does. It is clear that if we can prevent disability, that is much more cost-effective than dealing with what occurs after the onset of a disability. From the perspective of managed care, the emphasis on prevention of disability will necessarily assume increasingly greater importance. With managed care, we can align the incentives for improvement with all of the parties involved, and we could not do that in a normal fee-for-service environment. It would seem that there are many advantages to managed care in providing care for elders, but still many of us in geriatrics are distrustful of it. This is because we still do not know how to take care of older people well. Another major problem is that we still have unintegrated systems, and it is difficult to provide good managed care within an unintegrated system. We are also in the midst of a changing culture in the medical establishment, away from the overarching authority of specialists and toward giving much more power to primary care physicians and, though this is a positive change in my opinion, it does create discord within the healthcare system. Another major problem is that we still have unintegrated systems, and it is difficult to provide good managed care within an unintegrated system. We are also in the midst of a changing culture in the medical establishment, away from the overarching authority of specialists and toward giving much more power to primary care physicians and, though this is a positive change in my opinion, it does create discord within the healthcare system ________________________________________________________Section 2.0 COMMON DISEASES AND CONDITIONS THAT ARE ASSOCIATED WITH THE ELDERLY 2.1 Cardiology Cardiac disease is common in late life. As a person proceeds in age, he becomes more prone to cardiac diseases and this is due to weakened cardiac muscles. 2.2 Delirium Acute confusion is a common occurrence in the elderly. Its presence suggests increased morbidity and mortality. It serves primarily as an indicator of severity of illness, but can unmask unrecognized dementia. Some preventive measures may be useful. 2.3 Dementia Cognitive impairment is most often recognized when it results in memory loss. However, changes in personality, loss of judgement, difficulty with problem-solving, and language disorders are also common. The cumulative effect can be devastating on an individual, and on their loved ones. The correct diagnosis is essential, in order to detect and treat any reversible component. 2.4 Rheumatological Diseases Older adults can suffer from painful joints and muscles for a variety of reasons. 2.5 Sleep disorders (insomnia) 2.6 Urinary incontinence It is important to be aware that this condition, although more common as a person gets older, is not a normal function of aging. Causes range from problems with nerve function to the adverse effects of medications or surgery. Treatment can involve exercises, biofeedback, medications, and surgical repair. 2.7 Anemia Anemia is a frequent finding among the elderly, although healthy elderly do not demonstrate a change in hematocrit with aging. Therefore, anemia in the elderly is always due to a pathologic condition or represents a response to a pathologic condition. Likewise, although the elderly are prone to atherosclerotic cardiovascular disease which impairs cardiac functioning, aging alone is associated with no obligatory decline in cardiac functioning. Advances in health care, diet, and smoking cessation are associated with declines in the advent of atherosclerotic disease and its morbidity. 2.8 Constipation This is a major complaint of the elderly, and is usually associated with impaired physical activity, altered diet, and medications. In older adults who are constipated, slower transit times and decrease in fecal water content may occur. 2.9 Hemorrhoids This may be made worse by constipation. _______________________________________________________Section 3.0 PRINCIPLES AND GOALS OF DRUG THERAPY IN THE ELDERLY The Mission of a Clinical Pharmacist is: “To improve the physiological, psychological, and social well being of older persons through state-of-the-art interdisciplinary research, education and clinical services.” 3.1 Strategies that must be followed when choosing a drug for the elderly : 1) Avoid unnecessary drug therapy. 2) Effect of treatment on quality of life. It must be kept in mind that the aim of treatment in the elderly is not just to prolong life but to improve the quality of life. 3) Treat the cause rather than the symptom to avoid dangers. 4) A lot of attention should be paid on the drug history to ensure that the patients are not given drugs to which they are allergic to. 5) Concomitant medical illness. Many illness in the elderly may increase the risk of adverse effects of drugs. Examples are cardiac failure , renal and hepatic diseases. 6) Choosing the drug properly 7) The dose should be very accurately specified. Infact, it is rational to start with the smallest possible dose of a given drug in the least number of doses and then gradually increase both, if necessary. 8) The right dosage form must be chosen. 9) The medicine prescribed must be packaged in such a way that it can be opened easily. 10) Information about the patient’s current and previous therapy, alcohol consumption, smoking and driving habits also help in choosing appropriate drug therapy when the treatment needs to be altered. Also, it will help to reduce costly duplications and will avoid dangerous drug interactions. 11 ) The elderly are more susceptible to adverse effects of the drugs thus care should be taken when initiating any drug therapy. 12) Compliance is usually a problem in most elderly patients as many elderly patients tend to forget when the due dose was which may hence result in various complications. Thus, it is necessary that someone professional is kept in charge of the patient. 3.2 COMPONENTS OF A COMPREHENSIVE GERIATRIC ASSESSMENT A. Patient demographics: a. Date of assessment , patient name, address, age, sex , ehnic origin, marital status, lifestyle, occupation and his social life. ii. Reason for assessment which could be : 1. initial comprehensive exam 2. hospital/clinic admission reassessment 3. home assessment 4. discharge assessment 5. episodic encounter assessment 6. significant change in status B. Activities of Daily Living a. Ability for self-care, hygiene, housekeeping One) Bathing Two) self-feeding Three) dressing Four) transfer Five) toileting Six) continence (bowel/bladder) Seven) ambulation b. Problems with Mobility One) Falls within the last 12 months? Two) Injuries within the last 12 months? c. Abilities and Opportunities for telephone communication d. Access to community e. Emergency plan, phone, contacts f. Transportation g. Financial management C. Nutritional a. Weight changes b. Appetite patterns, consumption patterns c. Food preparation, means of obtaining food (shopping, etc.) d. Digestion e. Chewing, swallowing problems f. Evaluation of diet adequacy d. Sleep a. Sleeping patterns (night time and naps) b. Sleeping problems E. Psychosocial History a. Feelings about self b. Social interactions, family, friends, Community involvement c. Living alone or with others d. Adequacy of home environment e. Occupational/volunteer history, retirement plans f. Stressors, coping F. Past Medical History a. Chronic diseases b. Major illnesses or surgery c. Hospitalizations d. Transfusions e. Smoking (pack/years) f. Alcohol intake (amount/type) g. Did you fall within the past 12 months? G. Medication Use a. Prescription medications taken b. Nonprescription medications taken c. Allergies/adverse drug reactions d. Recreational medications e. How do you obtain your medications f. How do you pay for your medications g. Do you have problems taking your medications h. How often do you not take any of your prescription medications i. Knowledge of purpose of medications H. Mental health assessment a. During the past month, how have you been feeling in general? b. If you had severe emotional problems, did you seek professional help? c. List any major personal losses or major changes that have occurred in the past 12 months. d. Is anything really bothering you now? e. Have you ever felt like hurting yourself? f. When you get upset, how do you generally handle it? I. Family History a. Major diseases in family b. Family genogram showing health status/age cause of death J. Review of Systems Query patient regarding major symptoms for each major body system. Emphasize symptoms common to aging clients. Ask regarding pain in every system. This may be an appropriate time to obtain a sexual history, if you have already spent sufficient time with the patient to establish trust and rapport. K. Physical Exam (Changes with normal aging) a. Eyes-- decreased lubrication 1st) Presbyopia-- thickening of lenses, causing blurring, especially close objects 2nd) Senile cataracts - cloudiness or opacity in lens 3rd) Color vision changes - yellowing of lens, filtering out violet, blue and green b. Ears One) Conductive loss - loss of sensitivity at all frequencies Two) Presbycusis - loss at higher frequency first, high pitched, and consonant sounds c. Other Senses One) Smell - decreased, fruit odor persists Two) Taste- decreased Three) Touch- decreased pain sensation d. Heart One) Decreased efficiency Two) Decreased cardiac output e. Lungs One) Increased rigidity Two) Limited expansion due to thoracic changes Three) Diminished cough reflex f. Musculoskeletal 1st) Bones become more porous and brittle 2nd) Kyphosis, which may be accompanied by a compensatory hyperflexed neck 3rd) Decreased height from narrowing of intervertebral spaces (1-4") 4th) Loss of muscle mass-peripheral loss 5th) Increased fat deposition on hips, ankles 6th) Arthritic changes in joints g. Skin One) Decreased moisture and elasticity Two) Wrinkling-reflects life patterns of muscle activity Three) Loss of subcutaneous fat- decreased insulation Four) Graying of hair, thinning, and loss Five) Nails - brittleness, changes in texture, thickening of toe nails h. Digestive system One) Decreased peristalsis and intestinal secretions Two) Teeth become worn. _______________________________________________________Section 4.0 CLINICAL CASES ON GERIATRICS 4.1 CASE STUDY 1 : Mrs. N is a 72-year-old widowed, black female living alone in a two-story home. Her medical problems include hypertension, hyperlipidemia, diabetes, chronic obstructive pulmonary disease, congestive heart failure, non-ulcer dyspepsia, insomnia, glaucoma, and osteoarthritis. She is followed by two different physicians at a University Health Center. She has a 20 pack-year smoking history and continues to smoke a pack of cigarettes daily. She drinks 4 to 5 cans of beer a day. She denies illicit drug use. Mrs. N has been hospitalized four times in the past year for exacerbation of her chronic disease states. Her medication history reveals she is prescribed the following medications: 1. Hydrochlorothiazide 25 mg qam 2. Nifedipine 10 mg qid 3. Cholestyramine 5 g tid 4. NPH insulin 38 units qam 5. Theophylline SR 400 mg bid 6. Albuterol metered dose inhaler 2 puffs qid as needed for shortness of breath 7. Prednisone 10 mg qd 8. Cimetidine 400 mg bid 9. Pilocarpine HCl eye drops 4% 1 gtt ou qid 10. Timolol eye drops 0.5% 1 drop twice daily. 11. Mylanta 1 tablespoonful before meals as needed for heartburn 12. Temazepam 15 mg hs as needed for sleep Discussion and comment of the case and the medications given : HYPERTENSION: The lady is hypertensive and this is due to many factors present in the patient that gives rise to this problem. The first factor is her age and race and both of these factors are uncontrollable. The blood pressure rises as the person proceeds in age. The second factor contributing to this condition is the fact that she is a heavy smoker and a heavy alcoholic drinker. The fact that the lady has many underlying diseases such as hyperlipidemia and diabetes mellitus also contributes to hypertension. Thus, it is very important to control these underlying diseases so as to control hypertension. Hypertension must be treated to avoid complications. Nifidipine is the best choice in this case and is given as sustained release to allow patient compliance. Hydrochlorthiazide is not the best choice as the patient has hyperlipidemia also and these diuretics may have an adverse effect on the lipid profile. The use of diuretics in this case is necessary because the lady has congestive heart failure and edema may be associated with it. HYPERLIPIDEMIA The total serum cholesterol level increases with age in males and females above the age of 20 years. High alcohol intake and Diabetes mellitus contribute to hyperlipidemia. Cholestyramine is hence given. There are certain drugs that have to be avoided in any patient with hyperlipidemia as it has an adverse effect on the lipid profile. Examples of such drugs : Diuretics, Oral contraceptives, Corticosteroids, Cyclosporins, Hepatic microsomal enzyme inducers. And beta adrenergic blockers. DIABETES MELLITUS The sugar level in the blood must be controlled. The lady is hence on insulin. Any underlying hypertension and hyperlipidemia must be controlled. CONGESTIVE HEART FAILURE To relieve edema hydrochlorothiazide was hence give since it will increase the excretion of sodium and water thereby relieving edema. INSOMNIA This could be due to the high nicotine intake since she is a heavy smoker and nicotine is a CNS stimulant. Also, it is related to age. GLUCOMA Timelol and Pilocarpine were given to control this condition. The patient has osteoarthritis and there was no medication given to relieve the pain. The problem however arises from the fact that this patient has dyspepsia and is prone to ulcers. Thus, there is a hesitation in giving a non-steroidal anti-infalmmatory drug. One of the main strategies in the clinical management of an elderly is to simplify the medicaments given since too much of medicines may lead to patient compliance problems. Looking at the above drug plan we can easily point out the unnecessary drugs. To implement the plan : 1. Cimetadine is probably unnecessary as the patient has nonulcer dyspepsia. The condition of dyspepsia can be easily controlled by Mylanta which is given before food. 2. Temazepam which is a hypnotic, might be contributing to cognitive impairment. Also, Temazepam may cause confusion, ataxia especially in the elderly. Perhaps non-pharmacologic treatment of insomnia could be tried instead of Temazepam. 3. Maybe the patient could be weaned off of the prednisone, which might be interfering with control of the diabetes as it can cause antagonism of the hypoglycemic effect of anti-diabetics. Also, since the patient is hypertensive, prednisone will only make it worse. Also, the intake of of Prednisone with Theophyllin will lead to an increased risk of hypokalemia. 4. Sustained release Nifedipine might be preferable to the four times a day dosing currently being prescribed to allow patient compliance. Nifidipine is a good choice since it has no effect on the lipid profile. PATIENT COUNSELLING. The patient should be encouraged to stop smoking and alcohol as these are always precipitating factors of ulcers and since the patient has got dyspepsia, it means that she is prone to ulcers. The patient should also be advised to avoid stress as it may contribute to insomnia, ulcers, hypertension and hyperlipidemia. Daily monitoring of the blood sugar level and blood pressure is mandatory. Diet should contain less sugar and salt. The patient must abide by the medications given and instantly report any new emerging symptoms. __________________________________________________________________ 4.2 CASE - STUDY 2 CLINICAL HISTORY: The patient is a 77-year-old white male who presented to the Emergency Department with persistent nose bleeding. According to the patient, he woke up in the morning with a nose bleed which continued on and off during the day. He also reported multiple episodes of epistaxis in the past. The patient had a medical history of prostate cancer with bony metastasis, status post prostatectomy and hormonal therapy. Other medical problems included coronary artery disease, hypertension, stroke, and atrial fibrillation. His past medications included: Atenolol, Prinivil, Ecotrin, Lasix (Frusemide) Zocor (Simvustatin) and Duragesic patch (Fentanyl _ opioid analgesic) Physical examination of this patient was unremarkable except for some blood oozing from the nostrils and blood stains in the posterior oropharynx. LABOARTORY FINDINGS: The complete blood count and coagulation profile of this patient is shown in the following table : Test HGB HCT WBC Platelet PT PTT INR Fibrinogen Factor II Factor V Factor VII Factor VIII Factor IX Factor X Factor XI Factor XII FDP D-Dimer Antithrombin III Plasminogen Antiplasmin Value 10.4 g/dl 30.2 % 6.8 x 103/µl 157 x 103/µl 13.7 sec 31.6 sec 1.2 68 mg/dl 0.85 U/ml 0.65 U/ml 1.13 U/ml 0.65 U/ml 1.40 U/ml 0.74 U/ml 1.20 U/ml 0.70 U/ml 320.0 µg/ml 64.0 µg/ml 91 % 62 % 50 % Reference Range 13.5-17.0 g/dl 40.5-50.0 % 4.0-10.0 x 103/µl 140-440 x 103/µl 10.5-13.0 sec 25-33 sec 150-350 mg/dl 0.60-1.40Uml 0.50-1.50 U/ml 0.60-1.60 U/ml 0.50-1.50 U/ml 0.60-1.35 U/ml 0.60-1.40 U/ml 0.60-1.40 U/ml 0.50-1.70 U/ml 0.0-2.5 µg/ml 0.0-0.4 µg/ml 80-120 % 80-150 % 80-120 % TREATMENT: The patient was treated with Amicar (epsilon aminocaproic acid) in the Emergency Department with resolution of his bleeding. He was later discharged and scheduled for further chemotherapy to control his metastatic prostatic carcinoma. DIAGNOSIS: Hyperfibrino(geno)lysis, secondary to metatstaic prostatic carcinoma. DISCUSSION: Hypertension could be a cause of epistaxis. Fibrin formation (coagulation) and dissolution (fibrinolysis) are carefully coordinated physiologically. Hyperfibrino(geno)lysis occurs when there is greater fibrinolytic activity than fibrin formation, thus leading to hemorrhage. The central event of Hyperfibrino(geno)lysis is the generation of plasmin within the general circulation (plasminemia). Plasmin, which is a protease converted from plasminogen, degrades fibrin, fibrinogen, coagulation factors V and VIII, complement components and other plasma proteins. The fibrinolytic activity of plasmin is initiated by the plasminogen activators (tissue plasminogen activator (t-PA) and urokinase (u-PA)) and down-regulated by plasminogen a ctivator inhibitors (PAI-1 and 2) and plasmin inhibitors (α2antiplasmin). Hyperfibrino(geno)lysis has been reported in various pathologic conditions. Examples include hypotension, trauma, heatstroke, cardiac bypass surgery and severe liver diseases. In these cases, excessive amounts of plasminogen activators may be released into the blood from body stores (mainly endothelial cells) and exceed the capacity of inhibitors. Occasionally, patients with disseminated neoplasms, such as acute promyelocytic leukemia or metastatic prostate cancer, also exhibit enhanced fibrinolytic activities with symptoms of GI or GU bleeding, epistaxis or other forms of hemorrhage. It has been demonstrated that the tumor tissue or cells contain plasminogen activators, especially u-PA. The secretion of these activators into the circulation may rapidly lead to plasminogen activation and, occasionally, to hyperfibrino(geno)lysis. The coagulation profiles in these patients usually show: (1) normal or slightly prolonged PT and PTT due to the anticoagulation effects of FDP (fibrinogen degradation product); (2) normal platelet count; (3) normal plasma levels of clotting factors, except for factors V and VIII which are more sensitive to the proteolytic action of plasmin; (4) hypofibrinogenemia; (5) depletion of plasminogen or a 2-antiplasmin and the presence of a2antiplasmin-plasmin complexes in the plasma; (6) normal plasma level of antithrombin III; (7) increased plasma level of FDP with normal level of D-dimer; (8) normal erythrocyte morphology shown by peripheral blood smear. The laboratory findings in hyperfibrino(geno)lysis are summarized the table below. It should however be noted that the fibrinolytic activation seen in DIC is a secondary response to microvascular thrombosis. It has been indicated that there is an acute release of large quantities of t-PA into the circulation in patients with DIC. The abnormal hemostasis, therefore, is due to a combination of activation of coagulation and accelerated fibrinolysis. However, in cases of DIC, (1) the platelet count is usually low; (2) there is depletion of clotting factors, and thus prolonged PT (prothrombin time) and PTT; (3) there is decreased plasma level of antithrombin III and increased level of D-Dimer; (4) schistocytes and microspherocytes are present in the peripheral blood Lab. findings in hyperfibrinogenolysis and DIC Test Platelet count PT PTT Thrombin time Fibrinogen Factor II Factor V Factor VII Factor VIII Hyperfibrino(geno)lys DIC is Normal Decreased Normal or prolonged Prolonged Normal or prolonged Prolonged Prolonged Prolonged Decreased Decreased Normal Decreased Normal or decreased Decreased Normal Decreased Normal or decreased Decreased Factor IX Factor X Factor XI Factor XII Euglobulin clot lysis time FDP D-Dimer Antithrombin III Plasminogen α2-Antiplasmin Normal Normal Normal Normal Shortened Increased Normal Normal Decreased Decreased Decreased Decreased Decreased Decreased Shortened Increased Increased Decreased Decreased Decreased α2-antiplasmin-plasmin complexes Increased Increased Erythrocyte morphology Schistocytes Normal . The patient's coagulation profile showed normal platelet count, borderline PT and PTT, levels of clotting factors within normal ranges, hypofibrinogenemia, significant increase of FDP, decreased activities of plasminogen and antiplasmin, and normal level of antithrombin III. These results are consistent with the diagnosis of hyperfibrino(geno)lysis, which is most likely secondary to the patient's underlying malignant neoplasm that may secret plasminogen activators into the blood. The elevated plasma level of D-Dimer in this patient may be explained by the degradation of fibrin generated from the tissue damage related to his metastatic carcinoma. The treatment of choice for hyperfibrino(geno)lysis is antifibrinolytic agents. EACA (epsilon aminocaproic acid) and related agents are specific and potent inhibitors of plasminogen activation and action of plasmin. However, such antifibrinolytic agents are potentially dangerous in the presence of DIC. Therefore, the diagnosis of DIC should be ruled out before administering these agents to the patients. __________________________________________________________________ 4.3 CASE STUDY # 3 PATIENT HISTORY: Sixty-seven year old female with longstanding hypertension and peripheral vascular disease. The following Plasma Renin assay results are from samples taken during the catheterization described above. Location ng/ml Right renal vein 112.5 left renal vein 21.4 Inferior vena cava 20.7 FINAL DIAGNOSIS: RIGHT RENAL ARTERY STENOSIS Over 90% of patients with high blood pressure have primary or "essential" hypertension. Secondary causes may be renal (glomerulonephritis, reninproducing tumors), vascular (polyarteritis nodosa), endocrine (Cushing's disease, thyrotoxicosis, pheochromocytoma, oral contraception use) or neurogenic (increased intracranial pressure) in origin. Renovascular hypertension accounts for approximately 2% of total cases. In the current case, this patient's hypertension appears to be related to her right renal artery stenosis, and hence, involves the renin-angiotensinaldosterone system. The pathophysiology is as follows: Renal artery stenosis causes decreased blood flow into one of the kidneys: This results in a lowered blood pressure within the cortex of that kidney. The cells of the juxta-glomerular apparatus which line the afferent arteriole leading into the glomerulus, react to the decreased blood pressure by secreting renin. Renin is a protease that splits the plasma protein angiotensinogen into angiotensin I. On the surface of endothelial cells is angiotensin converting enzyme which converts angiotensin I to angiotensin II. It is angiotensin II which is the active factor that raises blood pressure. It does this directly by inducing smooth muscle contraction, and also stimulates the adrenal cortex to secrete aldosterone. Aldosterone (mineralocorticoid) acts on the kidney by promoting the reabsorption of sodium, and the secretion of potassium. Sodium retention leads to hypervolemia. In the current case, the finding of significantly increased plasma renin levels unilaterally, as well as the ultrasound finding of right renal atrophy is diagnostic. Causes of renal artery stenosis include atherosclerosis, arteritis and fibromuscular dysplasia. TREATMENT Renovascular hypertension typically responds well to treatment with ACE inhibitors for obvious reasons. Surgery, in the form of angioplasty or nephrectomy, may be curative The ACEI have three drugs belonging to them : Captopril Enalapril Lisinopril Drug interactions, Patient Counseling, and Comment: If the patient was on diuretics then it is necessary to advice the patient to stop the diuretics one week before the initiation of the ACEI. This is so because together they may cause hypovolemia hence leading to shocks. Also, it must be noted that by using ACEI, there is a tendency of hyperkalemia. This in the elderly is dangerous as there might hence be adverse effects on the heart of the patient as it may cause bradycardia and may lead to heart failure. It is hence advisable that the patient should avoid OTC and other medications containing potassium in it. ACEI do not have any interaction with Zocor. 0The patient should also avoid any precipitating factor of hypertension. The intake of diuretics with Atenilol (looking at her prescription of drugs) leads to an enhanced hypotensive effects which may hence lead to ventricular arrhythemias. Daily monitoring of blood pressure is essential. _______________________________________________________________________________ 4.4 CASE STUDY # 4 HISTORY OF PRESENT ILLNESS: A 67 year-old Hispanic female, born and raised in McAllen, Texas, was referred to a pulmonologist because of severe asthma. Her asthma symptoms began during childhood and were controlled with Marex, an over-the-counter combination of a bronchodilator and antihistamine used to treat asthma. She never had to be hospitalized, but required frequent visits to the ER for asthma exacerbations. During youth her symptoms became quiescent and she was able to practice sports while in college. Five years prior to this visit her asthma relapsed, with symptoms including chest pressure, cough, shortness of breath and wheezing. She is unable to identify any triggers for her asthma exacerbations. However, her symptoms are worse at the end of the week. Before the asthma exacerbations she frequently develops itching and increased secretions in her eyes and nose. Her asthma symptoms have become progressively worse. She now has symptoms every day and night, and over the past year she has received several courses of oral prednisone to control asthma exacerbations. She is afraid of cortisone side effects, and would rather not use that medication. She was also prescribed inhaled beclomethasone (Beclovent), albuterol (Ventolin), and theophylline (Slobid). She has not used Beclovent since December 1993, and prior to that she used it very irregularly. She believes Beclovent is a steroid, does not work, and is too expensive. During the past six months she has had seven ER visits for asthma exacerbations, and has missed 21 days at work. She uses two to three canisters of Ventolin per month. She describes no medicine allergies and has never been allergy tested. She works in a textile factory, does not smoke, but is exposed to environmental tobacco smoke because her grand sons , with whom she lives, smoke. There are a cat and two dogs where she lives. One of the dogs is a Chihuahua recently acquired because of the belief that this type of dog can ameliorate asthma symptoms. She has a sister with asthma and hay fever. Both parents are dead and her mother suffered from diabetes. As part of her evaluation, she showed poor technique in the use of MDIs, and lack of knowledge about environmental control and asthma triggers. She feels she could lose her job if she continues missing work due to her asthma. She does not want to use steroids, she prefers to have the interview in English, and she expresses a desire to be trained in asthma management. Physical Exam: The physical examination revealed a slightly obese Latin American female in mild respiratory distress. She is normocephalic, pupils are symmetrical and reactive, conjunctiva are hyperemic. Nasal mucosa are edematous, pink, with increased clear secretions. No polyps. Pharynx is slightly hyperemic without exudates. Neck is unremarkable. Chest is symmetrical. Auscultation shows diffuse expiratory wheezes in both lung fields without crackles or ronchi. Heart rate is 100 and regular. No murmurs. Rest of physical exam is within normal limits. Laboratory: Differential blood count : Hb 13.2, WBCs 10500 Neutrophils 64%, Lymphocytes 20%, Eosinophils 6% URINE AND BLOOD ANALYSIS BUN 18 Creatinine 0.7 Glucose 103 Uric Acid 3.1 Cholesterol 234 Triglycerides 106 Calcium 9.3 Phosphorus 2.8 Total Protein 6.7 Albumin 4.1 Glob 2.5 Total Bilirrubin 0.9 Alk Phos. 69 ALT 21 AST 33 LDH 256 Ig E Level: 790 CXR: Normal Spirometry: FVC is 85% or predicted FEV1 is 65% of predicted. FEV1/FVC ratio is 67%. Improvement in FEV1 after inhaled albuterol: 22%. Allergy testing revealed allergies to dust mites, cats, dogs, and grass. Assessment A diagnosis of asthma is indicated based on the patient's history of recurrent cough, wheezing and shortness of breath since childhood. The presence of wheezing during physical examination and the reversible airway obstruction documented on spirometry confirm the diagnosis. The high eosinophil count, high Ig E level and positive results of her allergy testing point toward an allergic origin for her asthma. Management The management plan is directed at improving asthma control through more effective use of medications and removal of environmental allergens. At present she is using high doses of inhaled bronchodilators, but is not using inhaled corticosteroids adequately. Several possible aggravating factors are present in the environment: a work place where she may be exposed to textile byproducts known to trigger asthma problems, and could explain why her asthma is worse at the end of the week; tobacco smoke at ho me; pets at home (dogs and cats). Her medication regimen should include an inhaled corticosteroid (Beclomethasone), initially 4 puffs 4 times per day until symptoms are stabilized. Later she may lower her dose to a 3 times/day regimen. She will continue to use Ventolin (albuterol) on a ‘when needed basis’, keeping a record of how much medicine she is using. The medication regimen should be kept as simple as possible to reduce the cost of medications and to increase patient compliance. The patient is at high risk of diabetes in view of her Mexican-American origin, family history of diabetes in her mother, obesity and a borderline high blood glucose value. Patient Counselling and Education A session will be scheduled with her husband present in order to review the following: 1) The concept of asthma as a chronic inflammatory problem which requires continuous anti-inflammatory medication, even during symptom-free periods. Need for anti-inflammatory medication. The anti-inflammatory medication in her case will be an inhaled corticosteroid (Beclomethasone). Because of her fear of "steroids," the following points will be emphasized: the need for regular use of anti-inflammatory medications, the advantage of using inhaled vs. systemic steroids, and the difference between corticosteroids and anabolic steroids, the different actions of inhaled corticosteroids and inhaled bronchodilators and the need to use beclomethasone regu larly in order for it to be effective. 2) The use of metered dose inhalers (MDIs). She should be trained in the correct use of inhalers. 3) Identification of environmental triggers. The patient should be trained to keep a diary and measure her peak flow rates twice a day in order to establish a pattern between her symptoms, flow rates and environmental circumstances. 4) The environmental changes that may be required to control her asthma. In the session with her grandsons, who smoke, the adverse effect of tobacco smoke on the patient, should also be emphasized. The pets situation should be addressed, particularly the fact that asthma is not improved by owning a chihuahua dog. The results of her allergy testing will be stressed to support the need to remove the pets from the home environment. She should hence be advised to wear a mask in her work environment to avoid the inhalation of allergens that may worsen asthama. 5) Her risk of diabetes. The importance of weight control through proper dietary habits and simple exercise must be emphasized on. 4.5 CASE STUDY #5 CASE HISTORY Mr. H.C is 70 years old and weighs 75kg. He presents with symmetrical polyarticular arthritis and fever. He has very painful red and swollen metacarpophalangeal joints, wrists, elbows and knees. On admission, he was taking Digoxin 125ug/day, Frusemide 40mg/day, Warfarin 3mg/day and Isosorbid mononitrate 20mg twice daily. He is a non-smoker, who enjoys a glass of wine. The house officer has commenced Azapropazone 600mg twice daily. Diagnosis : Gout Acute management of the case and Drug-Drug interactions. The treatment options in this case are NSAIDs, Colchicine, or intra-articular steroids. Azapropazone, which is a non-steroidal anti-inflammatory drug has tendency to cause rashes and is associated with an increased risk of gastrointestinal toxicity. It is however not a good choice to use Azapropazone because the patient is on Warfarin. Azopropazone usually interacts with Warfarin by displacement of Warfarin from protein binding sites and inhibits its hepatic metabolism, hence prolonging its action. In addition, all NSAIDs will aggravate heart failure by sodium and water retention and may cause gastro-intestinal side-effects in the elderly. Thus Azopropazone must hence be stopped and treatment should start with Colchicine. Colchicine is effective for acute gout, with treatment commencing with 1mg initially followed by 500ug/ every 3 hours until pain is reduced or sideeffects occur or until a maximum dose of 10mg is reached. It is effective especially in patients with hypertension or those receiving diuretics in cardiac failure, those with gastro-intestinal toxicity, bleeding diathesis or renal impairment. Intra-articular steroids are effective and work within 12-24 hours, but the differential diagnosis of joint infection must be carefully made. Intraarticular steroids are unlikely to effect this patient’s heart failure. It wont be effective if the patient started prophylactic therapy. These intra-articular steroids can provide quick relief when only one or two joints are involved. It is advisable that the patients stops Frusemide to avoid further acute attacks. Only patients who have more than 2 acute attacks are usually considered for long term therapy. Starting uricosuric therapy or allopurinol will prevent the acute attack from setting and may hence precipitate another attack. Allopurinol should be considered for patients who suffer from recurrent gouty attacks. It reduces uric acid production by inhibiting the enzyme xanthine oxidase. Allopurinol is not active but undergoes hepatic conversion to its active metabolite oxipurinol. Oxipurinol may accumulate in patients with renal failure, those with gout and those receiving thiazide diuretics in whom volume contraction and hypovolemia may occur. Allopurinol may prolong an attack or it may precipitate another, and thus it should not be commenced until an attack has subsided Relationship between Gout and Diuretic therapy The main side-effect in all diuretics is hyperuricemia which hence leads to gout. They decrease the excretion of uric acid hence depositing it in the bones and joints. This will hence result in gout which may present as acute synovitis but sometimes takes the form of a generalized arthritis that may be misdiagnosed as osteoarthritis or rheumatoid arthritis. Drug-drug interactions It is wrong for the patient to take digoxin and Frusemide (diuretics) at the same time as Frusemide can cause hypokalemia hence increasing the toxicity of digoxin. It is however best if Amiloride which is a potassium sparing diuretic is taken instead. Potassium supplements should be added to the regimen if the doctor insists on Frusemide. It is however not a good choice to use Azapropazone because the patient is on Warfarin. Azopropazone usually interacts with Warfarin by displacement of Warfarin from protein binding sites and inhibits its hepatic metabolism, hence prolonging its action Patient counseling and advice The patient should be advised to reduce his alcohol intake, lose weight, commence a low saturated fat diet and avoid vigorous exercise. He should reduce his dietary salt intake and avoid low dose aspirin. He should be however advised to continue his anti-hypertensive medication. Alcohol and Gout Heavy drinkers are always known to suffer gout despite treatment with Allopurinol and NSAIDs. This poor response to treatment may be due to antagonism of the effect of allopurinol, as ethanol contributes to hyperuricemia by increasing the production of uric acid and impairing its excretion in the urine. __________________________________________________________________ 4.6 CASE STUDY # 6 History A 70-year-old man presents with enlargement of left anterior neck. He has noted increased appetite over past month with no weight gain, and more frequent bowel movements over the same period. Physical Exam He is 5'8" tall and weighs 150 lb. The heart rate is 82 and the blood pressure is 110/76. There is an ocular stare with a slight lid lag. The thyroid gland is asymmetric to palpation, weighing an estimated 40g (normal = 15-20g). There is a 3 x 2.5 cm firm nodule in left lobe of the thyroid. PREDICTION: Probable hyperthyroidism REASON The history of increased appetite (without weight gain) and increased bowel motility is classic for hyperthyroidism. The resting heart rate is mildly elevated, which is consistent but is a common finding in physician's offices. The findings of an ocular stare, lid lag, and an enlarged thryoid are also consistent with hyperthyroidism. The orbital symptoms noted in this case are most typically associated with Grave's disease and result from inflammation and swelling of retro-orbital tissues (this effect is separate from the elevation in thryoid hormone). However, in this case the thyroid is asymmetrical and contains a nodule, whereas the thyroid gland in Grave's disease is symmetrically enlarged and homogeneous. LABORATORY TESTS Initial evaluation of a patient's thyroid status is most commonly done by measuring thryoid stimulating hormone (TSH) concentration in the serum, which is a sensitive indicator of the body's perception of its own thryoid status. In hyperthyroidism, TSH concentration is markedly decreased (the converse is true in hypothyroidism). Usually, serum free T4 will be measured as well and can serve as a confirmatory test for the TSH findings. In some labs, free T4 assay is not routinely available; similar data can be derived from measuring total T4 and T3 resin uptake, and calculating the Free Thyroxine Index (FTI) which is proportional to free T4. In this patient, there is a nodule associated with the thyroid gland. This finding might result from thyroid pathology but might also indicate a parathyroid adenoma (which would appear in the same area). Thus it is prudent to check the patient's calcium status. Active parathyroid adenomas produce hypercalcemia and may also be associated with marked elevations in circulating alkaline phosphatase (due to active bone resorption). The test results for this patient were as follows (S = measured in serum): Patient's value Calcium, total (S) 10.6 mg/dl Phosphorus 4.8 mg/dl Alkaline phosphatase (S) 160 U/L T4, Total (S) 12.2 ug/dl T3 resin uptake (S) 35% T3, Total (S) 311 ng/dl TSH (S) <0.1 uU/ml Free thyroxine index (FTI) 14.6 Reference range 8.4 - 10.2 2.7 - 4.5 49 - 120 5 - 11.5 25 - 35 100 - 215 0.7 -7.0 6 - 11.5 Interpretation of the above results: The most important result is the strongly suppressed TSH. The remainder of the thyroid tests are also consistent with hyperthyroidism (elevated FTI and T3). The tests for parathyroid problems do not rule out a parathyroid process (though the alkaline phosphatase is only very mildly elevated). Since the patient is an elderly, it is likely that the increase of calcium is associated with aging. FURTHER TESTING Additional testing should directly address the possibility of Grave's disease and should also determine the nature of the nodule associated with the thyroid (testing so far has been inconclusive regarding the nodule). Grave's disease is strongly associated with the presence of anti-thyroid microsomal antibodies, while other antibodies against thyroid epitopes (e.g., thyroglobulin) occur in Hashimoto's thyroiditis. Furthermore, the thyroid hyperfunction that occurs in Grave's disease can be assessed directly by measuring the rate radio-iodine uptake into the thyroid gland. Serum was obtained for anti-thyroid antibody testing and the following results were obtained: Patient Normal Antithyroglobulin Ab. neg. neg. Antimicrosomal Ab. pos. (1:1280) neg. A thyroid scan to evaluate the uptake of radioactive iodine into the thyroid gland showed 68% uptake at 6 hr and 54% uptake at 24 hr after treatment with iodine123 (normal 5 - 28% uptake at these time points). The radio-iodine uptake was homogeneously increased over the entire gland except in the area of the palpable nodule, where uptake was decreased. INTERPRETATION OF THE ABOVE RESULTS The anti-thyroid antibody tests and radio-iodine uptake results make a diagnosis of Grave's disease solid at this point. However, the finding that radioiodine uptake is decreased in the area of the nodule suggests that there is an additional problem in the thyroid gland that is separate from Grave's disease. DIAGNOSIS AND COURSE The finding of a low radio-iodine uptake into the palpable nodule suggests that a thyroid neoplasm might be present. A tissue diagnosis is needed to fully evaluate that possibility, so a fine needle aspirate (FNA) of the nodule was made and the cytology of the recovered cells was examined. The diagnosis from the FNA was papillary carcinoma of the thyroid, and the final diagnosis for the patient was: Grave's disease with papillary carcinoma Course The patient underwent surgical thyroidectomy followed by thyroid hormone replacement therapy. Later, he was scanned for residual thyroid tissue, which was ablated with iodine-131. He underwent periodic serum thyroglobulin analysis and iodine-131 scans, which remained negative over a two-year course. Recently, ocular tearing and itching with proptosis were noted on physical exam. COMMENT It is important to remember that Grave's disease is a systemic autoimmune process that has hyperthyroidism as one of it's manifestations. The removal of the thyroid gland cures the hyperthyroidism, but not the other symptoms of Grave's disease--which include the ocular symptoms. 4.7 CASE STUDY # 7 Patient history : C.D is a 74 years old male. Three months ago, the patient experienced a mottled, blue coloration of his left toe; a few weeks later, he noted similar changes of his right toes. His past medical history includes a myocardial infarct, four-vessel coronaryartery bypass-graft surgery, non-insulin-dependent diabetes mellitus, hypercholesterolemia, hypertension, peripheral vascular disease, a cerebral vascular accident, and former tobacco use. His medications include amiodarone, diltiazem, hydrochlorothiazide, and simvastatin. He was admitted to the peripheral vascular service at the New York Harbor Health Care System Medical Center and was started on clopidogrel. He later underwent axillo-bifemoral bypass surgery with resection of the common iliac arteries and partial amputation of the left second toe. Physical examination Mottled, reticulated, violaceous coloration involved his left toes, most prominently on the plantar aspects of the medial toes and the distal plantar surface of his left foot, with milder involvement of his right toes. All toes were tender to palpation. His distal left second toe exhibited a black coloration. Pitting edema involved his lower legs. Dorsalis pedis and posterior tibial artery pulses were not palpable in either foot. Laboratory data A complete blood count was normal except for a hematocrit of 37.8%. An erythrocyte sedimentation rate was 118 mm/hr, and a C-reactive protein 11.2 mg/dl. A blood chemistry profile, C3 and C4 proteins, and protein C and S activities were normal. Antinuclear antibody, lupus anticoagulant, and hepatitic serologies were negative. Arteriograms showed ulcerated plaques in the right common iliac artery and stenosis of the left popliteal artery. An abdominal computed tomography scan showed atherosclerotic disease of the abdominal aorta and iliac arteries, with a thrombus in the distal abdominal aorta. Diagnosis : cholestrol emboli Cholesterol emboli are a common complication of advanced atherosclerotic disease. Cholesterol crystals dislodged from plaques travel through the circulation until they become trapped in smaller vessels, which leads to ischemia and infarction. Risk factors include older age, male sex, hypertension, diabetes mellitus, smoking, and aortic aneurysms. Precipitating factors include anticoagulation, thrombolysis, invasive vascular procedures, and vascular surgery; clinical signs of embolization usually occur within days after a vascular procedure. Typically, one or both distal lower extremities are involved. Purple-blue toe syndrome presents as the sudden appearance of a small, cool, cyanotic and painful area of the foot, usually a toe. Pulses may remain normal. Pain and myalgias are common. Other sites of involvement include the buttocks, lower back, and lower abdomen. Extracutaneous manifestations include acute or progressive renal failure, with refractory hypertension. Abdominal discomfort, nausea, vomiting, diarrhea, and gastrointestinal bleeding may occur; less frequently, intestinal infarction and perforation develop, and rarely, hepatitis and pancreatitis. Transient ischemic attacks, cerebral infarcts, amaurosis fugax, paralysis, altered mental status, and gradual deterioration of neurologic function may occur. Other systemic manifestations include retinal ischemia and infarction, fevers, and weight loss. Diagnosis may be challenging because embolization has a random and variable distribution and may mimic a variety of disorders, which include thrombotic arterial or septic embolic occlusion, vasopastic disorders, and vasculitis. Histological confirmation is made by biopsy of the target organs, which include kidneys, muscle, and skin. Skin biopsy specimens show cholesterol clefts in dermal arterioles that are associated with amorphous eosinophilic material or foreign-body giant-cell reactions. Vascular walls demonstrate intimal fibrosis and often obliteration of lumina in older lesions. Fibrin thrombi also may be noted. Drug-drug interaction when viewing his medications: 1) Amiodarone when taken with Deltiazem will increase the risk of Bradycardia, AV block and myocardial depression 2) When taking Amiodarone with thiazides we must be very careful and avoid the occurrence of hypokalemia as it increases cardiac toxicity. 3) Diuretics with calcium channel blockers enhance hypotensive effects. 4) With all the above medications it is not advisable to include anticoagualnts as they may cause severe drug-drug interactions like: The metabolism of anti-coagulants will be inhibited by Amiodarone. With Clopidogrel their effects will be enhanced. Simvustatin enhances the anticoagulant effects. Management : is directed towards limiting progression of tissue ischemia and prevention of further embolism. Currently, there are no effective therapies. Anticoagulation should be avoided as it is not preventative and may precipitate or exaggerate the degree of embolization. HMG-CoA reductase inhibitors may stabilize and induce regression of atheromatous plaques. The value of antiplatelet agents and pentoxifylline has not been extablished. Surgical and invasive vascular procedures should be limited as much as possible. The prognosis of cholesterol emboli is quite poor, with one year mortality rates ranging between 64 and 87 percent. Causes of death are most commonly related to cardiac disease, ruptured aortic aneurysms, and central nervous system and gastrointestinal ischemia _______________________________________________________________________ 4.8 CASE-STUDY # 8 Case and Patient History: A 70-year-old man is brought to the clinic by his daughter. Since the death of his wife 7 months ago he has lost 15 pounds of weight. He does not eat or sleep well and has stopped playing golf with his friends - something he had loved doing since his retirement. He spends most of his time repeatedly cleaning out the attic and rearranging the contents of the trunks there. He denies smoking or alcohol. Review of systems is otherwise negative. Past medical history is significant for a supraventricular tachyarrhythmia for which he takes atenolol, and seizures, of which the last episode was 3 years ago. Physical examination reveals a somewhat emaciated male, but is otherwise unremarkable. Discussion. The presence of severe symptoms extending beyond 3-6 months is suggestive of an abnormal grief reaction. Depression is not a diagnosis of exclusion. While it is a good idea to keep a high level of suspicion for malignancy, this patient has enough clues to suggest depression that treatment should be started. The atenolol that he takes could be an important factor in this scenario. Beta-blockers can cause or aggravate depression, especially in the elderly. If his depression is difficult to treat or the need for beta-blockers is not absolute, one may consider stopping or changing medications. The sleep and appetite disorders are common presentations of depression in the elderly. Elderly patients often present with vegetative symptoms as the first signs of depression. Younger patients are more likely to present with subjective dysphoria or a feeling of sadness. Medications that can be given and the consequences: Doxepin has anticholinergic side effects which make it a less optimal choice in this elderly patient. The history of arrhythmia further rules it out. While bupropion has few side effects, it does lower the seizure threshold and so it would be contraindicated in this patient. Due to his obsessive behavior pattern, fluoxetine would be a good choice for this patient. Fluoxetine has been found to be useful in patients with obsessivecompulsive disorder. Being an SSRI it is safer in older patients. Thus it may be the ideal antidepressant in this patient Patient counselling -Take the medication every day -Expect noticeable improvement from the medication in 2 4 weeks -Continue taking the medication even if you feel better -Do not stop taking the medication without notifying your physician -Contact your physician with any question ________________________________________________________ 4.9 Case-study # 9 Discharge Diagnosis: 1. Chronic obstructive pulmonary disease. 2. Pulmonary embolism. 3. Hypothyroidism. 4. Degenerative joint disease. History of Present Illness: This patient is an 83 year old white female who presents with a chief complaint of increasing dyspnea on exertion over the past 7 days, in addition to a dry cough. She denies any history of chest pain, PND, orthopnea, fever, chills, nausea or vomiting. In addition, she denies any history of cold or flu exposure. The patient does have a significant history of prior tobacco use of approximately 80 pack years, however, she states she quit smoking 10 years prior to admission. The patient was seen in the Outpatient Clinic on the day of admission and was found to be in respiratory distress with an ABG of 7.46, PCO2 of 38, PO2 52 and 88.6% on room air. Therefore, she is being admitted for COPD exacerbation, rule out pneumonia, and rule out MI. Past Medical History 1. Graves' disease with diplopia in 1969 treated with iodine. Also has a history of Hashimoto's disease. 2. History of stroke in 1989 which was determined to be in the right cerebellar distribution. 3. Obscure history of dyspnea on exertion in 1989 at the time of the stroke workup. ABG at that time was 7.36, 38, 60, PO2 of 91% post exercise. Past Surgical History 1. History of DJD, L2-L5 surgery in 1961 and 1985. 2. History of TAH/BSO in 1956 secondary to menorrhagia. 3. Hemorrhoidectomy in 1965. 4. Left shoulder surgery years ago. Past Social History She has an 80 pack year history of smoking. She quit 10 years ago after her husband's death secondary to throat cancer. She has a history of occasional alcohol. She received a flu shot in 10/93. She is an ex-nurse pulmonary technician at a health insitute. She currently lives alone, is in close contact with her niece and nephew and has many friends. Past Family History Her husband passed away of throat cancer and father passed away of pernicious anemia Physical Exam In general, she is a well developed, well groomed, elderly white female, alert and oriented times 3, pleasant and a good historian. Temperature 36.8, heart rate 80, respirations 24, blood pressure 150/70. Oropharynx clear Positive dentures. Neck supple. No bruits. No JVD. Lungs: Positive expiratory wheezes throughout. Heart: Regular rate and rhythm. No S3, S4. No murmurs or rubs. Abdomen: Positive bowel sounds, nontender, nondistended, no organomegaly. Well healed midline scar.Femoral pulses 2+ bilaterally. Extremities: 2+ DT pulses. No clubbing. Positive varicosities noted in the distal lower extremities. 1+ edema in the medial malleolus area bilaterally. Neuro Exam: Alert and oriented times 4. Cranial nerves II-XII intact. Reflexes bilaterally symmetric and 1+ throughout. Motor Exam: Upper extremities 5/5 bilateral, lower extremities 4/5 bilaterally. Sensory: Proprioception and light touch sensation intact. Cerebellar: Normal finger-to-nose. Rectal Exam: Two small external hemorrhoids, no inflammation. Stool brown, guaiac negative. Lab Data CBC: White count 6.1, H&H 12.8/37.7. Sodium 142, potassium 3.8, chloride 103, bicarb 29, BUN 18, creatinine 0.8. Chest x-ray without evidence of infiltrate. Small blunting of the right costophrenic angle. EKG: Normal sinus rhythm. No evidence of acute ST changes. Poor R wave progression in V2, V3. Hospital Course The patient was admitted to the ICU with probable COPD exacerbation with admission blood gas of 7.46, 38, 52 and 88% sat on room air. She was aggressively treated with IV Solu-Medrol, Atrovent, albuterol, Azmacort. However, despite aggressive therapy she continued to have difficulty moving air. She was also treated with IV antibiotics including cefuroxime and erythromycin for possible infection, although none was ever localized and the patient remained afebrile with no leukocytosis throughout her hospital stay. On 1/18 the patient did develop an episode of retrosternal pressure-like chest pain rated 10/10 which was then relieved with two sublingual nitroglycerin. Nitropaste was placed, however, the patient developed recurrent similar chest pain radiating to her back and left side. With that history the patient was evaluated by the cardiology fellow and was transferred to the CCU team for further care and rule out MI. Upon arrival in the CCU the patient described her pain as very pleuritic in nature, so in addition to an echocardiogram a VQ scan was scheduled. Lower extremity Dopplers were also performed which were negative. The VQ scan initially came back as high probability. It was then decided by the attending not to pursue pulmonary angiogram, but treat the patient for probable pulmonary embolism. A TEE was performed which had no remarkable findings, however, upon return from this exam on 1/21/94 the patient did begin complaining of severe abdominal pains. Her exam at that time was remarkable for positive bowel sounds, but notable rebound in the right lower quadrant greater than the right upper quadrant in addition to 2+ right lower quadrant tenderness. Given her history of pulmonary embolus there was concern of possible ischemic bowel vs. another acute abdominal process. The PS Service was consulted and followed the patient for her abdominal pain. Serial exams revealed that the pain eventually resolved on its own. She did obtain an abdominal CT which revealed no evidence of any abnormalities other than a large gallbladder. Over time the patient's abdominal pain resolved and her respiratory status stabilized with inhaler treatments and IV steroids. She was then transferred to the 5-West Ward for further care. Upon discharge the patient is much less dyspneic except she does have trouble when ambulating on her own. It was then decided that although the patient was living alone prior to her hospital admission that she should be discharged to XXX for further rehabilitation. Over time the patient's PT did become in the therapeutic range on Coumadin. Therefore, he patient will be discharged to Country XXXX for further care. ______________________________________________________________________________ 5.0 Case- Study # 10 Patient history A 60-year-old landscape architect was admitted because of a visual defect. Past history of an irritable bowel syndrome for 1 1/2 years. Three weeks PTA, because of exacerbation of symptoms, she was placed on azulfadine for "ulcerative colitis". Two weeks PTA she developed continuous headaches behind her right eye. One week PTA she first noted visual hallucinations (stationary colored prisms and flashing lights). One day PTA, she saw an ophthalmologist who recorded a normal examination and suggested migraine headaches. On the day of admission, she noticed loss of vision in the left visual field (115 read as 15) and came to the ER. One month PTA she had had a dental crown replaced. Physical exam On physical exam, she had a temperature of 38.4 degrees C and a normal neurologic exam except for a left inferior visual field defect. No papilledema. Stool guaiac positive. Laboratory findings within normal limits except for a hematocrit 33% and ESR 50. Toxoplasma serology negative. CT SCAN CT scan with contrast revealed a 2.0cm diameter ring enhancing mass in the right occipital lobe with edema extending into the posterior temporal and parietal lobes. Partial opacification of the right maxillary sinus also noted. Diagnosis Brain abscess Management and discussion Patient placed on penicillin and chloramphenicol for suspected brain abscess and dilantin to prevent seizures. Repeat visual field exam revealed left homonymous hemianopsia. Symptoms of headache and fever improved. However, two weeks after admission, a repeat CT scan showed enlargement of the right occipital lobe ring enhancing lesion (3.5 cm diameter) with angulation of the anterior aspect and increased surrounding edema causing a mass effect with displacement of the glomus at the lateral ventricle and a mild midline shift. The next clinical decision is to place the patient on Decadron. This is so as to reduce edema. Also, the patient was adviced to perform a right occipital craniotomy. At surgery, an abscess containing creamy colored, odorless material was incised and drained. Gram stain of purulent material showed gram positive cocci in pairs and chains. Pathology of the surgical specimen revealed acute and chronic inflammation and a fibrous capsule. Eradication of the pathogen Cultures grew Streptococcus anginosis. Penicilliin and chloramphenicol were continued. The patient did well and was discharged two weeks postoperative. Comment on the drugs used in this case Penicillin, which is a bactericidal and acts by interfering with bacterial cell wall synthesis. It diffuses well into body tissues and fluids, but penetration into the cerebrospinal fluid is poor except when the meninges are inflammed. It is excreted in the urine in therapeutic concentrations. Chloramphenicol is a potent broad spectrum antibiotic. It must be given with care as it may cause serious haematological side-effects when given systemically and should therefore be reserved for the treatment of life threatening infections. It interacts with Dilantin and increases its metabolism. Decadron is a corticosteroid (Dexamethasone) and increases the excretion of sodium and water hence relieving edema. The metabolism of dexamthasone is enhanced by anti-epileptics, thus it is useful to increase the dose of corticosteroids. _________________________________________________________________