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Myocardial diseases therapy

Replacement therapy of hypothyroidism. Whether primary, i.e caused by thyroid disease, or secondary, i.e resulting from TSH deficiency, hypothyroidism is treated by oral administration of T4. Since too rapid activation of metabolism entails the hazard of cardiac overload (angina pectoris, myocardial infarction), therapy is usually started with low doses and gradually increased. The final maintenance dose required to restore a euthyroid state depends on individual needs (approx. [Pg.244]

Oral Oral dosage forms are preferable for less urgent arrhythmias as well as for long-term maintenance after initial parenteral therapy. Individualize dosage based on clinical assessment of the degree of underlying myocardial disease, the patient s age and renal function. ... [Pg.428]

In summary, the findings of early Phase I and II clinical trials suggest subjective and objective improvements in patients with ischemic lower-extremity or myocardial disease, and merit further investigation in additional Phase II, and pivotal Phase III and IV clinical studies. Issues that need to be addressed in these studies include limitations and safety profiles, definition of the populations that would benefit from this therapy, determination of... [Pg.322]

Lathi, K. G., Cespedes, R. M., Losordo, D. W., Vale, P. R., Symes, J. E, and Isner, J. M. 1999. Direct intra-myocardial gene therapy with Vegf for inoperable coronary artery disease Preliminary clinical results. Anesthesia and Analgesia, 88, U78-U78. [Pg.369]

Other Cardiovascular Agents Effecting Atherosclerosis. A large amount of clinical data is available concerning semm Upid profiles in patients subjected to dmg therapy for other cardiovascular diseases. Atheroma, for example, may be the underlying cause of hypertension and myocardial infarction. There are on the order of 1.5 million heart attacks pet year in the United States (155). [Pg.131]

A third study (85) enrolled 7825 hypertensive patients (55% males and 45% females) having diastoHc blood pressures (DBP) of 99—104 mm Hg (13—14 Pa) there were no placebo controls. Forty-six percent of the patients were assigned to SC antihypertensive dmg therapy, ie, step 1, chlorthaUdone step 2, reserpine [50-55-5] or methyldopa [555-30-6], and step 3, hydralazine [86-54-4]. Fifty-four percent of the patients were assigned to the usual care (UC) sources in the community. Significant reductions in DBP and in cardiovascular and noncardiovascular deaths were noted in both groups. In the SC group, deaths from ischemic heart disease increased 9%, and deaths from coronary heart disease (CHD) and acute myocardial infarctions were reduced 20 and 46%, respectively. [Pg.212]

Thrombolytic Enzymes. Although atherosclerosis and the accompanying vascular wall defects are ultimately responsible for such diseases as acute pulmonary embolism, arterial occlusion, and myocardial infarction, the lack of blood flow caused by a fibrin clot directly results in tissue injury and in the clinical symptoms of these devastating diseases (54). Thrombolytic enzyme therapy removes the fibrin clot by dissolution, and has shown promise in the treatment of a number of thrombo-occlusive diseases (60). [Pg.309]

To control risk factors and prevent major adverse cardiac events, statin therapy should be considered in all patients with ischemic heart disease, particularly in those with elevated low-density lipoprotein cholesterol. In the absence of contraindications, angiotensin-converting enzyme inhibitors should be considered in ischemic heart disease patients who also have diabetes melli-tus, left ventricular dysfunction, history of myocardial infarction, or any combination of these. Angiotensin receptor blockers... [Pg.63]

Treatment of sinus bradycardia is only necessary in patients who become symptomatic. If the patient is taking any med-ication(s) that may cause sinus bradycardia, the drug(s) should be discontinued whenever possible. If the patient remains in sinus bradycardia after discontinuation of the drug(s) and after five half-lives of the drug(s) have elapsed, then the drugs(s) can usually be excluded as the etiology of the arrhythmia. In certain circumstances, however, discontinuation of the medication(s) may be undesirable, even if it may be the cause of symptomatic sinus bradycardia. For example, if the patient has a history of myocardial infarction or HF, discontinuation of a (3-blocker is undesirable, because (3-blockers have been shown to reduce mortality and prolong life in patients with those diseases, and the benefits of therapy with... [Pg.113]

Randomized trials have been completed assessing the role of antiplatelet therapy with aspirin for primary stroke prevention. The use of aspirin in patients with no history of stroke or ischemic heart disease reduced the incidence of non-fatal myocardial infarction (MI) but not of stroke. A meta-analysis of eight trials found that the risk of stroke was slightly increased with aspirin use, especially hemorrhagic stroke. Major bleeding risk was also increased with aspirin use.4 Aspirin is beneficial in the primary prevention of MI, but not for primary stroke prevention. [Pg.169]

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See also in sourсe #XX -- [ Pg.4 , Pg.655 ]

See also in sourсe #XX -- [ Pg.655 ]



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Disease therapy

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