Positron Emission Tomography, Heart

Synonym/acronym: PET scan of the heart.

Common use

To assess blood flow and metabolic process of the heart to assist in diagnosis of disorders such as coronary artery disease, infarct, and aneurysm.

Area of application

Heart, chest/thorax, vascular system.

Contrast

IV radioactive material (fluorodeoxyglucose [FDG]).

Description

Positron emission tomography (PET) combines the biochemical properties of nuclear medicine with the accuracy of computed tomography (CT). PET uses positron emissions from specific radionuclides (oxygen, nitrogen, carbon, and fluorine) to produce detailed functional images within the body. After the radionuclide becomes concentrated in the heart, PET images of blood flow or metabolic processes at the cellular level can be obtained. Fluorine-18, in the form of fluorodeoxyglucose (FDG), is one of the more commonly used radionuclides. FDG is a glucose analogue, and because every cell uses glucose, the metabolic activity occurring in heart conditions such as myocardial viability can be measured. There is little localization of FDG in normal tissue, allowing rapid detection of abnormal disease states.

The positron radiopharmaceuticals generally have short half-lives, ranging from a few seconds to a few hours, and therefore they must be produced in a cyclotron located near where the test is being done. The PET scanner translates the emissions from the radioactivity as the positron combines with the negative electrons from the tissues and forms gamma rays that can be detected by the scanner. This information is transmitted to the computer, which determines the location and its distribution and translates the emissions as color-coded images for viewing, quantitative measurements, activity changes in relation to time, and three-dimensional computer-aided analysis. Each radionuclide tracer is designed to measure a specific body process, such as glucose metabolism, blood flow, or tissue perfusion. The radionuclide can be administered IV or inhaled as a gas.

The expense of the study and the limited availability of radiopharmaceuticals limit the use of PET, even though it is more sensitive than traditional nuclear scanning and single-photon emission computed tomography. Changes in reimbursement and the advent of mobile technology have increased the availability of this procedure in the community setting.

This procedure is contraindicated for

high alertPatients who are pregnant or suspected of being pregnant, unless the potential benefits of a procedure using radiation far outweigh the risk of radiation exposure to the fetus and mother.

Indications

Assess tissue permeability
Determine the effects of therapeutic drugs on malfunctioning or diseased tissue
Determine localization of areas of heart metabolism
Determine the presence of coronary artery disease (CAD), as evidenced by metabolic state during ischemia and after angina
Determine the size of heart infarcts
Identify cerebrovascular accident or aneurysm, as evidenced by decreasing blood flow and oxygen use

Potential diagnosis

Normal findings

Normal patterns of tissue metabolism, blood flow, and radionuclide distribution

Abnormal findings related to

Chronic obstructive pulmonary disease
Decreased blood flow and decreased glucose concentration (indicating necrotic, scarred tissue)
Enlarged left ventricle
Heart chamber disorder
Myocardial infarction (indicating increased radionuclide uptake in the myocardium)
Pulmonary edema
Reduced blood flow but increased glucose concentration (indicating ischemia)

Critical findings

N/A

Interfering factors

Factors that may impair clear imaging
- Inability of the patient to cooperate or remain still during the procedure because of age, significant pain, or mental status.
- Drugs that alter glucose metabolism, such as tranquilizers or insulin, because hypoglycemia can alter PET results.
- The use of alcohol, tobacco, or caffeine-containing drinks at least 24 hr before the study, because the effects of these substances would make it difficult to evaluate the patient’s true physiological state (e.g., alcohol is a vasoconstrictor and would decrease blood flow to the target organ).
- Metallic objects (e.g., jewelry, body rings) within the examination field, which may inhibit organ visualization and cause unclear images.
Other considerations
- Failure to follow dietary restrictions before the procedure may cause the procedure to be canceled or repeated.
- Improper injection of the radionuclide that allows the tracer to seep deep into the muscle tissue produces erroneous hot spots.
- False-positive findings may occur as a result of normal gastrointestinal tract uptake and uptake in areas of infection or inflammation.
- Consultation with a health-care provider (HCP) should occur before the procedure for radiation safety concerns regarding younger patients or patients who are lactating. Pediatric & Geriatric Imaging Children and geriatric patients are at risk for receiving a higher radiation dose than necessary if settings are not adjusted for their small size. Pediatric Imaging Information on the Image Gently Campaign can be found at the Alliance for Radiation Safety in Pediatric Imaging (www.pedrad.org/associations/5364/ig/).
- Risks associated with radiation overexposure can result from frequent x-ray or radionuclide procedures. Personnel working in the examination area should wear badges to record their level of radiation exposure.

Nursing Implications and Procedure

Pretest

Positively identify the patient using at least two unique identifiers before providing care, treatment, or services.
Patient Teaching: Inform the patient this procedure can assist in assessing blood flow to the heart.
Obtain a history of the patient’s complaints or clinical symptoms, including a list of known allergens, especially allergies or sensitivities to latex, anesthetics, sedatives, or radionuclides.
Obtain a history of the patient’s cardiovascular and respiratory systems, symptoms, and results of previously performed laboratory tests and diagnostic and surgical procedures.
Note any recent procedures that can interfere with test results, including examinations using barium- or iodine-based contrast medium.
Record the date of the last menstrual period and determine the possibility of pregnancy in perimenopausal women.
Obtain a list of the patient’s current medications, including herbs, nutritional supplements, and nutraceuticals (see Effects of Natural Products on Laboratory Values online at DavisPlus).
Review the procedure with the patient. Address concerns about pain related to the procedure and explain that some pain may be experienced during the test, or there may be moments of discomfort. Reassure the patient that radioactive material poses minimal radioactive hazard because of its short half-life and rarely produces side effects. Inform the patient that the procedure is performed in a special department, usually in a radiology suite, by an HCP specializing in this procedure, with support staff, and takes approximately 60 to 120 min.
Sensitivity to social and cultural issues, as well as concern for modesty, is important in providing psychological support before, during, and after the procedure.
Explain that an IV line may be inserted to allow infusion of IV fluids such as normal saline, anesthetics, sedatives, radionuclides, medications used in the procedure, or emergency medications.
Sometimes FDG examinations are done after blood has been drawn to determine circulating blood glucose levels. If blood glucose levels are high, insulin may be given.
Instruct the patient to remove jewelry and other metallic objects from the area to be examined prior to the procedure.
Instruct the patient to avoid taking anticoagulant medication or to reduce dosage as ordered prior to the procedure.
Instruct the patient to restrict food for 4 hr; restrict alcohol, nicotine, or caffeine-containing drinks for 24 hr; and withhold medications for 24 hr before the test. Protocols may vary among facilities.
Make sure a written and informed consent has been signed prior to the procedure and before administering any medications.

Intratest

Potential complications:
Although it is rare, there is the possibility of allergic reaction to the radionuclide. Have emergency equipment and medications readily available. If the patient has a history of allergic reactions to any substance or drug, administer ordered prophylactic steroids or antihistamines before the procedure.
Establishing an IV site and injecting radionuclides is an invasive procedure. Complications are rare but do include bleeding from the puncture site related to a bleeding disorder, or the effects of natural products and medications known to act as blood thinners; hematoma related to blood leakage into the tissue following needle insertion; infection that might occur if bacteria from the skin surface is introduced at the puncture site; or nerve injury that might occur if the needle strikes a nerve.
Observe standard precautions, and follow the general guidelines in Patient Preparation and Specimen Collection. Positively identify the patient.
Ensure that the patient has complied with dietary, fluid, and medication restrictions and pretesting preparations.
Ensure the patient has removed all jewelry and external metallic objects from the area to be examined prior to the procedure.
Administer ordered prophylactic steroids or antihistamines before the procedure if the patient has a history of allergic reactions to any substance or drug.
Avoid the use of equipment containing latex if the patient has a history of allergic reaction to latex.
Have emergency equipment readily available.
Instruct the patient to void prior to the procedure and to change into the gown, robe, and foot coverings provided.
Record baseline vital signs and assess neurological status. Protocols may vary among facilities.
Establish an IV fluid line for the injection of saline, anesthetics, sedatives, radionuclides, or emergency medications.
Instruct the patient to cooperate fully and to follow directions. Ask the patient to remain still throughout the procedure because movement produces unreliable results.
Record baseline vital signs and assess neurological status. Protocols may vary among facilities.
Place the patient in the supine position on an examination table.
The radionuclide is injected and imaging is done at periodic intervals, with continuous scanning done for 1 hr. If comparative studies are indicated, additional injections may be needed.
Monitor the patient for complications related to the procedure (e.g., allergic reaction, anaphylaxis, bronchospasm).
Remove the needle or catheter and apply a pressure dressing over the puncture site.
Observe/assess the needle site for bleeding, inflammation, or hematoma formation.

Post-Test

Inform the patient that a report of the results will be made available to the requesting HCP, who will discuss the results with the patient.
Instruct the patient to resume pretest diet, fluids, medications, and activity.
Observe for delayed allergic reactions, such as rash, urticaria, tachycardia, hyperpnea, hypertension, palpitations, nausea, or vomiting.
Instruct the patient to immediately report symptoms such as fast heart rate, difficulty breathing, skin rash, itching, chest pain, persistent right shoulder pain, or abdominal pain. Immediately report symptoms to the appropriate HCP.
Observe/assess the needle/catheter insertion site for bleeding, inflammation, or hematoma formation.
Instruct the patient to apply cold compresses to the puncture site as needed, to reduce discomfort or edema.
Instruct the patient to drink increased amounts of fluids for 24 to 48 hr to eliminate the radionuclide from the body, unless contraindicated. Educate the patient that radionuclide is eliminated from the body within 6 to 24 hr.
Instruct the patient to flush the toilet immediately after each voiding and to meticulously wash hands with soap and water for 24 hr after the procedure.
Instruct all caregivers to wear gloves when discarding urine for 24 hr after the procedure. Wash gloved hands with soap and water before removing gloves. Then wash hands after the gloves are removed.
If a woman who is breastfeeding must have a nuclear scan, she should not breastfeed the infant until the radionuclide has been eliminated, about 3 days. Instruct her to express the milk and discard it during the 3-day period to prevent cessation of milk production.
No other radionuclide tests should be scheduled for 24 to 48 hr after this procedure.
Nutritional Considerations: Abnormal findings may be associated with cardiovascular disease. Nutritional therapy is recommended for the patient identified to be at risk for developing CAD or for individuals who have specific risk factors and/or existing medical conditions (e.g., elevated LDL cholesterol levels, other lipid disorders, insulin-dependent diabetes, insulin resistance, or metabolic syndrome). Other changeable risk factors warranting patient education include strategies to encourage patients, especially those who are overweight and with high blood pressure, to safely decrease sodium intake, achieve a normal weight, ensure regular participation in moderate aerobic physical activity three to four times per week, eliminate tobacco use, and adhere to a heart-healthy diet. If triglycerides also are elevated, the patient should be advised to eliminate or reduce alcohol. The 2013 Guideline on Lifestyle Management to Reduce Cardiovascular Risk published by the American College of Cardiology (ACC) and the American Heart Association (AHA) in conjunction with the National Heart, Lung, and Blood Institute (NHLBI) recommends a “Mediterranean”-style diet rather than a low-fat diet. The new guideline emphasizes inclusion of vegetables, whole grains, fruits, low-fat dairy, nuts, legumes, and nontropical vegetable oils (e.g., olive, canola, peanut, sunflower, flaxseed) along with fish and lean poultry. A similar dietary pattern known as the Dietary Approaches to Stop Hypertension (DASH) diet makes additional recommendations for the reduction of dietary sodium. Both dietary styles emphasize a reduction in consumption of red meats, which are high in saturated fats and cholesterol, and other foods containing sugar, saturated fats, trans fats, and sodium.
Recognize anxiety related to test results, and be supportive of perceived loss of independent function. Discuss the implications of abnormal test results on the patient’s lifestyle. Provide teaching and information regarding the clinical implications of the test results, as appropriate.
Reinforce information given by the patient’s HCP regarding further testing, treatment, or referral to another HCP. Answer any questions or address any concerns voiced by the patient or family.
Depending on the results of this procedure, additional testing may be needed to evaluate or monitor progression of the disease process and determine the need for a change in therapy. Evaluate test results in relation to the patient’s symptoms and other tests performed.

Related Monographs

Related tests for cardiac indications include anion gap, antiarrhythmic drugs, apolipoprotein A and B, arterial/alveolar oxygen ratio, AST, ANP,α₁-AT, biopsy lung, blood gases, blood pool imaging, BNP, bronchoscopy, calcium, ionized calcium, carboxyhemoglobin, chest x-ray, chloride sweat, cholesterol (total, HDL, and LDL), CRP, CBC, CT cardiac scoring, CT thoracic, CK and isoenzymes, culture and smear for mycobacteria, culture bacterial sputum, culture viral, cytology sputum, echocardiography, echocardiography transesophageal, ECG, electrolytes, exercise stress test, glucose, glycated hemoglobin, gram stain, Hgb, Holter monitor, homocysteine, ketones, LDH and isoenzymes, lipoprotein electrophoresis, magnesium, MRI chest, MI infarct scan, IgE, lactic acid, lung perfusion scan, lung ventilation scan, myocardial perfusion heart scan, myoglobin, osmolality, pericardial fluid analysis, phosphorus, plethysmography, pleural fluid analysis, PET heart, PFT, potassium, pulse oximetry, TB skin test, and triglycerides. Related tests for pulmonary indications includeα₁-AT, anion gap, arterial/alveolar oxygen ratio, biopsy lung, bronchoscopy, carboxyhemoglobin, chest x-ray, chloride sweat, CBC, CBC hemoglobin, CBC WBC count and differential, culture and smear for mycobacteria, culture bacterial sputum, culture viral, cytology sputum, electrolytes, gram stain, IgE, lactic acid, lung perfusion scan, lung ventilation scan, osmolality, phosphorus, plethysmography, pleural fluid analysis, and pulse oximetry.
Refer to the Cardiovascular and Respiratory systems tables at the end of the book for related tests by body system.

单词	positron emission tomography, heart
释义	Positron Emission Tomography, Heart Positron Emission Tomography, Heart Synonym/acronym: PET scan of the heart. Common use To assess blood flow and metabolic process of the heart to assist in diagnosis of disorders such as coronary artery disease, infarct, and aneurysm. Area of application Heart, chest/thorax, vascular system. Contrast IV radioactive material (fluorodeoxyglucose [FDG]). Description Positron emission tomography (PET) combines the biochemical properties of nuclear medicine with the accuracy of computed tomography (CT). PET uses positron emissions from specific radionuclides (oxygen, nitrogen, carbon, and fluorine) to produce detailed functional images within the body. After the radionuclide becomes concentrated in the heart, PET images of blood flow or metabolic processes at the cellular level can be obtained. Fluorine-18, in the form of fluorodeoxyglucose (FDG), is one of the more commonly used radionuclides. FDG is a glucose analogue, and because every cell uses glucose, the metabolic activity occurring in heart conditions such as myocardial viability can be measured. There is little localization of FDG in normal tissue, allowing rapid detection of abnormal disease states. The positron radiopharmaceuticals generally have short half-lives, ranging from a few seconds to a few hours, and therefore they must be produced in a cyclotron located near where the test is being done. The PET scanner translates the emissions from the radioactivity as the positron combines with the negative electrons from the tissues and forms gamma rays that can be detected by the scanner. This information is transmitted to the computer, which determines the location and its distribution and translates the emissions as color-coded images for viewing, quantitative measurements, activity changes in relation to time, and three-dimensional computer-aided analysis. Each radionuclide tracer is designed to measure a specific body process, such as glucose metabolism, blood flow, or tissue perfusion. The radionuclide can be administered IV or inhaled as a gas. The expense of the study and the limited availability of radiopharmaceuticals limit the use of PET, even though it is more sensitive than traditional nuclear scanning and single-photon emission computed tomography. Changes in reimbursement and the advent of mobile technology have increased the availability of this procedure in the community setting. This procedure is contraindicated for high alertPatients who are pregnant or suspected of being pregnant, unless the potential benefits of a procedure using radiation far outweigh the risk of radiation exposure to the fetus and mother. Indications Assess tissue permeability Determine the effects of therapeutic drugs on malfunctioning or diseased tissue Determine localization of areas of heart metabolism Determine the presence of coronary artery disease (CAD), as evidenced by metabolic state during ischemia and after angina Determine the size of heart infarcts Identify cerebrovascular accident or aneurysm, as evidenced by decreasing blood flow and oxygen use Potential diagnosis Normal findings Normal patterns of tissue metabolism, blood flow, and radionuclide distribution Abnormal findings related to Chronic obstructive pulmonary disease Decreased blood flow and decreased glucose concentration (indicating necrotic, scarred tissue) Enlarged left ventricle Heart chamber disorder Myocardial infarction (indicating increased radionuclide uptake in the myocardium) Pulmonary edema Reduced blood flow but increased glucose concentration (indicating ischemia) Critical findings N/A Interfering factors Factors that may impair clear imaging Inability of the patient to cooperate or remain still during the procedure because of age, significant pain, or mental status. Drugs that alter glucose metabolism, such as tranquilizers or insulin, because hypoglycemia can alter PET results. The use of alcohol, tobacco, or caffeine-containing drinks at least 24 hr before the study, because the effects of these substances would make it difficult to evaluate the patient’s true physiological state (e.g., alcohol is a vasoconstrictor and would decrease blood flow to the target organ). Metallic objects (e.g., jewelry, body rings) within the examination field, which may inhibit organ visualization and cause unclear images. Other considerations Failure to follow dietary restrictions before the procedure may cause the procedure to be canceled or repeated. Improper injection of the radionuclide that allows the tracer to seep deep into the muscle tissue produces erroneous hot spots. False-positive findings may occur as a result of normal gastrointestinal tract uptake and uptake in areas of infection or inflammation. Consultation with a health-care provider (HCP) should occur before the procedure for radiation safety concerns regarding younger patients or patients who are lactating. Pediatric & Geriatric Imaging Children and geriatric patients are at risk for receiving a higher radiation dose than necessary if settings are not adjusted for their small size. Pediatric Imaging Information on the Image Gently Campaign can be found at the Alliance for Radiation Safety in Pediatric Imaging (www.pedrad.org/associations/5364/ig/). Risks associated with radiation overexposure can result from frequent x-ray or radionuclide procedures. Personnel working in the examination area should wear badges to record their level of radiation exposure. Nursing Implications and Procedure Pretest Positively identify the patient using at least two unique identifiers before providing care, treatment, or services. Patient Teaching: Inform the patient this procedure can assist in assessing blood flow to the heart. Obtain a history of the patient’s complaints or clinical symptoms, including a list of known allergens, especially allergies or sensitivities to latex, anesthetics, sedatives, or radionuclides. Obtain a history of the patient’s cardiovascular and respiratory systems, symptoms, and results of previously performed laboratory tests and diagnostic and surgical procedures. Note any recent procedures that can interfere with test results, including examinations using barium- or iodine-based contrast medium. Record the date of the last menstrual period and determine the possibility of pregnancy in perimenopausal women. Obtain a list of the patient’s current medications, including herbs, nutritional supplements, and nutraceuticals (see Effects of Natural Products on Laboratory Values online at DavisPlus). Review the procedure with the patient. Address concerns about pain related to the procedure and explain that some pain may be experienced during the test, or there may be moments of discomfort. Reassure the patient that radioactive material poses minimal radioactive hazard because of its short half-life and rarely produces side effects. Inform the patient that the procedure is performed in a special department, usually in a radiology suite, by an HCP specializing in this procedure, with support staff, and takes approximately 60 to 120 min. Sensitivity to social and cultural issues, as well as concern for modesty, is important in providing psychological support before, during, and after the procedure. Explain that an IV line may be inserted to allow infusion of IV fluids such as normal saline, anesthetics, sedatives, radionuclides, medications used in the procedure, or emergency medications. Sometimes FDG examinations are done after blood has been drawn to determine circulating blood glucose levels. If blood glucose levels are high, insulin may be given. Instruct the patient to remove jewelry and other metallic objects from the area to be examined prior to the procedure. Instruct the patient to avoid taking anticoagulant medication or to reduce dosage as ordered prior to the procedure. Instruct the patient to restrict food for 4 hr; restrict alcohol, nicotine, or caffeine-containing drinks for 24 hr; and withhold medications for 24 hr before the test. Protocols may vary among facilities. Make sure a written and informed consent has been signed prior to the procedure and before administering any medications. Intratest Potential complications: Although it is rare, there is the possibility of allergic reaction to the radionuclide. Have emergency equipment and medications readily available. If the patient has a history of allergic reactions to any substance or drug, administer ordered prophylactic steroids or antihistamines before the procedure. Establishing an IV site and injecting radionuclides is an invasive procedure. Complications are rare but do include bleeding from the puncture site related to a bleeding disorder, or the effects of natural products and medications known to act as blood thinners; hematoma related to blood leakage into the tissue following needle insertion; infection that might occur if bacteria from the skin surface is introduced at the puncture site; or nerve injury that might occur if the needle strikes a nerve. Observe standard precautions, and follow the general guidelines in Patient Preparation and Specimen Collection. Positively identify the patient. Ensure that the patient has complied with dietary, fluid, and medication restrictions and pretesting preparations. Ensure the patient has removed all jewelry and external metallic objects from the area to be examined prior to the procedure. Administer ordered prophylactic steroids or antihistamines before the procedure if the patient has a history of allergic reactions to any substance or drug. Avoid the use of equipment containing latex if the patient has a history of allergic reaction to latex. Have emergency equipment readily available. Instruct the patient to void prior to the procedure and to change into the gown, robe, and foot coverings provided. Record baseline vital signs and assess neurological status. Protocols may vary among facilities. Establish an IV fluid line for the injection of saline, anesthetics, sedatives, radionuclides, or emergency medications. Instruct the patient to cooperate fully and to follow directions. Ask the patient to remain still throughout the procedure because movement produces unreliable results. Record baseline vital signs and assess neurological status. Protocols may vary among facilities. Place the patient in the supine position on an examination table. The radionuclide is injected and imaging is done at periodic intervals, with continuous scanning done for 1 hr. If comparative studies are indicated, additional injections may be needed. Monitor the patient for complications related to the procedure (e.g., allergic reaction, anaphylaxis, bronchospasm). Remove the needle or catheter and apply a pressure dressing over the puncture site. Observe/assess the needle site for bleeding, inflammation, or hematoma formation. Post-Test Inform the patient that a report of the results will be made available to the requesting HCP, who will discuss the results with the patient. Instruct the patient to resume pretest diet, fluids, medications, and activity. Observe for delayed allergic reactions, such as rash, urticaria, tachycardia, hyperpnea, hypertension, palpitations, nausea, or vomiting. Instruct the patient to immediately report symptoms such as fast heart rate, difficulty breathing, skin rash, itching, chest pain, persistent right shoulder pain, or abdominal pain. Immediately report symptoms to the appropriate HCP. Observe/assess the needle/catheter insertion site for bleeding, inflammation, or hematoma formation. Instruct the patient to apply cold compresses to the puncture site as needed, to reduce discomfort or edema. Instruct the patient to drink increased amounts of fluids for 24 to 48 hr to eliminate the radionuclide from the body, unless contraindicated. Educate the patient that radionuclide is eliminated from the body within 6 to 24 hr. Instruct the patient to flush the toilet immediately after each voiding and to meticulously wash hands with soap and water for 24 hr after the procedure. Instruct all caregivers to wear gloves when discarding urine for 24 hr after the procedure. Wash gloved hands with soap and water before removing gloves. Then wash hands after the gloves are removed. If a woman who is breastfeeding must have a nuclear scan, she should not breastfeed the infant until the radionuclide has been eliminated, about 3 days. Instruct her to express the milk and discard it during the 3-day period to prevent cessation of milk production. No other radionuclide tests should be scheduled for 24 to 48 hr after this procedure. Nutritional Considerations: Abnormal findings may be associated with cardiovascular disease. Nutritional therapy is recommended for the patient identified to be at risk for developing CAD or for individuals who have specific risk factors and/or existing medical conditions (e.g., elevated LDL cholesterol levels, other lipid disorders, insulin-dependent diabetes, insulin resistance, or metabolic syndrome). Other changeable risk factors warranting patient education include strategies to encourage patients, especially those who are overweight and with high blood pressure, to safely decrease sodium intake, achieve a normal weight, ensure regular participation in moderate aerobic physical activity three to four times per week, eliminate tobacco use, and adhere to a heart-healthy diet. If triglycerides also are elevated, the patient should be advised to eliminate or reduce alcohol. The 2013 Guideline on Lifestyle Management to Reduce Cardiovascular Risk published by the American College of Cardiology (ACC) and the American Heart Association (AHA) in conjunction with the National Heart, Lung, and Blood Institute (NHLBI) recommends a “Mediterranean”-style diet rather than a low-fat diet. The new guideline emphasizes inclusion of vegetables, whole grains, fruits, low-fat dairy, nuts, legumes, and nontropical vegetable oils (e.g., olive, canola, peanut, sunflower, flaxseed) along with fish and lean poultry. A similar dietary pattern known as the Dietary Approaches to Stop Hypertension (DASH) diet makes additional recommendations for the reduction of dietary sodium. Both dietary styles emphasize a reduction in consumption of red meats, which are high in saturated fats and cholesterol, and other foods containing sugar, saturated fats, trans fats, and sodium. Recognize anxiety related to test results, and be supportive of perceived loss of independent function. Discuss the implications of abnormal test results on the patient’s lifestyle. Provide teaching and information regarding the clinical implications of the test results, as appropriate. Reinforce information given by the patient’s HCP regarding further testing, treatment, or referral to another HCP. Answer any questions or address any concerns voiced by the patient or family. Depending on the results of this procedure, additional testing may be needed to evaluate or monitor progression of the disease process and determine the need for a change in therapy. Evaluate test results in relation to the patient’s symptoms and other tests performed. Related Monographs Related tests for cardiac indications include anion gap, antiarrhythmic drugs, apolipoprotein A and B, arterial/alveolar oxygen ratio, AST, ANP,α₁-AT, biopsy lung, blood gases, blood pool imaging, BNP, bronchoscopy, calcium, ionized calcium, carboxyhemoglobin, chest x-ray, chloride sweat, cholesterol (total, HDL, and LDL), CRP, CBC, CT cardiac scoring, CT thoracic, CK and isoenzymes, culture and smear for mycobacteria, culture bacterial sputum, culture viral, cytology sputum, echocardiography, echocardiography transesophageal, ECG, electrolytes, exercise stress test, glucose, glycated hemoglobin, gram stain, Hgb, Holter monitor, homocysteine, ketones, LDH and isoenzymes, lipoprotein electrophoresis, magnesium, MRI chest, MI infarct scan, IgE, lactic acid, lung perfusion scan, lung ventilation scan, myocardial perfusion heart scan, myoglobin, osmolality, pericardial fluid analysis, phosphorus, plethysmography, pleural fluid analysis, PET heart, PFT, potassium, pulse oximetry, TB skin test, and triglycerides. Related tests for pulmonary indications includeα₁-AT, anion gap, arterial/alveolar oxygen ratio, biopsy lung, bronchoscopy, carboxyhemoglobin, chest x-ray, chloride sweat, CBC, CBC hemoglobin, CBC WBC count and differential, culture and smear for mycobacteria, culture bacterial sputum, culture viral, cytology sputum, electrolytes, gram stain, IgE, lactic acid, lung perfusion scan, lung ventilation scan, osmolality, phosphorus, plethysmography, pleural fluid analysis, and pulse oximetry. Refer to the Cardiovascular and Respiratory systems tables at the end of the book for related tests by body system.
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Positron Emission Tomography, Heart