Cardiac Amyloidosis Imaging, Part 1: Amyloidosis Etiology and Image Acquisition PDF

Summary

This article provides an overview of cardiac amyloidosis, a systemic form of amyloidosis where protein-based infiltrates deposit in myocardial tissue. It explores the etiology and characteristics of this condition, including types, prevalence, and disease progression, focusing on the use of 99mTc-pyrophosphate imaging.

Full Transcript

CONTINUING EDUCATION

Cardiac Amyloidosis Imaging, Part 1: Amyloidosis Etiology
and Image Acquisition
Monica Embry-Dierson1, Mary Beth Farrell2, Eric Schockling3, Jaime Warren4, and Scott Jerome5
1
Noninvasive Cardiology, Norton Audubon Hospital, Louisville, Kentucky; 2Intersocietal Accreditation Commission, Ellicott City,
Maryland; 3Outpatient Cardiovascular Diagnostics, Norton Healthcare, LLC, Louisville, Kentucky; 4MedAxiom, Neptune Beach,
Florida; and 5University of Maryland School of Medicine, Westminster, Maryland

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Key Words: cardiac amyloid imaging; cardiac amyloidosis; transthyr-
Cardiac amyloidosis is a systemic form of amyloidosis in which etin; light-chain; 99mTc-pyrophosphate
protein-based infiltrates are deposited in myocardial extracellular J Nucl Med Technol 2023; 51:83–89
space. The accumulation of amyloid fibrils causes the myocardium DOI: 10.2967/jnmt.123.265415
to thicken and stiffen, leading to diastolic dysfunction and, eventu-
ally, heart failure. Until recently, cardiac amyloidosis was consid-
ered rare. However, the recent adoption of noninvasive diagnostic
testing, including 99mTc-pyrophosphate imaging, has revealed a
previously undiagnosed sizable disease prevalence. Light-chain
amyloidosis (AL) and transthyretin amyloidosis (ATTR), the 2 pri-
A myloidosis is a collection of diseases characterized by
deposits of protein-based infiltrates within the body’s tis-
mary types, account for 95% of cardiac amyloidosis diagnoses. AL
results from plasma cell dyscrasia and has a very poor prognosis.
sues. There are several amyloid subtypes based on the type
The usual treatment for cardiac AL is chemotherapy and immuno- of protein deposited (1). Until recently, cardiac amyloidosis
therapy. Cardiac ATTR is more chronic, usually resulting from age- was considered rare in the United States. However, the
related instability and misfolding of the transthyretin protein. ATTR increased use of noninvasive diagnostic testing, such as
is treated by managing heart failure and using new pharmacothera- 99m
Tc-pyrophosphate imaging, has led to increased diagno-
peutic drugs. 99mTc-pyrophosphate imaging can efficiently and ses of what may have otherwise been unrecognized cases of
effectively distinguish between ATTR and cardiac AL. Although the
exact mechanism of myocardial 99mTc-pyrophosphate uptake is
cardiac amyloidosis (2). Attention to detail is imperative
unknown, it is believed to bind to amyloid plaque microcalcifica- when gathering the patient’s history, administering the
tions. 99mTc-pyrophosphate imaging has a 97% sensitivity and radiopharmaceutical, and acquiring images to ensure quality
nearly 100% sensitivity for identifying cardiac ATTR when the AL and accurate diagnosis of the disease.
form of the disease is ruled out through serum free light-chain and This article is the first part of a 3-part series in this issue of
serum and urine protein electrophoresis with immunofixation test- the Journal of Nuclear Medicine Technology examining the
ing. Although there are no published 99mTc-pyrophosphate cardiac
utility of 99mTc-pyrophosphate imaging to diagnose cardiac
amyloidosis imaging guidelines, the American Society of Nuclear
Cardiology, Society of Nuclear Medicine and Molecular Imaging, amyloidosis. Part 1 begins with a discussion of the etiology
and others have published consensus recommendations to stan- of amyloidosis in general and then details cardiac amyloid-
dardize test performance and interpretation. This article, part 1 of osis, including information about the types, prevalence, signs
a 3-part series in this issue of the Journal of Nuclear Medicine and symptoms, and disease course. The last section of part 1
Technology, describes amyloidosis etiology and cardiac amyloid- outlines the 99mTc-pyrophosphate image acquisition protocol.
osis characteristics, including the types, prevalence, signs and
Part 2 explains the processing and quantification of 99mTc-
symptoms, and disease course. It further explains the scan acqui-
sition protocol. Part 2 of the series focuses on image/data quantifi- pyrophosphate scans, including semiquantitative grading and
cation and technical considerations. Finally, part 3 describes scan heart–to–contralateral-lung ratios, and discusses several proto-
interpretation, along with the diagnosis and treatment of cardiac col technical considerations (3). Finally, part 3 concludes the
amyloidosis. series by discussing scan interpretation, cardiac amyloidosis
diagnosis, and treatment (4).

WHAT IS AMYLOIDOSIS?
Received Jan. 5, 2023; revision accepted Feb. 16, 2023.
For correspondence or reprints, contact Mary Beth Farrell (marybethfarrell2016@
gmail.com).
Amyloidosis refers to a collective group of rare diseases
COPYRIGHT ! 2023 by the Society of Nuclear Medicine and Molecular Imaging. in which there are deposits of protein-based infiltrates

CARDIAC AMYLOIDOSIS, PART 1: ACQUISITION ! Embry-Dierson et al. 83
within the extracellular tissue space (1). Proteins perform a transthyretin amyloidosis (ATTR), and serum amyloid A
wide range of essential functions throughout the body, such amyloidosis. AL is caused by an overabundance and mis-
as catalyzing chemical reactions, providing structural support, folding of light-chain proteins. Light-chain proteins are
regulating cellular membrane transport, protecting against dis- antibody components or immunoglobulins (immune system
eases, and coordinating cell signaling pathways (5). It is esti- proteins in serum and cells) produced by plasma cells in the
mated that there are as many as 100,000 different proteins in bone marrow that fight off infection. There are 2 types of
the human body (6). Proteins fold and bend into precise light chains: k and l.
shapes based on the sequence of amino acids. A protein’s spe- Although light-chain amyloid fibrils can build up in any
cific function is directly related to its 3-dimensional shape. organ, they most frequently affect the heart and kidneys.
Proteins must maintain their specific shape (5). If the pro- However, light-chain fibrils can also accumulate in periph-
tein loses its normal shape, or misfolds, it cannot function eral nerves (e.g., carpal tunnel syndrome), liver, skin, and
properly. Usually, when proteins misfold, the body disassem- the gastrointestinal system. AL is acquired and typically
bles and removes them with specialized enzymes called diagnosed in individuals over 50 y old. It is lethal because
proteasomes. However, if the body does not remove the mis- of its rapid progression (Fig. 1).
folded proteins, they can accumulate within various organs in ATTR results from the misfolding of the transthyretin
the extracellular tissue. In amyloid disease, long, unbranched protein, a protein that used to be called prealbumin. The
strings of misfolded proteins, called fibrils, several micro- ATTR protein is generated by the liver and involved in
meters in length, have an extremely stable structure resistant the transportation of thyroxine (a hormone secreted by the
to dismantling and removal by cellular processes (2). thyroid gland affecting digestion, heart function, muscle
The accumulation of amyloid fibrils eventually impairs function, brain development, and bone maintenance) and
the affected organ’s function. Think of it like a neighbor- retinol-binding protein (a protein responsible for transport-
hood with a stockpile of broken-down, junked cars parked ing vitamin A) (7). ATTR can affect multiple organs,
on the streets (the amyloid fibrils are the junked end- including the heart, peripheral nerves, and autonomic ner-
product of the misfolded proteins). The junked cars stock- vous system. When amyloid is deposited in the autonomic
pile, blocking the parking places and the driving lanes for nervous system, it can affect bladder, digestive, and genital
normally operating cars. Eventually, traffic ceases, and the function.
neighborhood shuts down. In amyloid, the fibrils displace Serum amyloid A amyloidosis is caused by misfolding of
normally functioning structures in a similar fashion. serum amyloid A protein and fibril formation. Serum amyloid
Amyloid fibrils can deposit in any tissue or organ in the A protein is produced in the liver and is involved in inflam-
body, such as the brain, skin, or heart, causing amyloidosis matory responses. It commonly deposits in the kidney and
(5). Different clinical manifestations and diseases result, liver and can affect individuals at any age. It can be involved
depending on the organ and protein deposited (2). For in long-term inflammatory conditions such as rheumatoid
example, the deposition of b-amyloid proteins between arthritis, Crohn disease, tuberculosis, or osteomyelitis.
brain neurons creates plaques that block communication Because many types of amyloidosis can affect different
and disrupt cell function in Alzheimer disease. As another and multiple organs and tissues, causing a plethora of
example, deposits of serum amyloid A protein in the kidney symptoms, it can be challenging to diagnose. For example,
or liver can cause long-term inflammatory conditions. amyloidosis affecting the kidneys can cause fatigue, as can
Over 30 different amyloid diseases have been identified. amyloidosis affecting the heart. As another example, amy-
Interestingly, all amyloid is morphologically or structurally loidosis of the heart can cause shortness of breath, but so
similar despite the abnormal protein involved. How amyloid can amyloidosis of the respiratory system.
can be morphologically homogeneous compared with the
heterogeneity of organ involvement and clinical syndromes WHAT IS CARDIAC AMYLOIDOSIS?
is a mystery. Cardiac amyloidosis is a systemic form of amyloidosis
in which the protein-based infiltrates deposit in myocardial
TYPES
tissue along with other tissues throughout the body. The
Classification of amyloid is based on the abnormal pro- accumulation of amyloid fibrils causes the myocardium to
tein involved and whether it is confined to a single organ thicken and stiffen, leading to diastolic dysfunction. Dia-
(localized) or spread throughout the body (systemic) (5). stolic dysfunction progresses to restrictive cardiomyopathy
Localized, or organ-specific, amyloidosis involves a single and, eventually, congestive heart failure (8).
organ. Although it can occur in any organ or tissue, amy- Until recently, cardiac amyloidosis was considered rare.
loidosis frequently affects the skin, bladder, eyes, lungs, or However, the recent adoption of noninvasive diagnostic test-
brain. Alzheimer disease, which affects the brain, is the ing has revealed a previously undiagnosed sizable prevalence
most recognized localized form of the disease. of the disease (2). Cardiac amyloidosis has been identified
The most common types of systemic amyloidosis include as a primary cause of heart failure, particularly unexplained
monoclonal immunoglobulin light-chain amyloidosis (AL), heart failure with preserved ejection fraction (HFpEF) in

84 JOURNAL OF NUCLEAR MEDICINE TECHNOLOGY ! Vol. 51 ! No. 2 ! June 2023
 Unfortunately, cardiac AL, with its poor
prognosis, has a median survival of 6 mo
from the onset of heart failure if left
untreated (13). Treatment focuses on
symptom management and the suppres-
sion of additional light-chain production
and usually entails chemotherapy and
immunotherapy.
Fortunately, cardiac AL is relatively
rare. Men and women are diagnosed at
about the same rate, and diagnosis typi-
cally occurs in patients between the ages
of 40 and 80 y (2). Cardiac AL can be
associated with other immunoglobulin-
related diseases, such as multiple mye-
loma (9).
Cardiac ATTR
Compared with cardiac AL, there is
less evidence of direct toxic effects asso-
ciated with cardiac ATTR. It is subdi-
vided into wild-type ATTR, previously
called senile amyloidosis, and variant, or
hereditary, ATTR.
FIGURE 1. Amyloid molecular mechanisms and imaging characteristics. Source, pro- Wild-type ATTR is the most com-
tein, misfolding, fibril formation, and deposition are depicted for cardiac ATTR and AL. In mon type of cardiac amyloidosis and is
ATTR (both wild-type and variant), transthyretin proteins are secreted by liver, fold considered a chronic disease that occurs
abnormally, and form fibrils that are deposited in myocardium. In AL, immunoglobulin
with aging. Wild-type ATTR accounts
light-chain proteins misfold and form fibrils that are also deposited in myocardium.
Echocardiography, CMR, and PET can detect both types of cardiac amyloidosis. How- for about 80% of cardiac amyloidosis
ever, nuclear imaging with bone-seeking tracers can differentiate between ATTR and AL, cases. Although the overall prevalence
although there is evidence to suggest that a percentage of AL will be positive on nuclear in the general population has not been
imaging. TTR 5 transthyretin; Wt 5 wild-type. (Adapted from (2).) firmly established, on autopsy, nearly
30% of patients over 75 y old with
the elderly (9). Cardiac amyloidosis is so unrecognized and HFpEF without an antemortem suspicion of amyloid disease
underdiagnosed that recent research suggests most patients were found to have wild-type ATTR (14). Similarly, wild-
experience a delay of 2 or more years from when a patient type ATTR has been found in 13% of hospitalized patients
first presents to a physician to when cardiac amyloidosis is
diagnosed (2).
Two subtypes, AL and ATTR, make up approximately
95% of all cardiac amyloid diagnoses (Fig. 2) (10). Other
forms of systemic amyloidosis, such as serum amyloid A
amyloidosis, rarely affect the heart. The responsible proteins,
the phenotypic expression (observable traits), therapy, and
prognosis differ vastly between AL and ATTR. Therefore,
differentiation between the two is essential. However, if left
untreated, both types can lead to heart failure and reduced life
expectancy (11).

Cardiac AL
AL results from plasma cell dyscrasia, the unregulated prolif-
eration of a single plasma cell clone (2). AL prognosis, in gen-
eral, is a function of the number and severity of organs involved.
However, cardiac involvement harbors the worst prognosis
because it has a rapid clinical progression and is rarely diag- FIGURE 2. Common types of cardiac amyloidosis. Two kinds
nosed before symptoms appear. Furthermore, the emergence of amyloidosis account for approximately 95% of all cardiac amy-
of symptoms often signals advanced organ involvement (12). loidosis cases: AL and ATTR.

CARDIAC AMYLOIDOSIS, PART 1: ACQUISITION ! Embry-Dierson et al. 85
with HFpEF and left ventricular wall thickness greater than rhythms; lightheadedness; abdominal distension; and a sense
1.2 cm (15). of overall weakness and fatigue (19). If amyloid is deposited
Wild-type ATTR occurs predominantly in people over in the heart valves, it can lead to regurgitation or stenosis. It is
70 y old and affects men more often than women (16). not uncommon to discover that patients being treated for
Although the factors behind the lower prevalence in women severe aortic stenosis also have ATTR. Treatment for both
have not been elucidated, one study suggested hormonal types of cardiac ATTR includes the management of heart
protection for women against wild-type ATTR (17). Wild- failure symptoms and arrhythmias. In addition, new pharma-
type ATTR is clinically associated with bilateral carpal tun- cotherapeutic drugs are available that can help silence, stabi-
nel syndrome, aortic stenosis, atrial fibrillation, and other lize, or break down errant proteins.
conditions resulting in increased wall thickness (1). The Because amyloidosis is a systemic disease, patients may—
median survival from diagnosis is 57 mo (13). depending on the type of amyloidosis—experience other
Variant ATTR is inherited from a genetic mutation in the symptoms, often called red flags, such as numbness, tingling,
transthyretin gene that affects the amino acid sequence and or pain in the hands or feet. Patients with cardiac amyloidosis
predisposes the protein to misfolding (16). Over 120 variant may have skin changes, such as thickness or easy bruising.
ATTR genotypic mutations have been identified (18). World- Some patients with AL may demonstrate purple patches
wide, the most common mutation is V30M, which is associ- around the eyes (periorbital purpura), sometimes called panda
ated more with sensory or autonomic neuropathy than with or raccoon eyes (20). Macroglossia, an enlarged tongue that
cardiomyopathy. In the United States, the V122I mutation, looks rippled along the edge, is a symptom in patients with
which is more likely to cause cardiomyopathy, is more com- AL (21). Finally, because AL can affect the kidneys and gas-
mon. Again, although the exact prevalence is unknown, it is trointestinal tract, patients may experience increased or de-
estimated that 2 million people in the United States are carriers creased urination, diarrhea, or constipation (22).
and that 3%–4% of African Americans carry the gene (2).
99M
Like wild-type cardiac ATTR, variant cardiac ATTR is TC-PYROPHOSPHATE SCAN ACQUISITION
more common in men and is usually diagnosed between the Because cardiac amyloidosis eventually results in cardiac
ages of 55 and 75 y (1). It is also associated with bilateral dysfunction, a debilitating disease, and because the treatment
carpal tunnel syndrome along with polyneuropathy. The options vastly differ between ATTR and AL, it is critical to
median survival from diagnosis is 31 mo for the V122I form diagnose and differentiate between them. 99mTc-pyrophosphate
and 69 mo for other forms of variant ATTR (Table 1) (13). imaging can efficiently and effectively distinguish between
ATTR and cardiac AL. Although the exact mechanism under-
SIGNS AND SYMPTOMS OF CARDIAC AMYLOIDOSIS
lying 99mTc-pyrophosphate uptake in cardiac amyloidosis is
If left untreated, all forms of cardiac amyloidosis eventually unknown, it has been hypothesized that ATTR amyloid plaque
result in heart failure due to the restrictive nature of the disease contains a higher concentration of microcalcifications that
and diastolic dysfunction. Thus, many patients experience bind with the pyrophosphate, allowing for improved uptake on
the classic symptoms of heart failure, including shortness of nuclear cardiac imaging (Fig. 3) (23). 99mTc-pyrophosphate
breath during exertion and when lying down; swelling in the imaging has a 97% sensitivity and nearly 100% specificity for
feet, ankles, and legs; orthostatic hypotension; irregular heart identifying cardiac ATTR when the AL form of the disease is

TABLE 1
Cardiac Amyloidosis Subtypes and Clinical Characteristics

Frequency of Other organ
Age Sex cardiac involvement or Associated
Subtype Cause Protein range (y) frequency involvement conditions conditions

AL Plasma cell Immunoglobulin 40–80 Men 5 70% Heart, kidney, Multiple myeloma
dyscrasia light chain women gastrointestinal,
tongue, nerves,
liver, soft tissue
Wild-type Aging Transthyretin.70 Men. 100% Heart, peripheral Bilateral carpal
ATTR women nerves tunnel
syndrome,
lumbar spinal
stenosis, atrial
fibrillation,
biceps tendon
rupture
Variant Inherited Transthyretin 55–75 Men. 30%–100% Heart, nerves Bilateral carpal
ATTR genetic women (depending tunnel
mutation on mutation) syndrome,
polyneuropathy

86 JOURNAL OF NUCLEAR MEDICINE TECHNOLOGY ! Vol. 51 ! No. 2 ! June 2023
 Patients with signs of heart failure
and a history of bilateral carpal tunnel
syndrome, unexplained neuropathy, or
atrial arrhythmias are also candidates
for 99mTc-pyrophosphate imaging (19).
In addition, 99mTc-pyrophosphate im-
aging is indicated to differentiate vari-
ant from wild-type cardiac ATTR in
patients with a suspected or known
family history of amyloidosis. Finally,
patients who are believed to have cardiac
FIGURE 3. Abnormal planar and SPECT 99mTc-pyrophosphate cardiac amyloidosis ATTR but have contraindications to car-
scans. (A) 99mTc-pyrophosphate planar anterior image showing avid myocardial uptake. diac MRI, such as implantable devices
(B) SPECT short-axis (top), vertical long-axis (middle), and horizontal long-axis (bottom) or renal insufficiency, are candidates for
images of same patient showing diffuse myocardial uptake. This scan is considered 99mTc-pyrophosphate imaging (2).
diagnostic of ATTR cardiomyopathy if serum and urine studies for AL are negative. (Rep- There are no known contraindica-
rinted from (2).)
tions specific to 99mTc-pyrophosphate
imaging other than the usual nuclear
ruled out by the serum free light-chain ratio and serum and medicine procedure cautions related to pregnancy, breast-
urine protein electrophoresis with immunofixation tests (dis- feeding, and other recent nuclear medicine scans.
cussed in part 3).
Patient Preparation and Education
There are no specific patient restrictions before 99mTc-
Protocol Note
pyrophosphate imaging. Patients may eat, drink, and take
In the literature, several radiopharmaceuticals and imaging
their medications as usual. However, at the time of appoint-
protocols have been used for cardiac amyloidosis imaging
ment scheduling, patients should be warned about the 3-h
over the past 40 y (24). However, with the recent renewed
delay between injection and imaging.
interest in radionuclide imaging, the multitude of protocols
A thorough patient medical history is crucial for accurate
and lack of standardization have caused confusion and mis-
interpretation of 99mTc-pyrophosphate cardiac amyloidosis
diagnosis. In response, the American Society of Nuclear
scans (24). The level of detail required is substantially more
Cardiology and several other professional medical societies,
than necessary for other types of nuclear medicine scans.
including the Society of Nuclear Medicine and Molecular
Thus, a standardized history sheet is useful in ensuring col-
Imaging, published “ASNC/AHA/ASE/EANM/HFSA/ISA/
lection of complete information.
SCMR/SNMMI Expert Consensus Recommendations for
The patient interview should include past medical problems,
Multimodality Imaging in Cardiac Amyloidosis: Part 1 of 2—
specifically those related to heart failure and other cardiac dis-
Evidence Base and Standardized Methods of Imaging” in
eases. The past medical history should also elicit information
2019. The goal was to standardize performance and interpreta-
pertaining to bilateral carpal tunnel syndrome, lumbar spinal
tion to improve quality and patient outcomes (24). In 2021,
stenosis, orthopedic procedures, biceps tendon rupture,
American Society of Nuclear Cardiology and the other
unexplained peripheral neuropathy, and autonomic dysfunc-
societies published an addendum to the recommendations to
tion. In addition, the record needs to include any family history
further refine 99mTc-pyrophosphate imaging (25). The protocol
of amyloidosis, cardiomyopathy, or polyneuropathy.
described below follows those recommendations.
Documentation of current symptoms, even if they do not
seem heart-specific, is necessary to diagnose cardiac amyloid-
Indications and Contraindications
osis. Particular attention must be paid to signs and symptoms
A variety of patient populations may be scheduled for
99m
of heart failure, such as shortness of breath, lower-extremity
Tc-pyrophosphate cardiac amyloidosis imaging. How-
edema, weakness, fatigue, or irregular heartbeat. Finally, the
ever, patients with certain diagnoses present more often than
results of any previous diagnostic tests, including echocardi-
others. Many patients with suspected cardiac amyloidosis
ography, cardiac MRI, electrocardiography, and clinical labo-
have classic symptoms of heart failure. These patients also
ratory testing, must be noted.
often present with unexplained increased left ventricle thick-
ness. Thus, the primary indication for 99mTc-pyrophosphate Radiopharmaceutical
imaging is the evaluation of patients with heart failure and A variety of 99mTc-diphosphonate and pyrophosphate bone-
increased left ventricular wall thickness not associated with seeking agents, specifically 99mTc-pyrophosphate, 99mTc-3,3-
other conditions or reasons. 99mTc-pyrophosphate imaging is diphosphono-1,2-propanodicarboxylic acid (99mTc-DPD), and
&

99m
also indicated for men over 60 y old who may be African Tc-hydroxymethylene diphosphonate (99mTc-HMDP), can
Americans or patients with HFpEF (2). be used to diagnose ATTR cardiomyopathy (24). In the

Introduction of
HeartFatire
CARDIAC AMYLOIDOSIS, PART 1: ACQUISITION ! Embry-Dierson et al. 87
 99m
absence of cardiac amyloidosis or subacute myocardial infarc- Tc-pyrophosphate in the bone continues to increase over
tion, these bone tracers do not accumulate in the myocardium. time. However, myocardial uptake in amyloid disease peaks
Thus, radionuclide imaging can differentiate cardiac amyloid- at about 1 h and then slowly begins to decline. The 99mTc-
osis from other conditions that mimic it, such as hypertrophic pyrophosphate blood pool clearance rate depends on bone
cardiomyopathy. metabolism and renal function. The higher the bone metabo-
Although no studies to date have directly compared the 3 lism along with normal renal function, the faster the 99mTc-
tracers, the published literature suggests they can be used inter- pyrophosphate clears from the blood pool, improving the

pyP
changeably. 99mTc-DPD and 99mTc-HMDP are predominantly semiquantitative and quantitative interpretation of the study.
used in Europe because 99mTc-pyrophosphate is not available
there. 99mTc-pyrophosphate is used in the United States Acquisition
99m
because the Food and Drug Administration has not approved After intravenous injection of the Tc-pyrophosphate,
99m
Tc-DPD and there is limited access to 99mTc-HMDP. both planar and SPECT images of the patient’s chest are
99m
Tc-methylene diphosphonate, although widely available in obtained 3 h later (26). Imaging is usually performed on a
the United States, has a significantly lower sensitivity and standard dual-head g-camera using a 90" detector configura-
should not be used for cardiac amyloid imaging. tion (27). However, recent research demonstrated that 99mTc-
The recommended dose is 370–740 MBq (10–20 mCi) pyrophosphate imaging and 3-dimensional semiquantitative
administered intravenously. The total radiation exposure from analysis of the images is feasible using newer cadmium-zinc-
a 555-MBq (15-mCi) dose is approximately 3 mSv (26). telluride cameras (28).
99m
Tc-pyrophosphate clears from the blood pool, with rapid Although imaging can be performed on a camera with a
uptake in the bone and myocardium (27). Accumulation of small field of view, positioning is more difficult (27) and the

TABLE 2
99m
Tc-Pyrophosphate Cardiac Amyloidosis Imaging Parameters

Parameter Characteristics Standard/optional/preferred

Camera type Large-field-of-view g-camera Standard
Cadmium zinc telluride Optional*
Energy peak 140 keV Standard
Energy window 15%–20% Standard
Collimator Low-energy, all-purpose Standard
Patient position Supine Standard
Field of view Heart/chest Standard
Injection-to-imaging time 3h Standard
1h Optional
Planar
Acquisition type Static Standard
Whole-body imaging Optional†
Detector configuration 90" Standard
Views Anterior and left lateral Standard
Number of views 2 Standard
Counts per view 750,000 Standard
Matrix 256 3 256 Standard
Magnification 1.46
SPECT or SPECT/CT*
Acquisition type Step and shoot or continuous Standard
Patient position Supine Standard
Upright Optional
Orbit 180" /90" Standard
360" /180" Optional
Matrix 128 3 128 (minimum, 64 3 64) Standard
Magnification 1.46 (180" orbit) Standard
1.0 (360" orbit) Optional
Pixel size 2.3–6.5 mm Standard
Projections per detector 40/32 Standard
Time per projection 20 s/25 s Standard
CT attenuation correction Heart Preferred

*Parameters defined for g-cameras as parameters for cadmium-zinc-telluride cameras have not been firmly established.
†
Whole-body imaging is not useful when imaging with 99mTc-pyrophosphate. However, whole-body imaging when imaging with
99m
Tc-HMDP or 99mTc-DPD demonstrates soft-tissue uptake.

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CARDIAC AMYLOIDOSIS, PART 1: ACQUISITION ! Embry-Dierson et al. 89
CONTINUING EDUCATION TEST: Cardiac Amyloidosis Imaging, Part 1: Amyloidosis
Etiology and Image Acquisition

1. Which of the following is not a function of proteins?

A. Cellular membrane transport regulation.

B. Chemical reaction inhibition. gi
59
C. Disease protection.

D. Structural support.

2. Which type of cardiac amyloidosis is the most common?

A. β-amyloid.

B. Light-chain.
you
93
C. Monoclonal immunoglobulin. Da
D. Transthyretin.

3. The usual treatment for cardiac AL is…

A. Chemotherapy.

B. Hormone therapy.
g
C. Radiation therapy. 59

D. Symptom management.

Page 1 of 3
4. Patients with cardiac amyloidosis are often also diagnosed with…

A. Alzheimer disease.

B. Angioimmunoblastic lymphoma. g4
C. Bilateral carpal tunnel syndrome. Py
D. Polycystic kidney disease.

5. All the following symptoms are typical of cardiac amyloidosis diagnosis except…

A. Edema in the feet and ankles.

B. Irregular heart rhythms. gi
C. Nausea and vomiting. 99
D. Shortness of breath.

6. Which of the following is true regarding the diagnosis of cardiac AL?

A. Men are diagnosed more often than women.

B. Men and women are diagnosed at the same rate. as
C. Women are diagnosed more often than men. pa
D. Women are rarely diagnosed.

Page 2 of 3
7. What is the required patient preparation for 99mTc-pyrophosphate cardiac amyloidosis
imaging?

A. Nothing to eat or drink after midnight.

B. No -blockers for 48 h.
ot
C. No caffeine for 12 h before the study. 99
D. No patient preparation is necessary.

8. Which of the following has the lowest sensitivity for detecting cardiac amyloidosis?

A. 99mTc-DPD.

B. 99mTc-HDMP.

C. 99mTc-methylene diphosphonate.
page
D. 99mTc-pyrophosphate.

9. What is the optimum time between injection and imaging for 99mTc-pyrophosphate cardiac
amyloidosis scanning?

A. No delay needed because imaging can immediately follow the injection.

B. 30 min after injection.

C. 1 h after injection.

D. 3 h after injection.
1988
10. Which views are recommended for 99mTc-pyrophosphate cardiac amyloidosis imaging?

A. Anterior and left lateral planar.

B. Anterior and left lateral planar and SPECT.

C. SPECT.
g
19
D. Whole-body planar and left lateral.

Page 3 of 3