- Email: [email protected]
Atheroembolism to the Breast
Journal Pre-proof Atheroembolism to the Breast Shruti Zaveri, MD MPH, Lucyna Z. Price, MD, Haley Tupper, MPH, Rami O. Tadros, MD PII:
S0890-5096(19)30899-4
DOI:
https://doi.org/10.1016/j.avsg.2019.10.052
Reference:
AVSG 4714
To appear in:
Annals of Vascular Surgery
Received Date: 23 April 2019 Revised Date:
26 September 2019
Accepted Date: 9 October 2019
Please cite this article as: Zaveri S, Price LZ, Tupper H, Tadros RO, Atheroembolism to the Breast, Annals of Vascular Surgery (2019), doi: https://doi.org/10.1016/j.avsg.2019.10.052. This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. © 2019 Published by Elsevier Inc.
1
Title: Atheroembolism to the Breast
2 3
Authors: Shruti Zaveri, MD MPH1, Lucyna Z. Price, MD2, Haley Tupper, MPH3, Rami O.
4
Tadros, MD2
5
1. Department of Surgery, Division of General Surgery, The Mount Sinai Hospital
6
2. Department of Surgery, Division of Vascular Surgery, The Mount Sinai Hospital
7
3. Icahn School of Medicine, The Mount Sinai Hospital
8 9
Corresponding Author:
10
Rami O. Tadros, MD
11
Division of Vascular Surgery, Mount Sinai Hospital
12
1425 Madison Avenue, 4th Floor, Box 1273
13
New York, NY 10029
14
T (212)-241-2087 | F (212)-987-9310
15
[email protected]
16 17
Keywords: Atheroembolism, Cholesterol crystal embolization, Breast
18
Declaration of Interests: The authors have no competing interests to declare.
19 20 21 22 23
24
Abstract:
25
We report the case of a woman presenting with livedo reticularis of the breast who was found to
26
have atheroembolism to the breast following upper extremity percutaneous access.
27
Atheroembolism is the embolization of cholesterol crystals off an atherosclerotic plaque that can
28
occur spontaneously or as a result of vascular intervention. This is a unique presentation of an
29
otherwise well-described complication of vascular catheterization, and we propose that livedo
30
reticularis of the breast can be interpreted as a sign of atheroembolism in the appropriate clinical
31
context.
32 33 34 35 36 37 38 39 40 41 42 43 44 45 46
47
I.
Introduction:
48
Atheroembolism is the embolization of cholesterol crystals from an atherosclerotic plaque off a
49
proximal large caliber artery to distal small caliber arteries [1]. These embolic events can occur
50
spontaneously or as a result of vascular intervention [2]. Atheroembolism is a rare but well-
51
described complication of cardiac and vascular catheterization with a reported incidence of
52
approximately 2% in prospective studies [3,4]. Atheroembolism not only leads to mechanical
53
plugging and end-organ ischemia, but can also incite a systemic inflammatory response [1]. In
54
this report, we describe a case of atheroembolism to the breast following upper extremity
55
percutaneous access for lower extremity angioplasty. Patient consent for publication has been
56
obtained.
57 58
II.
Case Report:
59
A 66-year-old woman with an extensive history of peripheral vascular disease and left lower
60
extremity claudication underwent a left lower extremity angiogram with external iliac artery and
61
common femoral artery angioplasty for focal flow-limiting stenoses of the left external iliac and
62
left common femoral arteries. The patient had history of an abdominal aortic aneursym treated
63
with aortic stent graft, thus upper extremity access was chosen for intervention in this case.
64
Multiple attempts were made to access the left radial artery, however, left radial access could not
65
be safely obtained due to diminutive size of the vessel. Ultrasound guided access of the left
66
brachial artery was obtained using a standard 4 French micropuncture kit. The micropuncture
67
sheath was exchanged for a Terumo 4/5 French Glidesheath Slender introducer sheath. The left
68
lower extremity arterial system was catheterized using a 4 French destination sheath and a
69
combination of a stiff Glidewire, angled glide catheter, 0.014 inch whisper wire, and 0.014 inch
70
grand slam wire. Balloon angioplasty of focal stenoses in the left external iliac and common
71
femoral artery was performed. The Terumo 4/5 French glide sheath was the largest sheath
72
introduced. 6mm Nanocross and Pacific plus balloons were used through the 4 French Terumo
73
glide sheath and did not require upsizing to a larger sheath. Post-intervention angiography
74
demonstrated improved flow through the areas of previously identified stenoses. Initial post-
75
operative course was unremarkable and the patient was discharged on post-operative day 1. The
76
patient subsequently presented for routine scheduled follow-up in the vascular surgery clinic 15
77
days following the procedure. She reported purple discoloration of her left breast and left hand.
78
Physical examination revealed violaceous skin discoloration in a reticular pattern on the left
79
breast (Figure 1) and left hand (Figure 2 and 3), concerning for livedo reticularis due to
80
cholesterol embolization. She was started on anticoagulation for treatment of atheroembolism
81
with planned 3 month course followed by clinical re-evaluation.
82 83
III.
Discussion:
84
Atheroembolism and cholesterol crystal embolism are often used synonymously in the context of
85
embolic complications following vascular intervention. Cholesterol embolization syndrome
86
refers to showers of microemboli and the associated systemic inflammatory response [5]. This
87
should be distinguished from thromboembolic events in which fragments of thrombus atop an
88
atheromatous plaque are dislodged, occluding medium to large arteries. In contrast,
89
atheroembolic debris lodges in small arterioles with a diameter of 100 to 200µm [1].
90 91
Atheromatous debris has a high rate of release during percutaneous vascular procedures. In a
92
case series of 1000 patients undergoing coronary intervention, over 50% had aortic atheromatous
93
debris found on the catheter; however, few of these result in clinically recognizable ischemic
94
events. The incidence of clinically recognized cholesterol crystal embolism is approximately 1 to
95
2% [6-9]. Iatrogenic embolization is more common after arteriography than after surgery [10,
96
11].
97 98
Atheroembolism is more common in older patients with an average patient age of 66 years in
99
reported cases [12]. Atheroembolism has a multitude of clinical presentations depending
100
primarily on the location of the embolic event. Reported locations include renal, ocular, cerebral,
101
gastrointestinal, and cutaneous emboli. The presentation of atheroembolism may be subtle,
102
depending of the number of embolic events and the degree of occlusion caused by the emboli8.
103
In a review of 221 cases, 21% of patients presented with nonspecific systemic symptoms of fever
104
and myalgias12. Renal emboli can lead to acute kidney injury [13]; gastrointestinal emboli most
105
commonly lead to nonspecific symptoms such as abdominal pain and diarrhea, but can rarely
106
result in intestinal infarction, pancreatitis, and hepatic necrosis [14, 15]. As seen in our patient,
107
cutaneous findings consist of livedo reticularis, a mottled reticulated discoloration of skin, and
108
may develop ulceration depending on the extent of blood flow compromise [12]. Splinter
109
hemorrhages, purpura, petechiae, and “blue toe syndrome” have also been reported as skin
110
findings of atheroembolism [16, 17]. Given the varied presentation and severity of cases,
111
treatment for atheroembolism remains controversial. While anticoagulation may intuitively aid
112
with arterial patency, there are no randomized controlled trials that evaluate the role of
113
anticoagulation in atheroembolism (Kim, Bashore, Lin). Some studies have shown benefit of oral
114
anticoagulation in patients with mobile thrombi in the aortic arch (Lansberg).
115
116
In our case, the patient presented with livedo reticularis of the left breast and left hand after left
117
brachial artery micropuncture access and left lower extremity angioplasty. Livedo reticularis
118
carries a wide differential diagnosis, including coagulopathic disorders such as disseminated
119
intravascular coagulation and thrombotic thrombocytopenic purpura, to embolic disorders,
120
vasculitides, and intravascular protein and calcium deposition as seen with calciphylaxis [18].
121
Livedo reticularis has also been described as sign of inflammatory carcinoma of the breast [19,
122
20]. The finding of violaceous skin discoloration over the breast, as seen in our patient, in
123
isolation would have raised suspicion for malignancy; however, in the context of recent
124
percutaneous vascular intervention and concomitant ipsilateral hand livedo reticularis,
125
atheroembolism to the breast was the most congruent diagnosis. While varied presentations of
126
atheroembolism have been described, we propose that livedo reticularis of the breast can be
127
interpreted as a sign of atheroembolism in the appropriate clinical context.
128 129
Atheroembolism of the breast in this case likely occurred through branches of the axillary and
130
subclavian arteries. The medial aspect of the breast receives arterial supply from the internal
131
thoracic artery, a branch of the subclavian artery. The internal thoracic artery supplies six or
132
seven perforating branches, and it considered a reliable source of arterial apply to the nipple in
133
most patients. The lateral aspect of the breast receives arterial supply from four vessels: the
134
lateral thoracic and thoracoacromial arteries from the axillary artery, lateral mammary branches
135
from the posterior intercostal arteries, and mammary branches from the anterior intercostal artery
136
(van Deventer, Cunningham, Shiffman). Upon review of the preoperative CTA, there were no
137
anatomical abnormalities seen that could have increased risk of atheroembolism. Axial CTA did
138
not reveal any atheromatous plaque in the patients left brachial, axillary, or subclavian arteries.
139
Likewise, the descending thoracic and abdominal aorta were free of calcification as well,
140
therefore the anatomic origin of the atheromatous embolization is unclear. The number of sheath
141
exchanges should be minimized to the extent possible to decrease the risk of embolism in the
142
setting of atheromatous disease, however there was no preoperative suspicion of significant
143
atheromatous disease in these vessels in this case.
144 145
IV.
Conclusion:
146
Atheroembolism is a known complication of cardiac and vascular catheterization, however
147
diagnosis of the complication is often difficult given its varied presentations secondary to emboli
148
location. We report a case of a 66-year-old woman with the complication of cholesterol
149
embolization following upper extremity percutaneous access causing livedo recticularis of the
150
breast. This is the first report to our knowledge describing the occurrence of atheroembolism to
151
the breast and is a unique presentation of this otherwise well-described complication.
152 153 154 155 156 157 158 159 160 161
162
References:
163
[1]
Kronzon I, Saric M. Cholesterol embolization syndrome. Circulation. 2010;122:631-641.
164
[2]
Roscher AA, Endlich HL. Atheroembolization: A complication of vascular surgery andor diagnostic angiography. Int Surg. 1971;56:82-94.
165 166
[3]
Karalis DG, Quinn V, Victor MF, Ross JJ, Polansky M, Spratt KA, et al. Risk of
167
catheter-related emboli in patients with atherosclerotic debris in the thoracic aorta. Am
168
Heart J. 1996;131:1149-1155.
169
[4]
Cardiol. 2003;42:217-218.
170 171
[5]
[6]
Keeley EC, Grines CL. Scraping of aortic debris by coronary guiding catheters: a prospective evaluation of 1,000 cases. J Am Coll Cardiol. 1998;32:1861-1865.
174 175
Venturelli C, Jeannin G, Sottini L, Dallera N, Scolari F. Cholesterol crystal embolism (atheroembolism). Heart Int. 2006;2:155.
172 173
Bashore TM, Gehrig T. Cholesterol emboli after invasive cardiac procedures. J Am Coll
[7]
Tunick PA, Nayar AC, Goodkin GM, Mirchandani S, Francescone S, Rosenzweig BP, et
176
al. Effect of treatment on the incidence of stroke and other emboli in 519 patients with
177
severe thoracic aortic plaque. Am J Cardiol. 2002;90:1320-1325.
178
[8]
Cardiovasc Surg. 1996;4:573-579.
179 180
Sharma PV, Babu SC, Shah PM, Nassoura ZE. Changing patterns of atheroembolism.
[9]
Fukumoto Y, Tsutsui H, Tsuchihashi M, Masumoto A, Takeshita A. Cholesterol
181
Embolism Study I: The incidence and risk factors of cholesterol embolization syndrome,
182
a complication of cardiac catheterization: a prospective study. J Am Coll Cardiol.
183
2003;42:211-216.
184
[10]
Lin PH, Bush RL, Conklin BS, Chen C, Weiss VJ, Chaikof EL, et al. Late complication
185
of aortoiliac stent placement- atheroembolization of the lower extremities. J Surg Res.
186
2002;103:153-159.
187
[11]
institutional experience with arterial atheroembolism. Ann Vasc Surg. 1994;8:258-265.
188 189
[12]
Fine MJ, Kapoor W, Falanga V. Cholesterol crystal embolization: a review of 221 cases in the English literature. Angiology. 1987;38:769-784.
190 191
Baumann DS, McGraw D, Rubin BG, Allen BT, Anderson CB, Sicard GA. An
[13]
Scolari F, Ravani P, Gaggi R, Santostefano M, Rollino C, Stabellini N, et al. The
192
challenge of diagnosing atheroembolic renal disease: clinical features and prognostic
193
factors. Circulation. 2007;116:298-304.
194
[14]
Ben-Horin S, Bardan E, Barshack I, Zaks N, Livneh A. Cholesterol crystal embolization
195
to the digestive system: characterization of a common, yet overlooked presentation of
196
atheroembolism. Am J Gastroenterol. 2003;98:1471-1479.
197
[15]
pancreas. Dig Dis Sci. 1996;41:1819-1822.
198 199
[16]
[17]
[18]
206
Wysong A, Venkatesan P. An approach to the patient with retiform purpura. Dermatol Ther. 2011;24:151-172.
204 205
Falanga V, Fine MJ, Kapoor WN: The cutaneous manifestations of cholesterol crystal embolization. Arch Dermatol. 1986;122:1194-1198.
202 203
Turakhia AK, Khan MA. Splinter hemorrhages as a possible clinical manifestation of cholesterol crystal embolization. J Rheumatol. 1990;17:1083-1086.
200 201
Moolenaar W, Lamers CB. Cholesterol crystal embolization to liver, gallbladder, and
[19]
Spiers EM, Fakharzadeh SS. Livedo reticularis and inflammatory carcinoma of the breast. J Am Acad Dermatol. 1994;31:689-690.
207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230
[20]
Gambichler T, Baier P, Altmeyer P. Generalized livedo reticularis as the first sign of metastatic breast carcinoma. Clin Exp Dermatol. 2009;34:253-254.
231
Figure Legend
232 233
Figure 1. Livedo reticularis of the left breast [preferably printed in color]
234
Figure 2. Livedo reticularis of the dorsal aspect of the left hand [preferably printed in color]
235
Figure 3. Livedo reticularis of the palmar aspect of the left hand [preferably printed in color]
236
S0890-5096(19)30899-4
DOI:
https://doi.org/10.1016/j.avsg.2019.10.052
Reference:
AVSG 4714
To appear in:
Annals of Vascular Surgery
Received Date: 23 April 2019 Revised Date:
26 September 2019
Accepted Date: 9 October 2019
Please cite this article as: Zaveri S, Price LZ, Tupper H, Tadros RO, Atheroembolism to the Breast, Annals of Vascular Surgery (2019), doi: https://doi.org/10.1016/j.avsg.2019.10.052. This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain. © 2019 Published by Elsevier Inc.
1
Title: Atheroembolism to the Breast
2 3
Authors: Shruti Zaveri, MD MPH1, Lucyna Z. Price, MD2, Haley Tupper, MPH3, Rami O.
4
Tadros, MD2
5
1. Department of Surgery, Division of General Surgery, The Mount Sinai Hospital
6
2. Department of Surgery, Division of Vascular Surgery, The Mount Sinai Hospital
7
3. Icahn School of Medicine, The Mount Sinai Hospital
8 9
Corresponding Author:
10
Rami O. Tadros, MD
11
Division of Vascular Surgery, Mount Sinai Hospital
12
1425 Madison Avenue, 4th Floor, Box 1273
13
New York, NY 10029
14
T (212)-241-2087 | F (212)-987-9310
15
[email protected]
16 17
Keywords: Atheroembolism, Cholesterol crystal embolization, Breast
18
Declaration of Interests: The authors have no competing interests to declare.
19 20 21 22 23
24
Abstract:
25
We report the case of a woman presenting with livedo reticularis of the breast who was found to
26
have atheroembolism to the breast following upper extremity percutaneous access.
27
Atheroembolism is the embolization of cholesterol crystals off an atherosclerotic plaque that can
28
occur spontaneously or as a result of vascular intervention. This is a unique presentation of an
29
otherwise well-described complication of vascular catheterization, and we propose that livedo
30
reticularis of the breast can be interpreted as a sign of atheroembolism in the appropriate clinical
31
context.
32 33 34 35 36 37 38 39 40 41 42 43 44 45 46
47
I.
Introduction:
48
Atheroembolism is the embolization of cholesterol crystals from an atherosclerotic plaque off a
49
proximal large caliber artery to distal small caliber arteries [1]. These embolic events can occur
50
spontaneously or as a result of vascular intervention [2]. Atheroembolism is a rare but well-
51
described complication of cardiac and vascular catheterization with a reported incidence of
52
approximately 2% in prospective studies [3,4]. Atheroembolism not only leads to mechanical
53
plugging and end-organ ischemia, but can also incite a systemic inflammatory response [1]. In
54
this report, we describe a case of atheroembolism to the breast following upper extremity
55
percutaneous access for lower extremity angioplasty. Patient consent for publication has been
56
obtained.
57 58
II.
Case Report:
59
A 66-year-old woman with an extensive history of peripheral vascular disease and left lower
60
extremity claudication underwent a left lower extremity angiogram with external iliac artery and
61
common femoral artery angioplasty for focal flow-limiting stenoses of the left external iliac and
62
left common femoral arteries. The patient had history of an abdominal aortic aneursym treated
63
with aortic stent graft, thus upper extremity access was chosen for intervention in this case.
64
Multiple attempts were made to access the left radial artery, however, left radial access could not
65
be safely obtained due to diminutive size of the vessel. Ultrasound guided access of the left
66
brachial artery was obtained using a standard 4 French micropuncture kit. The micropuncture
67
sheath was exchanged for a Terumo 4/5 French Glidesheath Slender introducer sheath. The left
68
lower extremity arterial system was catheterized using a 4 French destination sheath and a
69
combination of a stiff Glidewire, angled glide catheter, 0.014 inch whisper wire, and 0.014 inch
70
grand slam wire. Balloon angioplasty of focal stenoses in the left external iliac and common
71
femoral artery was performed. The Terumo 4/5 French glide sheath was the largest sheath
72
introduced. 6mm Nanocross and Pacific plus balloons were used through the 4 French Terumo
73
glide sheath and did not require upsizing to a larger sheath. Post-intervention angiography
74
demonstrated improved flow through the areas of previously identified stenoses. Initial post-
75
operative course was unremarkable and the patient was discharged on post-operative day 1. The
76
patient subsequently presented for routine scheduled follow-up in the vascular surgery clinic 15
77
days following the procedure. She reported purple discoloration of her left breast and left hand.
78
Physical examination revealed violaceous skin discoloration in a reticular pattern on the left
79
breast (Figure 1) and left hand (Figure 2 and 3), concerning for livedo reticularis due to
80
cholesterol embolization. She was started on anticoagulation for treatment of atheroembolism
81
with planned 3 month course followed by clinical re-evaluation.
82 83
III.
Discussion:
84
Atheroembolism and cholesterol crystal embolism are often used synonymously in the context of
85
embolic complications following vascular intervention. Cholesterol embolization syndrome
86
refers to showers of microemboli and the associated systemic inflammatory response [5]. This
87
should be distinguished from thromboembolic events in which fragments of thrombus atop an
88
atheromatous plaque are dislodged, occluding medium to large arteries. In contrast,
89
atheroembolic debris lodges in small arterioles with a diameter of 100 to 200µm [1].
90 91
Atheromatous debris has a high rate of release during percutaneous vascular procedures. In a
92
case series of 1000 patients undergoing coronary intervention, over 50% had aortic atheromatous
93
debris found on the catheter; however, few of these result in clinically recognizable ischemic
94
events. The incidence of clinically recognized cholesterol crystal embolism is approximately 1 to
95
2% [6-9]. Iatrogenic embolization is more common after arteriography than after surgery [10,
96
11].
97 98
Atheroembolism is more common in older patients with an average patient age of 66 years in
99
reported cases [12]. Atheroembolism has a multitude of clinical presentations depending
100
primarily on the location of the embolic event. Reported locations include renal, ocular, cerebral,
101
gastrointestinal, and cutaneous emboli. The presentation of atheroembolism may be subtle,
102
depending of the number of embolic events and the degree of occlusion caused by the emboli8.
103
In a review of 221 cases, 21% of patients presented with nonspecific systemic symptoms of fever
104
and myalgias12. Renal emboli can lead to acute kidney injury [13]; gastrointestinal emboli most
105
commonly lead to nonspecific symptoms such as abdominal pain and diarrhea, but can rarely
106
result in intestinal infarction, pancreatitis, and hepatic necrosis [14, 15]. As seen in our patient,
107
cutaneous findings consist of livedo reticularis, a mottled reticulated discoloration of skin, and
108
may develop ulceration depending on the extent of blood flow compromise [12]. Splinter
109
hemorrhages, purpura, petechiae, and “blue toe syndrome” have also been reported as skin
110
findings of atheroembolism [16, 17]. Given the varied presentation and severity of cases,
111
treatment for atheroembolism remains controversial. While anticoagulation may intuitively aid
112
with arterial patency, there are no randomized controlled trials that evaluate the role of
113
anticoagulation in atheroembolism (Kim, Bashore, Lin). Some studies have shown benefit of oral
114
anticoagulation in patients with mobile thrombi in the aortic arch (Lansberg).
115
116
In our case, the patient presented with livedo reticularis of the left breast and left hand after left
117
brachial artery micropuncture access and left lower extremity angioplasty. Livedo reticularis
118
carries a wide differential diagnosis, including coagulopathic disorders such as disseminated
119
intravascular coagulation and thrombotic thrombocytopenic purpura, to embolic disorders,
120
vasculitides, and intravascular protein and calcium deposition as seen with calciphylaxis [18].
121
Livedo reticularis has also been described as sign of inflammatory carcinoma of the breast [19,
122
20]. The finding of violaceous skin discoloration over the breast, as seen in our patient, in
123
isolation would have raised suspicion for malignancy; however, in the context of recent
124
percutaneous vascular intervention and concomitant ipsilateral hand livedo reticularis,
125
atheroembolism to the breast was the most congruent diagnosis. While varied presentations of
126
atheroembolism have been described, we propose that livedo reticularis of the breast can be
127
interpreted as a sign of atheroembolism in the appropriate clinical context.
128 129
Atheroembolism of the breast in this case likely occurred through branches of the axillary and
130
subclavian arteries. The medial aspect of the breast receives arterial supply from the internal
131
thoracic artery, a branch of the subclavian artery. The internal thoracic artery supplies six or
132
seven perforating branches, and it considered a reliable source of arterial apply to the nipple in
133
most patients. The lateral aspect of the breast receives arterial supply from four vessels: the
134
lateral thoracic and thoracoacromial arteries from the axillary artery, lateral mammary branches
135
from the posterior intercostal arteries, and mammary branches from the anterior intercostal artery
136
(van Deventer, Cunningham, Shiffman). Upon review of the preoperative CTA, there were no
137
anatomical abnormalities seen that could have increased risk of atheroembolism. Axial CTA did
138
not reveal any atheromatous plaque in the patients left brachial, axillary, or subclavian arteries.
139
Likewise, the descending thoracic and abdominal aorta were free of calcification as well,
140
therefore the anatomic origin of the atheromatous embolization is unclear. The number of sheath
141
exchanges should be minimized to the extent possible to decrease the risk of embolism in the
142
setting of atheromatous disease, however there was no preoperative suspicion of significant
143
atheromatous disease in these vessels in this case.
144 145
IV.
Conclusion:
146
Atheroembolism is a known complication of cardiac and vascular catheterization, however
147
diagnosis of the complication is often difficult given its varied presentations secondary to emboli
148
location. We report a case of a 66-year-old woman with the complication of cholesterol
149
embolization following upper extremity percutaneous access causing livedo recticularis of the
150
breast. This is the first report to our knowledge describing the occurrence of atheroembolism to
151
the breast and is a unique presentation of this otherwise well-described complication.
152 153 154 155 156 157 158 159 160 161
162
References:
163
[1]
Kronzon I, Saric M. Cholesterol embolization syndrome. Circulation. 2010;122:631-641.
164
[2]
Roscher AA, Endlich HL. Atheroembolization: A complication of vascular surgery andor diagnostic angiography. Int Surg. 1971;56:82-94.
165 166
[3]
Karalis DG, Quinn V, Victor MF, Ross JJ, Polansky M, Spratt KA, et al. Risk of
167
catheter-related emboli in patients with atherosclerotic debris in the thoracic aorta. Am
168
Heart J. 1996;131:1149-1155.
169
[4]
Cardiol. 2003;42:217-218.
170 171
[5]
[6]
Keeley EC, Grines CL. Scraping of aortic debris by coronary guiding catheters: a prospective evaluation of 1,000 cases. J Am Coll Cardiol. 1998;32:1861-1865.
174 175
Venturelli C, Jeannin G, Sottini L, Dallera N, Scolari F. Cholesterol crystal embolism (atheroembolism). Heart Int. 2006;2:155.
172 173
Bashore TM, Gehrig T. Cholesterol emboli after invasive cardiac procedures. J Am Coll
[7]
Tunick PA, Nayar AC, Goodkin GM, Mirchandani S, Francescone S, Rosenzweig BP, et
176
al. Effect of treatment on the incidence of stroke and other emboli in 519 patients with
177
severe thoracic aortic plaque. Am J Cardiol. 2002;90:1320-1325.
178
[8]
Cardiovasc Surg. 1996;4:573-579.
179 180
Sharma PV, Babu SC, Shah PM, Nassoura ZE. Changing patterns of atheroembolism.
[9]
Fukumoto Y, Tsutsui H, Tsuchihashi M, Masumoto A, Takeshita A. Cholesterol
181
Embolism Study I: The incidence and risk factors of cholesterol embolization syndrome,
182
a complication of cardiac catheterization: a prospective study. J Am Coll Cardiol.
183
2003;42:211-216.
184
[10]
Lin PH, Bush RL, Conklin BS, Chen C, Weiss VJ, Chaikof EL, et al. Late complication
185
of aortoiliac stent placement- atheroembolization of the lower extremities. J Surg Res.
186
2002;103:153-159.
187
[11]
institutional experience with arterial atheroembolism. Ann Vasc Surg. 1994;8:258-265.
188 189
[12]
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190 191
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192
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193
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194
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Ben-Horin S, Bardan E, Barshack I, Zaks N, Livneh A. Cholesterol crystal embolization
195
to the digestive system: characterization of a common, yet overlooked presentation of
196
atheroembolism. Am J Gastroenterol. 2003;98:1471-1479.
197
[15]
pancreas. Dig Dis Sci. 1996;41:1819-1822.
198 199
[16]
[17]
[18]
206
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204 205
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202 203
Turakhia AK, Khan MA. Splinter hemorrhages as a possible clinical manifestation of cholesterol crystal embolization. J Rheumatol. 1990;17:1083-1086.
200 201
Moolenaar W, Lamers CB. Cholesterol crystal embolization to liver, gallbladder, and
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207 208 209 210 211 212 213 214 215 216 217 218 219 220 221 222 223 224 225 226 227 228 229 230
[20]
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231
Figure Legend
232 233
Figure 1. Livedo reticularis of the left breast [preferably printed in color]
234
Figure 2. Livedo reticularis of the dorsal aspect of the left hand [preferably printed in color]
235
Figure 3. Livedo reticularis of the palmar aspect of the left hand [preferably printed in color]
236