Source: https://patents.google.com/patent/US6811551B2/en
Timestamp: 2018-09-22 11:44:04
Document Index: 592735207

Matched Legal Cases: ['art.\n13', 'art.\n33', 'art.\n49', 'art.\n63', 'art.\n78', 'art.\n96', 'art.\n115', 'art.\n121', 'art.\n133', 'art.\n166', 'art.\n200', 'art.\n235', 'art.\n254']

US6811551B2 - Method for reducing myocardial infarct by application of intravascular hypothermia - Google Patents
Method for reducing myocardial infarct by application of intravascular hypothermia Download PDF
US6811551B2
US6811551B2 US09735314 US73531400A US6811551B2 US 6811551 B2 US6811551 B2 US 6811551B2 US 09735314 US09735314 US 09735314 US 73531400 A US73531400 A US 73531400A US 6811551 B2 US6811551 B2 US 6811551B2
US09735314
US20020111616A1 (en )
This application claims priority to U.S. Provisional Patent Application Ser. No. 60/170,831, filed Dec. 14, 1999 entitled method for Reducing Myocardial Infarct by Application of Intravascular Hypothermia, the entire disclosure of such provisional application being expressly incorporated herein by reference.
FIG. 8 is a cross-sectional view of the shaft of FIG. 3 and FIG. 4 taken along the line 8—8.
FIG. 9 is a cross-sectional view of the balloon of FIG. 5 taken along the line 9—9.
FIG. 10 is a cross-sectional view of the catheter of FIG. 3 taken along the line 10—10.
FIG. 11 is a cross-sectional view of the catheter of FIG. 3 taken along the line 11—11.
FIG. 12 is a cross-sectional view of the catheter of FIG. 3 taken along the line 12—12.
FIG. 18 is an illustration of a heat exchange catheter having a heat exchange region comprising multiple heat exchange elements in place in the vena cava.
Mean ± SD 16.6 ± 2.3 ± 5.3 Mean ± 19.1 ± 47.2 ± 8.3
5.3 SD 8.8
Claims (257)
maintaining the step of exchanging heat for a sufficient length of time to affect the temperature of the heart without cooling the heart below 30 degrees C.
5. A method as in claim 4 wherein the temperature of the heart is not cooled below 32° C.
6. A method as in claim 5 wherein the temperature of the heart is not cooled below 34° C.
7. A method as in claim 1 wherein the heat exchange region is less than the full length of the heat exchange catheter.
8. A method as in claim 1 wherein the heat exchange region is placed in the patient's venous system.
9. A method as in claim 8 wherein the heat exchange region is placed in the patient's vena cava.
10. A method as in claim 9 wherein the heat exchange region is placed in the patient's inferior vena cava.
11. A method as in claim 9 wherein the heat exchange region is placed in the patient's superior vena cava.
12. A method as in claim 1 wherein at least part of the heat exchange region is placed in the heart.
13. A method as in claim 1 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
14. A method as in claim 1 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
15. A method as in claim 1 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
16. A method as in claim 15 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
17. A method as in claim 1 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
18. A method as in claim 1 wherein the catheter is placed into the vascular system of the patient during an ischemic event.
19. A method as in claim 1 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
20. A method as in claim 1 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
21. A method as in claim 20 wherein the fin comprises a lobe of a multi-lobed balloon.
22. A method as in claim 20 wherein the fin has a spiral shaped surface contour.
23. A method as in claim 22 wherein the surface contour includes both spiral shaped surface contour and bellow shaped surface contour.
24. A method as in claim 22 wherein the heat exchange region is metallic.
26. A method as in claim 20 wherein the fin has a bellow shaped surface contour.
27. A method as in claim 1 wherein the heat exchange region comprises a plurality of heat exchange elements.
28. A method as in claim 1 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
29. A method as in claim 1 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
30. A method as in claim 1 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
31. A method as in claim 1 comprising the additional step of sensing the temperature of the patient, and adjusting the step of exchanging heat with the blood in response to the temperature sensed.
32. The method as in claim 31 wherein the temperature sensed is the temperature of the patient's heart.
33. The method as in claim 31 wherein the temperature sensed is the patient's temperature as measured at the patient's tympanic membrane.
34. The method as in claim 31 wherein the temperature sensed is the patient's rectal temperature.
35. The method as in claim 31 wherein the temperature sensed is representative of the whole body temperature of the patient.
36. The method as in claim 31 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
37. The method as in claim 36 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
38. A method for hypothermic treatment of the myocardium of a mammalian patient, said method comprising the steps of:
(c) cooling the heat exchange region of the catheter so as to result in cooling of blood flowing to the heart and resultant cooling of at least a portion of the patient's myocardium to a temperature not below 30 degrees C.
39. A method according to claim 38 wherein the method is performed to prevent or minimize myocardial infarction in a patient who suffers from acute heart attack symptoms, and wherein steps a through c are performed within 0 to 12 hours after the onset of the acute heart attack symptoms.
40. A method according to claim 38 wherein the method is performed to facilitate a beating-heart surgical procedure.
41. A method as in claim 38 where step c is performed for sufficient time to cool the myocardium below 37° C.
42. A method as in claim 38 wherein the temperature of the heart is not cooled below 32° C.
43. A method as in claim 38 wherein the temperature of the heart is not cooled below 34° C.
44. A method as in claim 38 wherein Step b comprises positioning the heat exchange region of the catheter in the patient's venous vasculature.
45. A method as in claim 38 wherein Step b comprises positioning the heat exchange region of the catheter in the patient's vena cava.
46. A method as in claim 45 wherein the heat exchange region is placed in the patient's inferior vena cava.
47. A method as in claim 45 wherein the heat exchange region is placed in the patient's superior vena cava.
48. A method as in claim 38 wherein Step b comprises positioning at least part of the heat exchange region in the patient's heart.
49. A method as in claim 38 wherein Step c is performed for less than 4 hours.
50. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
inserting a heat exchange catheter having a heat exchange region into the vasculature of a patient, said heat exchange region being metallic and having at least one fin which has a spiral-shaped surface contour;
51. A method as in claim 50 wherein the step of exchanging of heat is maintained for less than 4 hours.
52. A method as in claim 50 wherein the step of exchanging heat with the blood removes heat from the blood.
53. A method as in claim 52 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
54. A method according to claim 51 wherein the temperature of the heart is not cooled below 30° C.
55. A method as in claim 54 wherein the temperature of the heart is not cooled below 32° C.
56. A method as in claim 55 wherein the temperature of the heart is not cooled below 34° C.
57. A method as in claim 50 wherein the heat exchange region is less than the full length of the heat exchange catheter.
58. A method as in claim 50 wherein the heat exchange region is placed in the patient's venous system.
59. A method as in claim 58 wherein the heat exchange region is placed in the patient's vena cava.
60. A method as in claim 59 wherein the heat exchange region is placed in the patient's inferior vena cava.
61. A method as in claim 59 wherein the heat exchange region is placed in the patient's superior vena cava.
62. A method as in claim 50 wherein at least part of the heat exchange region is placed in the heart.
63. A method as in claim 50 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
64. A method as in claim 50 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
65. A method as in claim 50 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
66. A method as in claim 65 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
67. A method as in claim 50 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
68. A method as in claim 50 wherein the catheter is placed into the vascular system of the patient during an ischemic event.
69. A method as in claim 50 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
70. A method as in claim 50 wherein the fin comprises a lobe of a multi-lobed balloon.
71. A method as in claim 50 wherein the surface contour includes both spiral shaped surface contour and bellow shaped surface contour.
72. A method as in claim 50 wherein the heat exchange region comprises a plurality of heat exchange elements.
73. A method as in claim 50 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
74. A method as in claim 50 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
75. A method as in claim 50 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
76. A method as in claim 50 comprising the additional step of sensing the temperature of the patient, and adjusting the step of exchanging heat with the blood in response to the temperature sensed.
77. A method as in claim 76 wherein the temperature sensed is the temperature of the patient's heart.
78. A method as in claim 76 wherein the temperature sensed is the patient's temperature as measured at the patient's tympanic membrane.
79. A method as in claim 76 wherein the temperature sensed is the patient's rectal temperature.
80. A method as in claim 76 wherein the temperature sensed is representative of the whole body temperature of the patient.
81. A method as in claim 76 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
82. A method as in claim 81 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
83. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
maintaining the step of exchanging heat for a sufficient length of time to affect the temperature of the heart and the temperature of the patient's body.
84. A method as in claim 83 wherein the step of exchanging of heat is maintained for less than 4 hours.
85. A method as in claim 83 wherein the step of exchanging heat with the blood removes heat from the blood.
86. A method as in claim 85 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
87. A method as in claim 86 wherein the temperature of the heart is not cooled below 30° C.
88. A method as in claim 87 wherein the temperature of the heart is not cooled below 32° C.
89. A method as in claim 88 wherein the temperature of the heart is not cooled below 34° C.
90. A method as in claim 83 wherein the heat exchange region is less than the full length of the heat exchange catheter.
91. A method as in claim 83 wherein the heat exchange region is placed in the patient's venous system.
92. A method as in claim 91 wherein the heat exchange region is placed in the patient's vena cava.
93. A method as in claim 92 wherein the heat exchange region is placed in the patient's inferior vena cava.
94. A method as in claim 92 wherein the heat exchange region is placed in the patient's superior vena cava.
95. A method as in claim 83 wherein at least part of the heat exchange region is placed in the heart.
96. A method as in claim 83 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
97. A method as in claim 83 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
98. A method as in claim 83 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
99. A method as in claim 98 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
100. A method as in claim 83 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
101. A method as in claim 83 wherein the catheter is placed into the vacascular system of the patient during an ischemic event.
102. A method as in claim 83 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
103. A method as in claim 83 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
104. A method as in claim 103 wherein the fin comprises a lobe of a multi-lobed balloon.
105. A method as in claim 103 wherein the fin has a spiral shaped surface contour.
106. A method as in claim 103 wherein the fin has a surface contour that includes both spiral shaped surface contour and bellow shaped surface contour.
107. A method as in claim 105 wherein the heat exchange region is metallic.
108. A method as in claim 106 wherein the heat exchange region is metallic.
109. A method as in claim 103 wherein the fin is a bellow shaped surface contour.
110. A method as in claim 83 wherein the heat exchange region comprises a plurality of heat exchange elements.
111. A method as in claim 83 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
112. A method as in claim 83 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
113. A method as in claim 83 comprising the additional step of sensing the temperature of the patient, and adjusting the step of exchanging heat with the blood in response to the temperature sensed.
114. A method as in claim 113 wherein the temperature sensed is the temperature of the patient's heart.
115. A method as in claim 113 wherein the temperature sensed is the patient's temperature as measured at the patient's tympanic membrane.
116. A method as in claim 113 wherein the temperature sensed is the patient's rectal temperature.
117. A method as in claim 113 wherein the temperature sensed is representative of the whole body temperature of the patient.
118. A method as in claim 113 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
119. A method as in claim 118 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
120. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
exchanging heat with the blood at the heat exchange for a sufficient length of time to affect the temperature of the heart;
sensing the temperature of the patient's heart and adjusting the exchange of heat with the blood in response to the sensed temperature of the patient's heart.
121. A method as in claim 120 wherein the step of exchanging of heat is maintained for less than 4 hours.
122. A method as in claim 120 wherein the step of exchanging heat with the blood removes heat from the blood.
123. A method as in claim 122 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
124. A method as in claim 123 wherein the temperature of the heart is not cooled below 30° C.
125. A method as in claim 124 wherein the temperature of the heart is not cooled below 32° C.
126. A method as in claim 125 wherein the temperature of the heart is not cooled below 34° C.
127. A method as in claim 120 wherein the heat exchange region is less than the full length of the heat exchange catheter.
128. A method as in claim 120 wherein the heat exchange region is placed in the patient's venous system.
129. A method as in claim 128 wherein the heat exchange region is placed in the patient's vena cava.
130. A method as in claim 129 wherein the heat exchange region is placed in the patient's inferior vena cava.
131. A method as in claim 129 wherein the heat exchange region is placed in the patient's superior vena cava.
132. A method as in claim 120 wherein at least part of the heat exchange region is placed in the heart.
133. A method as in claim 120 wherein the catheter is placed into the vascular system of the patient after a cardiac schemic event.
134. A method as in claim 120 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
135. A method as in claim 120 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
136. A method as in claim 135 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
137. A method as in claim 120 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
138. A method as in claim 120 wherein the catheter is placed into the vascular system of the patient during an ischemic event.
139. A method as in claim 120 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
140. A method as in claim 120 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
141. A method as in claim 120 wherein the fin comprises a lobe of a multi-lobed balloon.
142. A method as in claim 140 wherein the fin is a spiral shaped surface contour.
143. A method as in claim 142 wherein the surface contour includes both spiral shaped surface contour and bellow shaped surface contour.
144. A method as in claim 142 wherein the heat exchange region is metallic.
145. A method as in claim 143 wherein the heat exchange region is metallic.
146. A method as in claim 140 wherein the fin is a bellow shaped surface contour.
147. A method as in claim 120 wherein the heat exchange region comprises a plurality of heat exchange elements.
148. A method as in claim 120 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
149. A method as in claim 120 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
150. A method as in claim 120 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
151. A method as in claim 120 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
152. A method as in claim 151 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
153. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
maintaining the step of exchanging heat for a sufficient length of time to affect the temperature of the heart;
sensing the temperature of the patient by measuring the temperature at the patient's tympanic membrane and adjusting the exchange of heat with the blood in response to the temperature sensed at the patient's tympanic membrane.
154. A method as in claim 153 wherein the step of exchanging of heat is maintained for less than 4 hours.
155. A method as in claim 153 wherein the step of exchanging heat with the blood removes heat from the blood.
156. A method as in claim 155 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
157. A method as in claim 156 wherein the temperature of the heart is not cooled below 30° C.
158. A method as in claim 157 wherein the temperature of the heart is not cooled below 32° C.
159. A method as in claim 158 wherein the temperature of the heart is not cooled below 34° C.
160. A method as in claim 153 wherein the heat exchange region is less than the full length of the heat exchange catheter.
161. A method as in claim 153 wherein the heat exchange region is placed in the patient's venous system.
162. A method as in claim 161 wherein the heat exchange region is placed in the patient's vena cava.
163. A method as in claim 162 wherein the heat exchange region is placed in the patient's inferior vena cava.
164. A method as in claim 162 wherein the heat exchange region is placed in the patient's superior vena cava.
165. A method as in claim 153 wherein at least part of the heat exchange region is placed in the heart.
166. A method as in claim 153 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
167. A method as in claim 153 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
168. A method as in claim 153 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
169. A method as in claim 168 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
170. A method as in claim 153 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
171. A method as in claim 153 wherein the catheter is placed into the vacascular system of the patient during an ischemic event.
172. A method as in claim 153 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
173. A method as in claim 153 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
174. A method as in claim 173 wherein the fin comprises a lobe of a multi-lobed balloon.
175. A method as in claim 173 wherein the fin has a spiral shaped surface contour.
176. A method as in claim 173 wherein the fin has a surface contour that includes both spiral shaped surface contour and bellow shaped surface contour.
177. A method as in claim 175 wherein the heat exchange region is metallic.
178. A method as in claim 176 wherein the heat exchange region is metallic.
179. A method as in claim 173 wherein the fin has a bellow shaped surface contour.
180. A method as in claim 153 wherein the heat exchange region comprises a plurality of heat exchange elements.
181. A method as in claim 153 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
182. A method as in claim 153 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
183. A method as in claim 153 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
184. A method as in claim 153 wherein the temperature sensed is representative of the whole body temperature of the patient.
185. A method as in claim 153 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
186. A method as in claim 185 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
187. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
maintaining the step of exchanging heat for a sufficient length of time to affect the temperature of the heart; and
sensing a temperature that is representative of the patient's body temperature and adjusting the exchange of heat with the blood in response to the sensed temperature.
188. A method as in claim 187 wherein the step of exchanging of heat is maintained for less than 4 hours.
189. A method as in claim 187 wherein the step of exchanging heat with the blood removes heat from the blood.
190. A method as in claim 189 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
191. A method as in claim 190 wherein the temperature of the heart is not cooled below 30° C.
192. A method as in claim 191 wherein the temperature of the heart is not cooled below 32° C.
193. A method as in claim 192 wherein the temperature of the heart is not cooled below 34° C.
194. A method as in claim 187 wherein the heat exchange region is less than the full length of the heat exchange catheter.
195. A method as in claim 187 wherein the heat exchange region is placed in the patient's venous system.
196. A method as in claim 195 wherein the heat exchange region is placed in the patient's vena cava.
197. A method as in claim 196 wherein the heat exchange region is placed in the patient's inferior vena cava.
198. A method as in claim 196 wherein the heat exchange region is placed in the patient's superior vena cava.
199. A method as in claim 187 wherein at least part of the heat exchange region is placed in the heart.
200. A method as in claim 187 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
201. A method as in claim 187 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
202. A method as in claim 187 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
203. A method as in claim 202 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
204. A method as in claim 187 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
205. A method as in claim 187 wherein the catheter is placed into the vascular system of the patient during an ischemic event.
206. A method as in claim 187 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
207. A method as in claim 187 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
208. A method as in claim 207 wherein the fin comprises a lobe of a multi-lobed balloon.
209. A method as in claim 207 wherein the fin has a spiral shaped surface contour.
210. A method as in claim 207 wherein the fin has a surface contour that includes both spiral shaped surface contour and bellow shaped surface contour.
211. A method as in claim 209 wherein the heat exchange region is metallic.
212. A method as in claim 210 wherein the heat exchange region is metallic.
213. A method as in claim 207 wherein the fin has a bellow shaped surface contour.
214. A method as in claim 187 wherein the heat exchange region comprises a plurality of heat exchange elements.
215. A method as in claim 187 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
216. A method as in claim 187 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
217. A method as in claim 187 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
218. A method as in claim 187 wherein the patient's body temperature is sensed at the patient's tympanic membrane.
219. A method as in claim 187 wherein the patient's body temperature is sensed rectally.
220. A method as in claim 187 comprising the additional steps of selecting a target temperature, maintaining the patient at said target temperature when said temperature is reached.
221. A method as in claim 220 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
222. A method of reducing myocardial infarct by intravascular application of hypothermia, the method comprising the steps of:
sensing the temperature of the patient, and adjusting the exchange of heat with the blood in response to the temperature sensed; and
selecting a target temperature and maintaining the patient at said target temperature when said target temperature is reached.
223. A method as in claim 222 wherein the step of exchanging of heat is maintained for less than 4 hours.
224. A method as in claim 222 wherein the step of exchanging heat with the blood removes heat from the blood.
225. A method as in claim 224 where the exchanging heat is maintained for a sufficient length of time to cool the heart below 37° C.
226. A method as in claim 225 wherein the temperature of the heart is not cooled below 30° C.
227. A method as in claim 226 wherein the temperature of the heart is not cooled below 32° C.
228. A method as in claim 227 wherein the temperature of the heart is not cooled below 34° C.
229. A method as in claim 222 wherein the heat exchange region is less than the full length of the heat exchange catheter.
230. A method as in claim 222 wherein the heat exchange region is placed in the patient's venous system.
231. A method as in claim 230 wherein the heat exchange region is placed in the patient's vena cava.
232. A method as in claim 231 wherein the heat exchange region is placed in the patient's inferior vena cava.
233. A method as in claim 231 wherein the heat exchange region is placed in the patient's superior vena cava.
234. A method as in claim 222 wherein at least part of the heat exchange region is placed in the heart.
235. A method as in claim 222 wherein the catheter is placed into the vascular system of the patient after a cardiac ischemic event.
236. A method as in claim 222 wherein the catheter is placed into the vascular system of the patient before a potential cardiac ischemic event.
237. A method as in claim 222 wherein the catheter is placed into the vascular system of the patient in conjunction with a beating heart surgery.
238. A method as in claim 237 wherein the catheter is placed into the vascular system of the patient in conjunction with a minimally invasive beating heart surgery.
239. A method as in claim 222 wherein the catheter is placed into the vascular system of the patient in conjunction with a coronary angioplasty.
240. A method as in claim 222 wherein the catheter is placed into the vacascular system of the patient during an ischemic event.
241. A method as in claim 222 wherein the heat exchange region is placed in contact with arterial blood flowing to the coronary arteries.
242. A method as in claim 222 wherein the heat exchange region has at least one fin for enhancing heat exchange between the catheter and the blood.
243. A method as in claim 242 wherein the fin comprises a lobe of a multi-lobed balloon.
244. A method as in claim 242 wherein the fin has a spiral shaped surface contour.
245. A method as in claim 242 wherein the fin has a surface contour that includes both spiral shaped surface contour and bellow shaped surface contour.
246. A method as in claim 244 wherein the heat exchange region is metallic.
247. A method as in claim 245 wherein the heat exchange region is metallic.
248. A method as in claim 242 wherein the fin has a bellow shaped surface contour.
249. A method as in claim 222 wherein the heat exchange region comprises a plurality of heat exchange elements.
250. A method as in claim 222 wherein the heat exchange region is placed in blood that travels to the heart soon after exchanging heat with the heat exchange region so that the temperature of the heart is selectively altered.
251. A method as in claim 222 comprising the additional step of maintaining the step of exchanging heat with the blood for a sufficient time to alter the temperature of the patient's body.
252. A method as in claim 222 wherein the heat exchange catheter is a balloon catheter wherein said heat exchange region is a balloon having a balloon with an interior space and an exterior surface, said exterior surface in heat exchange proximity with the blood flowing past said heat exchange region when said catheter is placed in contact with blood flowing to the heart, said balloon catheter having a shaft, said shaft having an inflow lumen and an outflow lumen, said inflow lumen in fluid communication with the interior space of said balloon, said outflow lumen in fluid communication with said interior space of said balloon, and including the additional step of circulating heat exchange fluid in said inflow lumen and out said outflow lumen.
253. A method as in claim 222 wherein the temperature is sensed within the patient's heart.
254. A method as in claim 222 wherein the temperature is sensed at the patient's tympanic membrane.
255. A method as in claim 222 wherein the temperature sensed is the patient's rectal temperature.
256. A method as in claim 222 wherein the temperature sensed is representative of the whole body temperature of the patient.
257. A method as in claim 222 comprising the additional steps of adding heat when the sensed temperature is below the target temperature, and removing heat from the blood when the sensed temperature is above the target temperature.
US09735314 1999-12-14 2000-12-12 Method for reducing myocardial infarct by application of intravascular hypothermia Active 2021-09-03 US6811551B2 (en)
US10933979 Continuation US7510569B2 (en) 1999-12-14 2004-09-02 Use of intravascular hypothermia during angioplasty procedures
US20020111616A1 true US20020111616A1 (en) 2002-08-15
US6811551B2 true US6811551B2 (en) 2004-11-02
US7510569B2 (en) 2009-03-31 grant
US20050004636A1 (en) 2005-01-06 Cooling system for indwelling heat exchange catheter
US6468296B1 (en) 2002-10-22 Method for low temperature thrombolysis and low temperature thrombolytic agent with selective organ temperature control