29 616.13:616.71-001.5-007.234 ., . . » - http://www.famous-scientists.ru 134 65-75 99 , - 133 . , , 0,053±0,004 . 0,008±0,0006 0,030±0,002 . . 3- 1 1 - , 1-2(208±9,8 %). 10,6±0,85 ( 5,3±0,42 , ). . - cago» ( ). , « » , . , . 3 - , ( ) - - . , . . - . . - , 65-75 , - 134. 21 . -I-3 . - ( ; 99 133 "CIS", , ), - -75» ) «Nuclear Chi- -32 ( "Radiax", ). . ( 3 , , - , . 2 . - 2, 2008 30 2000-5000 -1-3 . . 133 , - ) - , . . , 0,2 - . 8 99m 7,4 . 1 10 . 1 ( ), , 1,61 - - , [3]: . - 500 = 1,61 , 133 . - , , [1]: 1/2 = 0,693 – 0,7 100 100 , , . 1/2 , - . , , 6 . - , ( - (17-22 21 ) [2]. ). , , , ( - , . - 30 ) - "Trakor uropa" ( ). 1 [4]: . , . ( 1 ) 2 133 - . . 1- , 3- f = l x _Cx(O)_ - _Cx(T)_ P Stto Cx(t)dt ) ; (t) t; Stto Cx(t)dt ( - 7- - 125 I- ; l. , , 2 ), . 125 . . .nutritia, , I, - 99m = , 10 1 (0) ., . :0 1 - 2500 , 0,74 125 I- . ( 2, 2008 - 31 133 ) 3,7 . - - [3]. , - ( . 1.1.-1.3). 3- 0,053±0,004 . 1 0,008±0,0006 (208±9,8 %, <0,05). 1 - 0,030±0,002 , . 1-2- 27 , . 30 . . ( ( ) ). ( ) 33 36 ( . 1.1. ) 10,6±0,85 , <0,01). 5,3±0,42 . - . ) . ( ) 2- 2, 2008 ( - 32 . 1.2. . ( 1.3. ) ) 54 54 . . – ), ( – ) . 2. ( <0,01), 12,7±1,01 ) (42-46) 240±16,3 % - ( <0,01). 125 133 I- : ( . 3, 1) . 2. . (112±4,4%, 5,9±0,4 , >0,05), . , 70- , . 5- ) - . , 14- . , - 70- 2, 2008 . 33 14- 7,5 ( ( ) , ) 23- . , ( .3, (1,7 , 90- ) ( 3 - ). 2). . 3. (1) (2). ) 3( ( - ) . 6- : ( 7 . 3, ) : - , , 90- . , , 5- . 15- 3). . , . - 1. ., 1988. ., . // . . 9. . 39. 2. // : http://www.consiliummedicum.com/media.book.05_01/24.shtml. 3. Kety S. S. // Am. Heart. J. 1949. V. 38. P. 321. 4. Paradis G.R., Kelly P.J. // J. Bone Jt. Surg. 1975. V. 57A. P. 220. , 2, 2008 34 MICROCIRCULATION IN REPARATIVE PROCESS AFTER FRACTURES IN PATIENTS WITH OSTEOPOROSIS Sveshnikov K.A., Ruseikin N.S. Mordovian state university of N.P.Ogarev Main blood circulation was studied at 134 patients at the age of 65-75, with osteoporosis and fractures. Human serum albumin, marked as 99m Ts and tissue bloodflow – s133He was injected to the patients. It was found out that in healthy person through anterior tibial muscle flow 0,053±0,004 ml of blood at 1 g of tissue per minute. In cortical layer of diaphysis the volume of blood flow was 0,008±0,0006 ml at 1 g of bone per minute, in bone marrow – 0,030±0,002 ml per minute. At the 1-2 day at trauma site blood circulation was weaker. Three days after trauma blood flow started to accelerate along all damaged segment (208±9,8%). Amount of capillar blood flow at anterior tibial muscle increased up to 10,6±0,85 ml (normal 5,3±0,42 ml). The area of increased circulation was much bigger than the fracture site. 2, 2008