112 022 UINC L A S S I 1~ I~E-t) ~3 C r-SING OAT-!-"--t3N:DV70 T11 LE--i',CT!jW4LG L S T H 01 'R 6 1 1 N I L A F T I (IN A.-,.;, E F r- E:G T I V 1-. 5 ':D F HUSP I TA, LK-ANj~~,,ATIO.N OF PATIENTS I TH :MIYUGARDI.AL INFA-CT16'N -U- D.B.t IA111,11, YA. U. KAtill NSK IYt V.Cr. COUNTRY I-IF INFO-USSR S0URCE--KAkJ I I YA 1011 3 7-44 DATE PUBL ISH;:D ------- 70 S* U 6 J LE C TAREAS-BIGLOGICAL AND MEDICAL SC I ENCE S TO P I CFAGS-HEXIT DISEASI-i Rz':-SUSCfTATI0No FIR ST A I U -CONTROL IMARK I MG-i40 K ESTP I CT IONS DQCUMEi-.IT CLASS-W-11CLASSIFIED PROXY REEL/ 4/0-5 41 S TEE: PNO--UR/0495/'FG/OLt)/001/0~03'1/0044 -C I R CCESSI  -212 022 U L A 5 S I F It D' PRUCESSING DATE-13NOV70 C IRC A CC E S S I ON,- NO-AP 0 13 t 170 T/FXT;~A'- T--( (j) (3P-()- 'F ~Likl I VE T 0* THE "PPICACY OF 43STRAC A6 M-11"ICT. DATA RI- I c: c !---P 131) PATIF-i-'TS S PFiL* 1) R 1-liY A;-' 0 14!- I t M P Q. " F, ri S P I AL 1, t-k 11AG. F' U- INFAP,ZT1,0~1 W RE- SUCU-SSFUlt. RE N!MAT (IN A'AS F F i_: "' T L: 10 4 3 (30.9PERCENT) PATIE,,~rs, OF ~il KY 29 (2:0.9PERC EIN T AND NERE DISCHARGEED FROM THE: HOSPITAL. ORGAINZATIGN UF N~EHOSPIIJAL ir-kEAN11MATION a PJEMED[CALI MEASURES .4 1 TH THE PARTICIPATIUN :0F T14El F LLOWIN G GROUPS -C ).~F'Gk FIRST AID i U G=NERAL F 1 R S T A I D A'-" B U L AN, C --- T E 4 ANO ~S P E , I A Ll Z E L CARDICLOGICA L TEAM IS UUTLI-NEO, THE EFFECTIVENESS f-'.F REANIMAriom, 1-NDING UPOr", THE PATIENTS' AGE ANO THE PRESEiNC': AND vAARKED~v-SS OEP -Cf~tCULAT6RY INSUFFICIEHCYt PREVIOUS TU CLINICAL DEATH), IS ANALYZE[). 'E A N L) 'If - S'JCCESSFtJL IZE ANIMATHN IS A0VANCED AG IN PRE,CE.0 ACUTE CIRCULATORY INSUFFICIEZICY OF NIL.,) A~ND MOOERATE CAIN BE E t a A S t i C, T S UC C E'S S FU L, I N f" A T I E iN T S T "-i P R E- G ~-- 0 1 :11 G 5 E k,/' ER, E cur WMINATIllt-1 k'fj%'CtJLAT:lf'~Y INSUFFICli.'NCY, "J.000 ELEGTRCILYU~N IN. THE Pi STR~AojlNATIiJN 1100 dERE STUDiLJ; THERE WAS Sl(;NIF:ICAr, . T It. lt- ;3LLil)l) K LEVEL. P ER LIKLINC 1.7 ~ T) k SHOULD BIE' TINTROG-OC-ED INI THE F:ORM OF: A.-POLARIZING MIXTURE-, E-SPECIALLY -TO PANEiN'S WNTH AN li,,I' ' 1-6ULAR CARDIAC: THYPHM, IN TIHE P0STRC-W,!I-,-lATl'JN 'I)IAC INJ OWN OF ON:OGS AND ',ifU3ATItjl-,4l IN PERIOD. PROBLEMS ;)F INTi0lCA, E PATltE,%-TS - ITH mYL3C,vfjIAL INFA-CTION DU~,IN.G i~'.ANfflATlJN Ar%F DISCUSSED. FAC I L I T Y: KIEV STA. FIRST MED AID* KIEV, USSR i  In -777- f-7 USSR UDC 621 -'585.4 ZIL'BERMAN, I.I., PETROV, G.S. "Transfer Cf Energy From An Electron Flow, To A Hlgh-Fr~aquanay Field Cf A Two-Gap Gridlees Resonator With Antipheeed Voltage At The Gapes glektron. teVhnika. ?%Tauchno-tekhn, ab. Elektron. SVOh ;A Xlectronice Technology. Scientific-Technical Collection. Microwave Electronic , 1970, 'NTo 5, pp 65-75 (from RZh--Elaktron1ka i Zeye pri-manenlya, No, 8, August 11.070, Abstract jMo BA18) Translationi In a Rinamatic approximation, acomputation is performed for the trans- far of energy from a bunched electron flow to a 2-gap gridleve resonator. IDne computation is Derformed for three annular domainst at the axia of the gup r = 0, at the edge of the get) with r = a, and.the ceoter part )o1th r =a/2-..It is shown that for small distances between the gaps, the conditions f6e, optim= transfer of energy for these three domains differ substantially., The dependence of the alaetronic efficiency of the renonator on the geometry of the inteNction dom-aln 1.9 conolderod, and. recon-Tendaticna are given with respect to a choice qf optintum relationelhlpe. 6 ref.. su=ary.  USSR T V A TICI, i EY, 0Ai. M. Ta-zF;-a aerxy of sciencesJ er,'ricall Cu.-,-rent State ot Metals Ii th Follimagnotic Inpiarities" EI L ad, Fizika 'Nerdogo Tela; May 1972;::pp 1355-60 Loningr 'h, A M-PACT L :! e- -,-ct o:~ oscillating degreas of' fro-odora of atmis on J. the vhP.De of the noifLinear volt-cR)erle charnetter-Istic of siT,!pIQ vactals -waac studied. it was shmm thal, vith 1cvt tupmpe~atares with respect to noMb ne,Lr- i:-,iez, of the volt-z-nnorn characteristic ayr! Its dari%mti-ver; it is n-ossible to recaver a spectrvii. of quasilocal o5cMafl-iom. as it is pof-:siblo to generate okay relatively small current denisitias in msuL81s, the cmUre study wa~; carriod vit for hevy impuritio.,JI.T. > 1-1), 1711C.--e Ili is thrt Ii by mass of, Of, dnp ions ann. M is thc:y,,m:vm- of tim Metal when the 'L~-e- quertay of the masiloo-a], levea la sigpj ficantly 1 C:; V, 2 1,41 1 an- tha Lblbye J and sma-1-1 drift ve* cc., I *ties o' 'he. electrons are mifficlc,,nt for the observation of the effocL.  USSR UDO 537-312.62 GALKIN, A. A., Academician of the Academy of Sciences Ula6SR, BORODAY, B. I. -A. , IVANCH:N1iXO,-: YU. ~ Ai. SVISTWTOV, V,. X. Donets Phy~icotechni- cal Institute ofthe Academy of.sciences~ukxs$H "Role of Low-Frequency Fluctuations in the Josephsoh Effect" Moscow, Doklady Akademii Nauk SSSH, Vol 196, No 3, 1971, pp 556-558 Abstracti The role of low-frequency fluctuations which lead to variations in the Josephson current as a function of anomalous current-voltage characteris- ties and magnetism is discussed. It is noted that for super conducting tunnel systems.it is possible to establish phaze coh.=enco throught the barrier to ensure tunneling of paired'electroms. Th Ie pmsence of fluctua- tions comparable with the binding enerSy of the barrier ciz considerably effect the behavior of Josephson contacts, and many theoretical axxt experimental studies have been devoted to the effect ofthermal fluctuations on the characteristics of superconducting timeling. Tunnel contacts of the type Sn-I-Sn with specific resistance 0.01-0,02 ohm-=~f iL high xatio I /I exD theor -187-9211S, and with a denendence of the critical current on the magnetic field c1me to sin W H/I'i~/ -77'H/11,D were studied. For all samples the 1/2  transition width did not exceed twice the Josephson penetration depth Since fluctuation frequencies wete considerably less than the characteristic frequencies of the systems the capacitance C and the inductance L of the tunneling and the external loop could be meglected in order to simplify the calculations. A.grapb of the effect of low-frequency fluctuations on the variation of Josephson cu--Tent wtth maSnetism. and the initial segments of the current-voltage characteristics far different noise voltages shows that the presenm of noise.voltages leads to the rise of a resistance state. The experiment showed that noise voltagps result in the envelop of oscillations of the superconducting tunnel current in magnetic fields dropping more rapidly than 1/H and ultimately in the oscillations -e the completely disappearing in.rstrong.noises. This-is said to demonstrat significance of low-frequency noises in superconducting tunneling.  Acc. Nr: Ref. Code: UR 0056 0 vgj%3804-3~ Teoreticheskoy -AM , i PREMARY SOM CE. Zhurnal Eksp noy i .1 Fiziki, 1970,*Vol 58, 'N pp FLUCTUATIONS IN JOSEP11MV CONTACT Zii'berp-L Ivanchenko, Yu. 'M.:, . A~ ia~ ~ L The bohavior of a superconducting tunnel contact inAhe presencq of thermal flue- 'tuations is investigated. In contrast to the case cA)ns;deri,,d in ref [1] the transverse di- nionsions of the transition Lire not considere(14. sniall. ono must flierefore assume that the fluctuations introduced from the external. circmit. and acLsing ;;Rhin the contact fact ru different.1- apd in 1.1w general camp cannot be faki~n into accomit by introducin r so e offective tompenituro. Tim doponden"s of the statiouary curTant component on tho inag- netiic, field and the Josepimn radiatioi) spettxa arc. caltiulated. The dependences may strongly differ from those previously known.T-4]. It is poiisible ffiat so-Alle of the result-i obtuned have been observad experi'montally P:' REEL/FRAME' 19731086  Nitrogen Compounds USSR UDC 615.216,547.831 AWW~~=N, E. S., K01"SHIN, H. YR., ZAMS, A. S. ,and Permsk Pha=ceutical and Medical Institute Study of Heterocyclic Compounds.:VIII. SubstItuted Amkdes of 293-Pentame- thylenecholinoline-4-carboxylic Acid" Moscow, Xhimiko-Farmatsevticheskiy Zhurnal, Vol 6, No 1, J= 72, pp 10-24L Abstracti Synthesis of the amides of 2,3-pentamerhylenecholinoline-4-carboxylic acid and its 6-methyl analogue was carried out by heating the hyd-rochloride of the parent acyl chloride with primary or secondary. =Jnes in benzene and in- presence of triethylamine. The products -- colorless crystalline compounds -- are obtained in 55-80% yields; tlT-,y form water soltable chlorohydrates, The amides synthesized shog iuaxima in the Wapectra at 2~2-~410# 280-286, 306-312# and 320-326 mu; theae =x1ma are shifted~.bathquhro~ically with intro- duction of a 6-zalthyl substituento. The LD doses of these campounds ranged 5V fiva 84-375 PgAg body weight*  USSR- GULYAM, Yu. V., ZA'BEIMN, P. Ye. ,Institute of Rado Engineering and Elec- tronics, Academyt.-o~~13141r, Moscow "Superheterodyne Amplification of Electromagnetic Wav e s Leningrad, Fizika Tverdogo Tela, No. 4, APr 71, pp 955-957 Abstract: Tiie possibility of heterodyne amplification of electromagnetic waves in a nonlinear medium is investigated. Superheterodyne amplification of ultra- sonic waves was discussed in 1970 by theauthors and~,It was noted then that this principle of superheterodyne ampli-fication is applicable to other waves, such as electromagnetic. 1"n this case, the mediumshould have the capacity for selective amplification of a weak wave of frequency W., where w., . corresponds to the maximum of the amplification. In the presence of a'strong wave of frequency w 9 , which Plays the role of a heterodyne, the increment of growth natural to the frequency W is also transferred to the frequency of W w wi. The intensity the signal 3 = - of the wave w necessary for this ef f ect is calculated. It iG shown fliat this 9 1/2 1=r"Mr MUM  USSR GULYAYEV, Yu. V., ZILIBEIMAN, P. Ye. ,Fizika- tverdogo tela, tic). 4, Ap-- 71, pp 955-957 intensity is sufrIciently smaliso that the parametric.amplification of the sig- nal can be neglected. The physical reason For th-is effect is the fietevodyne action of the intense wave and due to.the,nonlinearity of the medium thils wave 9 after being displaced from the signal wave generates a wave at the frequency of the maximum amplification wi. The latter is amplified-and after interacting with E is again transformed into a signal. 2/2   ,:-.2f2' 03.3 UNCLASSIFIED PROfES,S[NG DATE--30OCT70 IRC ACCESSION NO--AP0120428 GP-0- ABSTRACT. ASYSTEM OF PHENOMENOL. EQUATIONS .IS' SOLVED AND FORMULAS ARE DERIVED FOR TH&ELECTRON ABSORPTION Or ULTRASOUND IN N GE TYPE SEMICONDUCTORS :IN A- WIDE FkE-QUENICY RANGE. AT -HIGH.FREQUENCIESt PARTIAL NEUTRALILATION OF EI-EcrRwi CLUSTERS TAKES PLACE IN SOME DIRECTIONS (AND AT ULTRASOUND CERTAIN POLARIZATIONS) OF -*AVE~PROPAGATION. THE INFLUENCEIS DISCUSSED OF3HE ANISOTROPY OF .,~:ELECTRON.ENERGY SPECTRA ON THE ULTRASOUND ABSORPTION. FACILITY: -'-INST.- RADIOTEKH. ELEKTRON.1 MOSCOW,-,.USSR*  USSR UDC: ZIL I BERMIAN), P. YE. and MISHIN A. G., Institute of Rsl i oEtigineerinn, and Elec-tr-o-n-id-TF tSSR Academy of ScieAces,; Moscow "The Effect of a Strong Blectric.Field on the Interaction of Electrons with High F-r-equency Ultrasaand7. Leningrad, Fizika Tverdovo Tala, Vol 14j NO 3, ~4tr 19~(2, pp 902-~~04 Mbstrac~-. t, The authors nresent the results of studying ~4e intensification of ultz-asound with the follo-wing ~conditions satisfied: k X > 1, vhere K is the th of the free path electroi r vave nuncer of the sound and -kf is the leng 1 S 7, C1 k T I., where the -~-ate of drift _z`-dr, and where p'llse rel~-ation tim-e and e and m are the char~7e and rrass of the elect-ron. An appropriat/a, systeri of equations vms obtainvd by using a procedure describwd byjP. Ye. Zillberran (ZILEM7, 19'3, 1971). As opposed to the latter vro:edura, the authars of 00, this paper consider t. e higher harmonics,of the s=nd umve. Equations vere h Solved by the methad of iteration vith regect to the iizzlitjAe of the Virst ha-=nic. '22-3 sound a =1ification coefficient is calculated,~takirag into con- sideration the rnain, nonlinear contribution. Thc~authrjrs thank V. L. Bonch- Bruyevich, Yu. M. Gallperin Yu. V4 Gulyayev, and V. Di, Fagan for their dis- c,ussion of the work. Original article: 11 formulas, ore figure, and four b*bliographic entries. V1  UN6LAa4kr:LCU_J~-;;~, VILML ~P:N A M): UA I t:-- JU UL, I I V -Tll 'TERMINATICU C~: Tt-.E CONTENT-OF, ~a.ME'A'UXILIA.Oi 'SUBSTANCES IN ~~40SPENSICN- POLY VIN',L cHLORIDE U- ~._,u lipq-105).-PEREPLETCHIKOVAs YE.Mor KALININ#l.l.v! KWILEVAs Y.Not' ZILBERHAN YE*No 14 KHEVA v_~g.V. it CUWT_k~ SOURCE--PLAST. MASSY 19709 (3), 48-51: ATE:PUBLISHEG-70 UBJECT AREAS-MATERIALS' OPIC.TA-GS-POLYVINYL CHLORIDEs CHEMICAL SUSPENSEONY CHROMATOGRAPHYP :_PBLAROGRAPHIC ANALYSIS# COLLOIDr LEAD* CAOM JU14,t BARIUM, CALCIUM, 101 .4 6041CAL.:ANALYSIS GiVTROL MARK I NG-NO RESTRICTIONS OCUMENT CLASS-UNCLASSIFIED AOXY REEL/FRAME--.199911802 STEP NO--URI/019L/701000100-,-i/0048/005i IRC ACCESSION NO-AP0123599 UNI"ASS-IFIED  11 m I[,; 23' -0 UNCLASSIF PROCES51NG DATE-30OCT70 CIRC ACtESSIGN NCt--AP0123599 AMRACTIEXTRACT-(U) GP-0- ABSTRACT. THE QUANT. EXTN. OF RESIDU'%L - --IXITL~TORS (E.G., 8Z SUB2 0 SU82, AZOSISISOBUTYRONIMILEt LAUROYL PEROXIDEt ETC.J FROM SUSPENSICN POLY IVINYL CHLURIOE-) ti) "oND THE DC"N" OFINITIATORS BY GAS,LIQ. CHROMATOC. AtialpOLAROGRAPHY 6ERE DESCRI&EL). QUAL- CHER. REACTIONS WERE USED TO., mcawr',LFy~ PROrLCrIVE CO"LUIDS IN ".Q. EXTIS. UFA. PB PRIMEZ. POSITIVE, ED PRINe2 POSITIVE 6A PRIME2 POSITIVE, ---.AtiD.CA PRIPE2 POSITIVE WERE DUD. BY EMISSLON SPECT~OSCOPYt ...'POLARGGRAPHY-m AND.QUAL. ANAL.s, WKEREAS VRE.:1CONTENT OF MATOG. :'.''ClS.s9*OCTADECENErlrOL WAS DETD. aYlGAS 1,110.s CHR01 11JOC I A C C I 1:~ rlLn- V 4 4 ~' 9- li..~ 0 f. - & 4- w  U~41CLAS.Sl FXED.~:ml t:.SSI'qG DATE---O?'.CT70 OF THE R~ACTION OF T RlICHL(Q'-._~0ACET'_l,'4JT RILE WITH SULFtJ?lr ~-.AGIa:hIGNO-tiYORATF U- AUTH-.19-(0-33 )-..I ICFUKI.N A.A., SIVEN'.K0V, VE.A.v ZILRE*'.'%:vA% YE.114. CCU%JRI~ ~jF I,'%Fo--USSR UU,-~CE--Zli. Cl:~G. Kiili'i. V470# G( 3) 626 -S.t DATE PUFL I SHED ------- 70 SU3JECT A r~ r A S -C H E M I S T RY To p I CTA'S--CHEMICAL REACTION, RATEt CHLORINATED ORr4ANIC COMPOUND, :.%fET0NflTKI LE, SULFURIC ACID, AM 1,14 E SULFUR' OXIDE CC%TRC-L 4R K 1:;%iG-NN RESTRICTIUNS OCCU."ENT CLASS--UNCLASSIFIED -- 1, -- UR 03 6 6 7' 003 t) 03 30 b 2 6L,;~ > PROI)ry ~IEFLtFRAME 19ZI15L,7 STEP 10 , C I;.,- CACCE5SJ!'!,N NIC--AP0112'341 U?~'_L AS S11 F I ED ....... . . . . . .  -212 012 UM C L A SIS I FE D PROCESSING DATE--O?-~CT70 CIRC 6.CCESSION NO-AP0112541 -XTRACT--LU) GP-0- ABSTRACT, AISTRACT/l. THE- REACTION OF CL SU33 CCN WITH H SUB2 SO SUB4 GAVE SMALLER THAN OR FQUAL JU 40PERCENT CL SIJ33 CCONH SUP32 I ) AIVO SU SU83 HEATING I IN A 3 FOLD EXCESS OF CL SUB3 CCN GAVE ((;L -sufi-3 CCl3NHJl SUB2-SO SUB2 (11). THI S COMPL). IS NITT FOR14ED WHEN 1 91 S HE4TEV WITH SO SUB 2 ALONG; HOWEVER,~UNDER C.ERTAIN CD.NDITIJ~IS (P. 8AUMGARTEN, ET AL., 1931) o B I REAM, -W I M S S:U 2! TO GIVE CL SUr33 CCj,4Hso SU82 UH. A CYCL IC MECHANI SA Is. PROPOSED FOPL THEI~FORAIATICJN OF 11. -UNCLASSIFIED- -  021 UNCLASSI FKD PROCESSING- DATE--?__lN0V7(3 TITLE--P.OLY.'4ERIZATION OF VINYLIDENE CHLORIDE BYA CATION.TC, MECHANISM -U- AUTHOR-(04)-KULIKOVA? A.YE9, ZILBERMAN9 YE.N., PINCHUK, W.M., OKLAONOV, N.A* OF INFO--USSR SOURCE-VYSOKOMOL. SOEDIN.t SER. 8 19701:~la'14), 298'301 DATE PUBL ISHEO-----70 S_UBJECT AREAS--CHEMISTRY TOPIC TAGS--POLYMERIZATEON, VINYLIDENE RES I N CHL OR tD EC HEM I C AL REACTION MECHANISMO-.CATALYSTt ZLNC CHLORIDE., CONTROL'MARKING--NO RESTRICTIONS ~~:OOCUMENT CLASS--UNCLASSIFIED PROXY REEL/FRAME--3006/1248 STEP NO~,-UR/Od~60/To/012/004/029810301 Cf.RC_ ACCESSION -NO--AP0134'922 Uf:lct Ass-t-F 11---o   USSR UDC 632.95 GOL'DINOV, A. L., PkWSHIN, Yu. A., ZIL'BE&MINTS, G. S.,.-SHAPKIN, L. G., and GALUTSKIY, G. M. fiSynthesis of Trichloroacetic AciV USSR Author's Certificate No 284781, Filed ll.Jun 69, Published 12 Jun 72 .(from Referativnyy Zhurnal -- Khimiya, Sv6d Tom, (I L-S) j NO I(II) , nyy 1973, Abstract No IN499P by T. A. Belyaveva) Translation: Trichloroacetic acid is synthesized by oxidation of CC13CHO (I) at 45-65% in the presence of HN03 by.passing oxygen t4,rough the reaction mixture, follcr4ed by a final oxidation Witt' HN03 at 80"1000C, Example. Synthesis is carried out continuously in;a sequence consisting of three glass reactors (Rc) . The first Rc is supplied,with 1, as w611 as with 0 03 and 02 in amounts 0.2-0.5 and 0.4-0.8 mole.per 1 mole of 1, res~pectively. In some cases the second RC is also supplied with 02. The reaction mixture stays in each Rc for 6 hrs. Temperature in the firsts second, and third Rc is maintaiaed T at-45-65, 80-90, and 90-95*C, respectively~ Ahe conceii.tration Of M103 is kept at:85-98%, and of I at 83-98%. :The yield of CC13GO011; 14 97.5-100%. 1/1  USSR- UDC 632.951. FADEYEV, YU. N ZMITLAVLEVA L. M., All-Union ZIL B F-WWj.2,j, 4 of P ientific Research Institute h topaithology'~ Ef f ect of Specific Acaricides Against Susceptible and Resistant Red Spider Populations" Moscow, Khimiya v Sel'skom Khozyaystve,:Vol 8, No 10 (84), Oct 70, pp 34-38 Abstract: Experiments were conducted to determin'e the suitability of some acaricides for killing resistant forms of mites. A susceptible population of Tetranychus urticae Koch. taken from Moscow greenhouses was studied as well as threeresistant populatioi is produced in the laboratory by keltane, mercaptophos and aramite,:selection. The acaricides tested were acar, acrex, aramitej bi4opacryL, eradex, halecron, keltane, mesurol, m2.caz2.ne;, milbex, and morestan. The results of these studies show that any resistant red,spider popula- tion can be destroyed by proper selection of three of four specific acaricides. In the case where miteadevelop a resistance to organo- chlorine compounds, substitittion or alternate applicaltion of acaricides from the keltan6-acar-milbex-micazin.e g-toup is not recommended. 1/2  USSR ZT,4BM(INTS 1. V., et al., Xhimiya v Sel':skom-IKhozyaystve, Vol 8, Mo pp, 34-38 Substitution and alternate application of acrex, aramite, binapacryl and morestan may be used as well asl-combination~of these chemicals with any from, the first group (keltane, acar, milbe--c and micazine). All compounds tested with the exception of mesural can be used to combat mites which are resistant to thi6phos, mercaptaphos, rogor and other similar organophosphorus compounds. Djesurol should not be used simultaneously with organophosphorus couipounds to avoid development of reaistance tothis.entir0t;gro up f pepticides. 2/2  SOURCE /69 /032/001/0102/0 105 ACC NR- AP9011014 CODE: U11 ; Z" or Zil'bermi n G L ts Prof es S ad Y (1l G HOR . . ' . u. e . : rosman, ' AUT ; Rabotnikov, Yu. 'M. ORG: Department of Pharmacology /Head-Professor Yu~. S _G ~Ti n rM Medical Ins-titute;t(Kafedra farmakologii Permskogo meditsiziskogo inscituta) q TITLE: Effect of vitamins and their combination with cholinolytics on the course of acute poisoning with some organic phosphorus~compounds SOURCE; Farmakol6giya i toksilrologiya, v. 32, no,. 1,* 1969, 102-105 TOPIC TAGS: organic phosphorus insecticide.. ;cholinolytic' selective drug effect, atropine, ABSTRAC-C The effect of the gritigliolytic compo%ind "g,angieron" 1-10 )a, tha. combina.tion of "ganp,*1 faicrograrmi/g of body wip eron with atropine, and vitamins in donages. shown the tabli!j. ur, Lho of dhlorophos. trichlormetaphos and phosphacol poisoring Hoses equ a--j- to LD100) was studied in mice,..rats and f rogs. :All~drugs were administered intraperitoneally. The vitamins and antidotes were administered 45-60 min before the organic phosphorus compuunds. The antitoxic effect was evaluated by the survival -rate 1-a mice during 24 03443 113  ACC. NR: AP9011014 Table 1. Effect of vitamins on mo rtality in mice, po isoned with soine organic ]*Qaphorus ..... compounds ...... Dos e's Mortality in:mice (in '/1.) at. Variou Vitamins and (micro- j'after administration of druqs the4 jr COM- g rams Ch lorophos Tri!~hloxrrwe binal gra 3hr a hr juhr, h r lsh~'! 2jhr Control 80 so 100 100 Vitamin PP 10-100 35 53 80 45 W 100 Vitainin B. P