SCIENTIFIC ABSTRACT ROMANOVA, M.G. - ROMANOVA, N.V.

        Is Is 1% to it It It jo 1 12 ji a it H ii ?i in )I v So A I L-A L-1 to,- L ol@ N F 9 K I T . V, V V, L_ J_ -L- AA 06 CC W tf, @ q 11 it 0 A-)- 4,0,01" 00 1 Alterations of wheat gluten in the process of sprouting, ' - 00 11, Koz ittina and ' *f' -V' 'i- ti 50 f lU l ji I le 1 i W A U r :17S ly fie gluten P -p-tating ujuh-rgeous rctuarkatile isirch. rhjngvs. it crtmi. I'll, reudily, lacks elasticity andbehAv"Urthexilitell'A i' l, h4Vc I.vil wtificiallY moldvil. a th.ur ill Which unioatti.aci Atialy5i. actually Oww% that the lr@r fat acid witeitt ill. cwa.'" Imill ar@ initial too toil tbo:@.'th dAV J'f 'pf"titing. After M, rt,'ll"Val if W arld i14-1hy'Imlytiv Iff'"Iftetio with ellicr, the yfutctl tof J"'ilt ill file onArly @(Jjze' i-f @prmitiloit 1whaven itoirrvially. Ili tile litter star.-, (.it. 09 fire gltttrtt %how-ii I hi- t7l'[4-cl of lirtilvi-tylic vmy1l1v%. 00 Ll r- 0 C1 YJ too - @` :4 I.L@ @ : 0 :77 '3C.- f.10-o 1 9 -04 0 ill U Aq i If W. to t It 3p SM or, 19 it It rt dmc 0 * eig 0 o 0 0 00 0 0 0 000i0@99996000 0 0 00 00 00 000 of ielse ijo as 0 0 0 S 0 0 f 0@0000OLO 'A -00 =00 00 zoo see tile 0 A  ROMANOVA M. Sjo CAND MED Scl "Aae (KND INDIVIDUAL PECULIARITIES OF PUBIC SYMPHYSIS AND CERTAIN PATHOLO- GICAL CHANGES 'OF P U B I C, SYMPHYSIS X-R lN, A Y Am A,@&s (ROENT- GENOANATOMIC AND, CLINICO-ROENTGENOLOGIGAL LENINGRAD$ 1959* (MIN OF HEALTH RSFSR, FIRST LENINGRAD. tvi E DI N S TJR ACAD PAVLOV). (KLI 2-61t 219),            .@mmer' I lyisis;,,@JntL akferiiig 36n. prminina: :s-.-were:lnad6,zit,',530-m@ 4 mi imici-onE - T o ac ev m (19 51 *hoare:.  2- @ -,:: i,- @l .- I_- 7109 1:, L ki I%Z. ali .I..,  d3 3'- ar C       -------- --- -- IT I @y V t@ -7 47 U '0 71 a r    T P -AtA A 44   AUTHORS: Voronkov, M. G., Romanova -28-3-28166 SOV/79 TITLEt On the Thermal .-Adition. of "richlorosilane to 'Dioleffnel-I dr@ carbons (Termicheskoye priczoyedineniye trikhlorsilana.1c diolefinovym. uglevodorodam I PERIODICAL: Zhurnal obshchey khimij.. 1958, Vol. 28, 1-1r. 8) pp. 2122-2128, (USSR) ABSTRACT; In'the previous paper of the authors (Ref. 1) the thermal add.@-.-., tion reaction of trichlorosilane to the. mono-olef inic:hydro-,:@'' c.ar-bons*was.treated. It was interesting for them to exterd this reaction to various diolefine hydrocarbons. There are several indications-in publications, mostly of patent character that a thermal and catalytic addition of the trichlorosilanel':@. to diolefine-hydrocarbonS 45 possible (Pefs 2-8). --he autho'rz-z@.. were, however, not abl:e to add the trichlorosiL;ne_to a seri:a!:. of d double-bonds.in the - iolefines which contain I conjugat ed presence.of organic peroxides or under ultravioletirradiation' since a*polymerization of the initial hydrocarbons took more rapidly than the addition of the trichlorosilane to: t double bond the reaction C,ould. be carried. Card' 1/3 in the most cases successfully without catalysts at h4h  SOV/79 28-8-28166 On the Thermal Addition of Trichlorosilane to Diolefine Hydrocarbons peratures and.under pressure. Thus thethermal addition of the trichlorosilane to diolefine hydrocarbons with isolated and conjugated double bonds was investigated. In the first case the addition reaction takes a normal course, according@'..; tA the rule of, free radical additiono The addition'of the trichlorosilane to 1,3 cyclopentadiene and dicyclopentadisne..'.." leads mainly to the formation of bis (trichlorosilyl) cyclo_',:@-'@:: pentane. The reaction of the trichloro 1,3-cycl silane with 07-@_ hexa-di4owrv, and above all with dipentene, takes an abnormal. course, under formation of a product of the addition to the corresponding cyclomono-olefine product of the "direct cata-,.:-., lytic transformation" of the initial hydrocarbon. 6 additive,,:,.,,., compounds of the trichlorosilane to 'diolefines are described the most of which were newly synthesized. There are 2 tables:', and 17 references,.12 of which are Soviet. -ASSOCIATION: Leningradskiy gosudarstvennyy universitet.i Institut kh iqi i" silikatov Akademii nauk SSSR (Leningrad State University and Institute of Silicate Chemistry AS USSR) Card-2/3             PAVLOV, A.N., otv. za vypusk; VOLODICHEVA, Y.H.; IVAHOVA, A.I.; KULAKOV, I.H.; LTAMINA, T.N.; MITIKINA, L.I.; P02DHYAKOVA, K.P.; RODIONOVA, L.I.; Rq!@@OVA.,@ _N,&j. SOPIUV, E.S.: CHICHKINA, A.A.; IRESORUKOVA. Z.G.; BOGATYREV, P.P.: BROVKJ2A, A.I.; IVANOVA, L.D.; IVASFIKIN. GoAo; KAMNEV, N.I.; LYSANOVA, L.A.; 02HMMIYEV.,L, %.I.., PAVLOVA T.I.; TTUTYUNOVA, 11.I.; UMUITSTRA, A.P.; %ffIVMIN, N.N.; ALESHICHEV, M.P.; VINOGRADOV, V.I.; TWMIN, F.S.e KRAVCHMMO, Ye.P.; LOYACHEVA,, M.VG; ITIKOLI,SKAYA, V.S.; MAKHOV, G.1 o SOGINA, A.V.; TAREYRV, A,V,, KHOLINA, A.V.; BRYX4SKIY, A.M.; BURMISTROVA, V.D.; GRIGORIYEVA, A.K.; LUTSE14KO,.A.I.; OREKHOVA, Z.V.; TLTLINSKAYA, N,V FEOKTISTOVA, V.I.; BUTORINI I.M.; BOCHKAREVA, L.D.; BUREITINA, V.A.; VETUSHKO, A.M.; VIKHLYAYEV,.A.A.; SOROKIN, B.S.; TSIBENKO, L.T.; NIKOV, V.N.; DWIOV, D. I.; SUWANOVA, V.A.; KAITYAKIN@ V.I., red.; VAKHATOV, A.M.; MAJUROVA. O.K.. red.izd-va; PTATAKOVA, N.D., tekhn.rede [Soviet agriciilture; a statiBtical manual] Sellskoe khoziaistvo. SSSR,- statisticheskii abornik., Moskva,,196o*, 665 P. (MIRA 13:5) 1. Riissia (1923- U.S.S.R.) TSentralinoye Btatisticheskoye uprav- leniye. 2. Upravleniye statistiki sellskogo kliozyaystva-TSentrall- nogo statisticheskogo upravlenlya SSSR (for all except Makarova, Pyatakov-q,, (Agriculture-Statistics)   ACCESSION NR: AP4043263 S/0203/64/004/004/0808/0811 AUTHOR: Romanova, N.. M. electrical conductivity within the earth according to data on Dst TITLE:. Distribution of variations SOURCE: Geomagnetizm i aeronomiya, v. 4, no. 4, 1964, 808-811 ic variation, TOPIC TAGS: geomagnetism, terrestrial electrical conductivity, geomagnet 7-- Dst variation, earth conductivity, conductivity depth dependence, electromagnetic induction ABSTRACT: The conductivity of the earth to depths of 300-400 krji differs little from the -15 [conductivity of dry rocks, i.. e. it does not exceed 10 emu.. At a depth of about 400.km @y to 10-12 Ithe conductivity increases sharp emu, and then with an increase in depth the conductivity.K increases continuously., This pattern of distribution of.conductivity is typical for the entire eartl thors that the value K in various h. It has been postulated by certain au thor of. regions of the earth shoudl differ from the mean value for the entire earth - The au .this paper has investigated electromagnetic induction in rectangular and cylindr@cal coor- ty on the basis of data on D.j ,dinates for the case of a nonuniform distribution of conductivi variations (Geomagnetizm i,aeronomiya,:1963, 3, No. 1, 552- 1963 3 No. 6, 968; and @p 0 V @ 11.. . e to determine the.. conducti 'V '1964 -4, No. 1, 161). This mad6 it possibl vity and the Card V6  CESSION NR 43263 '@AC AP,10 magnitude of th e- nonconducting layer for different places. in the world. An estimate was ob-' e e harmonics of the " uced field, and a formula was derived for computing the @,tain d of th ind @'induc observe field and the comp' ed field fo ed field. The results of a comparison of the d Ut r% @@'JTashkent are shown in Fig. I of the Enclosure. This figure shows t4p coefficients for analysis of Dst variations (solid curve E -- observed, dashed curve observed, dot-dash curve I -- computed) for particular. values of K and d. The same was done for 13 observa. i i tories in the SSSR. In nearly every case the computed and observed fields coincided. The values of X and d obtained in pne of the earlier, studies are shown in Figs. 2 and 3 of the Enclosure (Fig. 2 _- conductivity values determined using data on Dst variations, K = n. 10-12- emu; Fig. -3 -- values of the thickness of the nonconducting layer in km), It is shown that the conductivity and thickness of the nonconducting layer vary rather greatly for different ob- servatories. 'Irnie authors wish.to thank.Yu. D. Kalinin and V. N. Bobrov for discussion of the. results and L. S. Loginova for assistance in analysis of the data!'. Orig. art. has: 2 formulas, 3 figures and I table. ASSOCIATION- Institut zemnogo magnetizma, ionosfery i, rasprostraneniya radiovoin A14 SSSR (Institute of Terrestrial Ma etism, the Ionosphere and Radio Wave Propagation, AN! T P SSSR)  rd,- 316       AUTHOP: VomVo,,ra-- 3011/21o 12-1-3..43/47 r i b u + i o nand Becl D@st og-t,,,al Description of North Caspian A@nphipoda arA Cumac,*a @Ra3,prostraneniye i * ekolo@:lcheskaya khur%kt,@riot D,,4. Amphi poda i Clmacea) PER ?0' 1 CAt llo kl afj n all V SSSR, laqH:: Vol 121 fir y PP, 555 556 (USSR) 4,7ZT114r. T Thes-9 Problems have been v c ry n. u c h !,eglected (Refs 1-5). Vhev ,.sxa of greatest ,umportance for the understanding t? the ;:-,hanges occ,.irring --i the nutriti-Ve fELuna- in connection-: - inathithe rei-mlatiop cf the Vol,.@:a, The author e"imihates 3 - , grroups of higher crusta.-Iea 1.11hich difter with respect-t thei. 0- ir geographical distr-Lbution kTable 1. Genera distr."Lbuted. , ever the entire Cazpian@ Sra -'Kaan" mcr*-.) -,h.ich enter , --i -he. ri.ve-- the bra,,' ish parts f t h northern -%A and @fil@ Genera usually dl@3trlbu';-ed -ver the entire sea which however, do nct. i i kre 4. n fre,-h water, III., Gen -ra which are . only typ-&.cal or the middle and southern sea i,@e@bouh sublitoral and Arctic; the are reztri,:@ted to deeper water y Card 1/4 and lower temnpratijro@a @R-@-fs 'The I I 6--o u P is being  Distributior ari Ecolo,@ical De6cripri RolA and r7uza@eaa Caspiaig Amphi distinguished- for the s Owl iv Ld ed as, @o I I ow '40ep slopa Or thc. wes-ef 1 14 seprosen., as of the number @)f aa--,7,@n j I n. merl"toned in Poi-.1 Y Ilelong, 't 0 tne types men. cruslla@-ell Of the pa o'." - t h the a n d bove men t i ot (Ta orusta@-ert ar e t o a ,a srea PartlellularIj f,-,r gro 11p 0-15". The types* rof "r t 0 f r e waterd .13r0'al." III an Other Axot-@ r Card 2/4 morO I e Ccm.j n-6 M --A  Distribution. and Ecological Description of North SOV/29- 121-3--43/47 Caspian Amphipoda and Cumacea !I entered the Azov Sea (Azovskoye) and the Black Sea (C', -oye more) (Refs 1,6). From the lacking of group hern III in the catchme t area of the Azov Sea It ra n ay be concluded that,the salt content in the strait of Kuma- 0 Manytach O'Cuma-IManycheskiy proliv) did not exceed 7 As a result of tile toleration of different salt content ryhalinity) the conclusion may be d awn@ th . .... . eu r at In the case, ( Qf a change of the salt content within the limit of 0-131/00 no, important changes of the carcino fauna, are to be expected. There are I table and.7 references, "I of which are Soviet', ASSOCIATION. Vsesoyuznyy nauchno-issledovatellskiy institut morsko go rybnogo khozyayst.va i okeanografii (All-Union Scientific esearch Institute'of Maritime Fishery and Oceanogr R aphy) PRESENTED: April 12, 1958, by I@I@Stimall-gauzen, flember. 'Academy of Sciences, Card 3/4 USSR      Advam ACC NR: AP7013141        I nylh ta t c. "0 15, 194(1 9                 -RQMN(WAj- -N - P. and Sh-MMKAYA., -le. M-.   -X(;@RPTA 1-IDICA S ec.,q. Vol.10/7 Neurology,etc.Jul@' 57 @/ C-) @,/C/ /) L R 3156. RONfANOVikiN.S.Lii).otLxl)cr.l'livsiol.ofRestiicitit.l~olloftlicorg:tllisiii,"%I cow 77i-r-r-l-y-n-a-rr-it-cs--o7-lFic--7tistolinthologicaI changes in the brain in experimental hypoxia (Russian trxt) Z, Nevropat. I'sikiiiat. 1956, 5611 (49-5i) 111tis. 5 The morphological rl!anges in the brain of dogs. resuscitated after clinical death of different duration (from 2-8 min.), caused by actite haernorrhage were studied. tile restoratiOn of vital functionswas carried out by the method of V. A. Negovski and co- arteries towards tl e heart and artificial re " -it' :Workers, by pumping the blood in the '. I Ispir. ion.. insufflation of air into the Itings by in apparatus. A histological examination of the br. is of 25 (logs, restiscitited.at d thereupon killed in different periods front the moment': air of clinical death (!several minutes - 32 days) was carried out. The staining was done by. the methods of Nissi, Snesarer (for astrocyte g1ii, connective tissue and argyroplille granulation), Bielschowsky, hacinatoxylin-cosin. The microglia Was itaincd by the Migagaiva method modified by Alexandrovskaya. III every case sections were taken from. the frowal, parietal, temporal and occipital lobes, from the visual area, corpus striattini.. corInu Ammonis, pons,.medulla oblongata and cerebellum. The investigations carried out. @showed that the process of changes in tile brain in conditions of hypoxia,takes its course in several stages. Immediately after clinical death the changes were characterized by 4cidophilia, swelling, karyocytolysis, enlargement and sticking together of the agyrophile granules, the swelling of the blood-vessel endothelium, little perivascular ocdema, some yte glia. In 3 hr. after clinical death a dusty tipToid was @s% elling of cells of the astroc added to the picture. 15-21 hr. afterwards tile changes were still more marked, the nerve ate of diffuse ti lysis, - any cells in -a state. of karyocytol a partI cells -were in a st gro m ys is, f, tile a s .cells of -the astrocyte gli lo t their dendrite The central ';icidop,hilia.was pre- 36-48 hr. one could notice,some singlesigns of recovery; tile tigraid re-aP-,. as -like particles. At the same ti vacuolation appeared reaching sometimes peared lust me considerable degrees. In still later periods the vacuolation decreased, the number of un-. changed cells increa3ed. It'is, concluded that brain-cells are capable of recoveryeven after a severe hypoxia. Golland - Moscow  MEDICA 'zoe 5 Vol. 4U-010,-7 3- anism. 2688. ROMANOVA N. S. Lab. of Exper. Physiol. of Resuscitation of the Org, j Moscow.* The dynamics of the histopathological changes In the brain in experimental hypoxia., (Russian text) I.NEVRO- OAT. PS.11911AT, 1956, 56/1 (49-55) Illus. 5 The 'morphological changes in the brain of dogs, resuscitated after clinical death 1 of different duration (from 2m-B min. )'r caused by acute haemorrhage were studied. i The restoration of vital functions was carried out by the method of V.A. Negovski and co-workerg, by pumping the blood in the arteries towards the heart and arti- ficini respiration - insufflation of air into the lungs by an apparatus. A hist'Ological c-xasninatlon of the brains of 25 dogs, resuscitated and thereupon killed.in different perlods ri-om the nioment of clinical death (several minutes -32 days) was carried out. The staining was done by the methods of Nisal. Snesarer (for astrocyte CIL-i, connective tissue and argyrophile granulation), Biclschowsky, hacrnatoxylln-eosin.@ The Imicroglia was stained by the Nllgagawa method modified by Alexandrovskaya. In ever) case sections were taken from the frontal, parietal, temporal and occipl- tal lobes, f rom.. the visual area, corpus striatum, cornu Ammonis, pons, medulla oblongata and cerebellum. The investigations carried out showed that the process, of changes in the brain in conditions of hypoxia takes its course in several stages. Immediately after clinical death the changes were characterized by acidophilial swelling, karyocytolysis, enlargement and sticking together of the argyrophile granules, the swelling of the blood-vessel endothelium, little perivascular oedema, sorne swelling of cells of the astrocyte glia. In 3 hr. after clinical death a dusty tigroid was added to the picture. 15-21 hr. afterwards the changes were still more . marked. the nerve cellb were in a state of diffuse tigrolysis, many cells in a state of karyocytolysis. a part of the cells of the astrocyte glia lost their dendrites.. The, central acidophilia was, preserved. In 36-48 hr. one could notice some single signs lit  of recovery; the t1groid re-appeared as dust-like particles. At the same time. va-. cuolation appeared reaching sometimes, considerable def7rces. In still later peric-' the vacuolation decreased, the number of unchanged cells increased.- @t is conclad7. ed that brain cells are capable of recovery even after a severe- hypoxia. Golland Mosco!I(VIU,5) A        ---TITLE: --Kinetics -qtchez@icatetohlng@@cf Blngle-;drygti4w-g "! Iam.- idkiu :.hydrogen''pbroxid solutions--..-..,--,--,, e -'SOURCE: Unldoa& ou unii6iblt;eti 1winiy tyek -dojp,@: d' 2 - 7_7 i 'Lon l -jrolde ',ch .,-..TOPIC TAG i1nicil'' toft6ki,--se c So. g arn gggn pe TF tb Slakle' jAs -Were us -e 'ind. _;y_*"@detertninlEA f Oppep eTod@ofa el-activation efte __-o aso u '(id_kdd/biolb)-L@= -preeWnen ad r- H, r UoW th pr eemation - ----- . ... . )@W tk alouhW: jWf s ac All in cm . see ete: 0 7, Jl CjJM-@'  Ae6:1& W@M_conceii - e' 'k.446 rAte-, th' (lissolution -of GaAs is determined. .,-0- 02,to,o C the: dig olutio- d r-, aW., is --chl-6ft., -obsekV6d-1d0 maximum di'solution. rate- was, can' function- o , rogeA be expressed,as@a f h@d "per W= Oi 25' A k tH2'O2]x,, At 45C, th6'valuesz.of kfoi: -la esvectively.,-__@!Single@6 untarsenJ ys V-P r -.was provided by Yu. M..Burduko;v-'(FTI) gallillili, I O..V.'IjtlnAaya. r.r OrIg# - art., Ilas; - and gures lhe'@'6jddatiovh@r- d eac _oni, p@. ose d6i6i mil i hi y-@ 6, VG iotitI&IS, w e this"'I ra h 5NNaOH 'Conc di i**6il -i. C' 6jiltiatloiiby. 0 -3 5' --ana L ON MLOH Wei6 2 6_dkl6hW, d I ihel--.dM- I png:,. %-dtreotk rer determin @d arseii&4e table