Ingredient ID 772 
Chinese Pronunciation TIESHUYE 
English Name Sago Leaf  
Latin Name Folium Cycadis Revolutae  
Aliases FebgWeiJiaoYe
Identified Compounds

order by name

1. Amentoflavone

   C30H18O10   538.46

2. Cycasin

   C8H16N2O7   252.22

3. Hinokiflavone

   C30H18O10   538.46

4. Sotetsuflavone

   C31H20O10   552.49

5. 2,3-dihydroamentoflavone

   C30H20O10   540.47

6. 2,3-dihydrohinokiflavone

   C30H20O10   540.47

Recipes that contain
  1. 44      ShenZaoTang
  2. 53      FuZhengGongAiTang
  3. 55      ErXianTang
  4. 57      QingFeiYiAiTang
  5. 137      PiAiJing
  6. 275      ShenZaoTang
  7. 287      FuFangYinChenTang
  8. 287      FuFangYinChenTang
  9. 301      FuZhengGongAiTang
  10. 303      ErXianTang
  11. 305      QingFeiYiAiTang
  12. 307      LiangGenTang
  13. 309      QingDuLiFeiTang
  14. 315      FuFangTieShuYeTang
  15. 413      PiAiJing
  16. 516      GanAiFangIV
  17. 517      HaiBanHeJi

Available references (order by impact factor):

1:  Braitenberg V, Heck D, Sultan F.
The detection and generation of sequences as a key to cerebellar function: experiments and theory.
Behav Brain Sci.    impact factor:   11.276
1997;  20(2): 229-45; discussion 245-77

2:  Komuro H, Yacubova E, Yacubova E, Rakic P.
Mode and tempo of tangential cell migration in the cerebellar external granular layer.
J Neurosci.    impact factor:   8.955
2001;  21(2): 527-40

3:  Hartmann MJ, Bower JM.
Tactile responses in the granule cell layer of cerebellar folium crus IIa of freely behaving rats.
J Neurosci.    impact factor:   8.955
2001;  21(10): 3549-63

4:  de Blas AL.
Monoclonal antibodies to specific astroglial and neuronal antigens reveal the cytoarchitecture of the Bergmann glia fibers in the cerebellum.
J Neurosci.    impact factor:   8.955
1984;  4(1): 265-73

5:  Van Paesschen W, Revesz T, Duncan JS, King MD, Connelly A.
Quantitative neuropathology and quantitative magnetic resonance imaging of the hippocampus in temporal lobe epilepsy.
Ann Neurol.    impact factor:   8.321
1997;  42(5): 756-66

6:  Sagar HJ, Oxbury JM.
Hippocampal neuron loss in temporal lobe epilepsy: correlation with early childhood convulsions.
Ann Neurol.    impact factor:   8.321
1987;  22(3): 334-40

7:  Menini C, Meldrum BS, Riche D, Silva-Comte C, Stutzmann JM.
Sustained limbic seizures induced by intraamygdaloid kainic acid in the baboon: Symptomatology and neuropathological consequences.
Ann Neurol.    impact factor:   8.321
1980;  8(5): 501-9

8:  Luft AR, Skalej M, Schulz JB, Welte D, Kolb R, Burk K, Klockgether T, Voight K.
Patterns of age-related shrinkage in cerebellum and brainstem observed in vivo using three-dimensional MRI volumetry.
Cereb Cortex.    impact factor:   5.901
1999;  9(7): 712-21

9:  Mathern GW, Kuhlman PA, Mendoza D, Pretorius JK.
Human fascia dentata anatomy and hippocampal neuron densities differ depending on the epileptic syndrome and age at first seizure.
J Neuropathol Exp Neurol.    impact factor:   5.59
1997;  56(2): 199-212

10:  Stephan T, Mascolo A, Yousry TA, Bense S, Brandt T, Dieterich M.
Changes in cerebellar activation pattern during two successive sequences of saccades.
Hum Brain Mapp.    impact factor:   5.28
2002;  16(2): 63-70

11:  Van Paesschen W, Sisodiya S, Connelly A, Duncan JS, Free SL, Raymond AA, Grunewald RA, Revesz T, Shorvon SD, Fish DR, et al.
Quantitative hippocampal MRI and intractable temporal lobe epilepsy.
Neurology.    impact factor:   5.232
1995;  45(12): 2233-40

12:  Barmack NH, Errico P, Ferraresi A, Fushiki H, Pettorossi VE, Yakhnitsa V.
Cerebellar nodulectomy impairs spatial memory of vestibular and optokinetic stimulation in rabbits.
J Neurophysiol.    impact factor:   3.935
2002;  87(2): 962-75

13:  Chen G, Hanson CL, Dunbar RL, Ebner TJ.
Novel form of spreading acidification and depression in the cerebellar cortex demonstrated by neutral red optical imaging.
J Neurophysiol.    impact factor:   3.935
1999;  81(4): 1992-8

14:  Le TH, Pardo JV, Hu X.
4 T-fMRI study of nonspatial shifting of selective attention: cerebellar and parietal contributions.
J Neurophysiol.    impact factor:   3.935
1998;  79(3): 1535-48

15:  Hartmann MJ, Bower JM.
Oscillatory activity in the cerebellar hemispheres of unrestrained rats.
J Neurophysiol.    impact factor:   3.935
1998;  80(3): 1598-604

16:  Iadecola C, Yang G, Ebner TJ, Chen G.
Local and propagated vascular responses evoked by focal synaptic activity in cerebellar cortex.
J Neurophysiol.    impact factor:   3.935
1997;  78(2): 651-9

17:  Iadecola C, Li J, Xu S, Yang G.
Neural mechanisms of blood flow regulation during synaptic activity in cerebellar cortex.
J Neurophysiol.    impact factor:   3.935
1996;  75(2): 940-50

18:  Wylie DR, Kripalani T, Frost BJ.
Responses of pigeon vestibulocerebellar neurons to optokinetic stimulation. I. Functional organization of neurons discriminating between translational and rotational visual flow.
J Neurophysiol.    impact factor:   3.935
1993;  70(6): 2632-46

19:  Lou JS, Bloedel JR.
Responses of sagittally aligned Purkinje cells during perturbed locomotion: synchronous activation of climbing fiber inputs.
J Neurophysiol.    impact factor:   3.935
1992;  68(2): 570-80

20:  Noda H, Fujikado T.
Topography of the oculomotor area of the cerebellar vermis in macaques as determined by microstimulation.
J Neurophysiol.    impact factor:   3.935
1987;  58(2): 359-78

21:  Barmack NH, Qian Z.
Activity-dependent expression of calbindin in rabbit floccular Purkinje cells modulated by optokinetic stimulation.
Neuroscience.    impact factor:   3.924
2002;  113(1): 235-50

22:  Dino MR, Schuerger RJ, Liu Y, Slater NT, Mugnaini E.
Unipolar brush cell: a potential feedforward excitatory interneuron of the cerebellum.
Neuroscience.    impact factor:   3.924
2000;  98(4): 625-36

23:  Hanson CL, Chen G, Ebner TJ.
Role of climbing fibers in determining the spatial patterns of activation in the cerebellar cortex to peripheral stimulation: an optical imaging study.
Neuroscience.    impact factor:   3.924
2000;  96(2): 317-31

24:  Hallem JS, Thompson JH, Gundappa-Sulur G, Hawkes R, Bjaalie JG, Bower JM.
Spatial correspondence between tactile projection patterns and the distribution of the antigenic Purkinje cell markers anti-zebrin I and anti-zebrin II in the cerebellar folium crus IIA of the rat.
Neuroscience.    impact factor:   3.924
1999;  93(3): 1083-94

25:  Chen G, Hanson CL, Ebner TJ.
Optical responses evoked by cerebellar surface stimulation in vivo using neutral red.
Neuroscience.    impact factor:   3.924
1998;  84(3): 645-68

26:  Elias SA, Yae H, Ebner TJ.
Optical imaging of parallel fiber activation in the rat cerebellar cortex: spatial effects of excitatory amino acids.
Neuroscience.    impact factor:   3.924
1993;  52(4): 771-86

27:  Denise P, Darlot C.
The cerebellum as a predictor of neural messages--II. Role in motor control and motion sickness.
Neuroscience.    impact factor:   3.924
1993;  56(3): 647-55

28:  Darlot C.
The cerebellum as a predictor of neural messages--I. The stable estimator hypothesis.
Neuroscience.    impact factor:   3.924
1993;  56(3): 617-46

29:  Domenici L, Waldvogel HJ, Matute C, Streit P.
Distribution of GABA-like immunoreactivity in the pigeon brain.
Neuroscience.    impact factor:   3.924
1988;  25(3): 931-50

30:  Fukuda M, Yamamoto T, Llinas R.
The isochronic band hypothesis and climbing fibre regulation of motricity: an experimental study.
Eur J Neurosci.    impact factor:   3.899
2001;  13(2): 315-26

31:  Nikundiwe AM, Bjaalie JG, Brodal P.
Lamellar organization of pontocerebellar neuronal populations. A multi-tracer and 3-D computer reconstruction study in the cat.
Eur J Neurosci.    impact factor:   3.899
1994;  6(2): 173-86

32:  Sasaki K, Bower JM, Llinas R.
Multiple Purkinje Cell Recording in Rodent Cerebellar Cortex.
Eur J Neurosci.    impact factor:   3.899
1989;  1(6): 572-586

33:  Raz N, Torres IJ, Spencer WD, White K, Acker JD.
Age-related regional differences in cerebellar vermis observed in vivo.
Arch Neurol.    impact factor:   3.863
1992;  49(4): 412-6

34:  Courchesne E, Hesselink JR, Jernigan TL, Yeung-Courchesne R.
Abnormal neuroanatomy in a nonretarded person with autism. Unusual findings with magnetic resonance imaging.
Arch Neurol.    impact factor:   3.863
1987;  44(3): 335-41

35:  Nunzi MG, Shigemoto R, Mugnaini E.
Differential expression of calretinin and metabotropic glutamate receptor mGluR1alpha defines subsets of unipolar brush cells in mouse cerebellum.
J Comp Neurol.    impact factor:   3.764
2002;  451(2): 189-99

36:  Nunzi MG, Mugnaini E.
Unipolar brush cell axons form a large system of intrinsic mossy fibers in the postnatal vestibulocerebellum.
J Comp Neurol.    impact factor:   3.764
2000;  422(1): 55-65

37:  King VM, Armstrong DM, Apps R, Trott JR.
Numerical aspects of pontine, lateral reticular, and inferior olivary projections to two paravermal cortical zones of the cat cerebellum.
J Comp Neurol.    impact factor:   3.764
1998;  390(4): 537-51

38:  Tan J, Simpson JI, Voogd J.
Anatomical compartments in the white matter of the rabbit flocculus.
J Comp Neurol.    impact factor:   3.764
1995;  356(1): 1-22

39:  Tan J, Gerrits NM, Nanhoe R, Simpson JI, Voogd J.
Zonal organization of the climbing fiber projection to the flocculus and nodulus of the rabbit: a combined axonal tracing and acetylcholinesterase histochemical study.
J Comp Neurol.    impact factor:   3.764
1995;  356(1): 23-50

40:  Gonzalez L, Shumway C, Morissette J, Bower JM.
Developmental plasticity in cerebellar tactile maps: fractured maps retain a fractured organization.
J Comp Neurol.    impact factor:   3.764
1993;  332(4): 487-98

41:  Ikeda M, Matsushita M.
Trigeminocerebellar projections to the posterior lobe in the cat, as studied by anterograde transport of wheat germ agglutinin-horseradish peroxidase.
J Comp Neurol.    impact factor:   3.764
1992;  316(2): 221-37

42:  de Barry J, Gombos G, Klupp T, Hamori J.
Alteration of mouse cerebellar circuits following methylazoxymethanol treatment during development: immunohistochemistry of GABAergic elements and electron microscopic study.
J Comp Neurol.    impact factor:   3.764
1987;  261(2): 253-65

43:  Jasmin L, Courville J.
Distribution of external cuneate nucleus afferents to the cerebellum: I. Notes on the projections from the main cuneate and other adjacent nuclei. An experimental study with radioactive tracers in the cat.
J Comp Neurol.    impact factor:   3.764
1987;  261(4): 481-96

44:  Rosina A, Provini L.
Spatial distribution of axon collaterals of single inferior olive neurons.
J Comp Neurol.    impact factor:   3.764
1987;  256(3): 317-28

45:  Feirabend HK, Voogd J.
Myeloarchitecture of the cerebellum of the chicken (Gallus domesticus): an atlas of the compartmental subdivision of the cerebellar white matter.
J Comp Neurol.    impact factor:   3.764
1986;  251(1): 44-66

46:  Kassel J, Shambes GM, Welker W.
Fractured cutaneous projections to the granule cell layer of the posterior cerebellar hemisphere of the domestic cat.
J Comp Neurol.    impact factor:   3.764
1984;  225(3): 458-68

47:  Robinson FR, Cohen JL, May J, Sestokas AK, Glickstein M.
Cerebellar targets of visual pontine cells in the cat.
J Comp Neurol.    impact factor:   3.764
1984;  223(4): 471-82

48:  Bishop GA.
The pattern of distribution of the local axonal collaterals of Purkinje cells in the intermediate cortex of the anterior lobe and paramedian lobule of the cat cerebellum.
J Comp Neurol.    impact factor:   3.764
1982;  210(1): 1-9

49:  Altman J, Winfree AT.
Postnatal development of the cerebellar cortex in the rat. V. Spatial organization of purkinje cell perikarya.
J Comp Neurol.    impact factor:   3.764
1977;  171(1): 1-16

50:  Zecevic N, Rakic P.
Differentiation of Purkinje cells and their relationship to other components of developing cerebellar cortex in man.
J Comp Neurol.    impact factor:   3.764
1976;  167(1): 27-47

51:  Altman J.
Postnatal development of the cerebellar cortex in the rat. IV. Spatial organization of bipolar cells, parallel fibers and glial palisades.
J Comp Neurol.    impact factor:   3.764
1975;  163(4): 427-47

52:  Mugnaini E, Dahl AL.
Mode of distribution of aminergic fibers in the cerebellar cortex of the chicken.
J Comp Neurol.    impact factor:   3.764
1975;  162(4): 417-32

53:  Fung YS, Tung HS.
Application of capillary electrophoresis for organic acid analysis in herbal studies.
Electrophoresis.    impact factor:   3.447
2001;  22(11): 2242-50

54:  Jaarsma D, Levey AI, Frostholm A, Rotter A, Voogd J.
Light-microscopic distribution and parasagittal organisation of muscarinic receptors in rabbit cerebellar cortex.
J Chem Neuroanat.    impact factor:   2.552
1995;  9(4): 241-59

55:  Sakata-Haga H, Sawada K, Hisano S, Fukui Y.
Abnormalities of cerebellar foliation in rats prenatally exposed to ethanol.
Acta Neuropathol (Berl).    impact factor:   2.446
2001;  102(1): 36-40

56:  Thom M, D'Arrigo C, Scaravilli F.
Hippocampal sclerosis with hypertrophy of end folium pyramidal cells.
Acta Neuropathol (Berl).    impact factor:   2.446
1999;  98(1): 107-10

57:  Sundstrom R, Muntzing K, Kalimo H, Sourander P.
Changes in the integrity of the blood-brain barrier in suckling rats with low dose lead encephalopathy.
Acta Neuropathol (Berl).    impact factor:   2.446
1985;  68(1): 1-9

58:  Conradi NG, Eins S, Wolff JR.
Postnatal vascular growth in the cerebellar cortex of normal and protein-deprived rats. Morphometric studies.
Acta Neuropathol (Berl).    impact factor:   2.446
1979;  47(2): 131-7

59:  Bernard C, Axelrad H.
Propagation of parallel fiber volleys in the cerebellar cortex: a computer simulation.
Brain Res.    impact factor:   2.302
1991;  565(2): 195-208

60:  Akaike T.
Electrophysiological analysis of the tecto-olivo-cerebellar (lobulus simplex) projection in the rat.
Brain Res.    impact factor:   2.302
1987;  417(2): 371-6

61:  Lindner J, Zinser G, Werz W, Goridis C, Bizzini B, Schachner M.
Experimental modification of postnatal cerebellar granule cell migration in vitro.
Brain Res.    impact factor:   2.302
1986;  377(2): 298-304

62:  de Blas AL, Cherwinski HM.
The development of the Bergmann fiber palisades in the cerebellum of the normal rat and in the weaver mouse.
Brain Res.    impact factor:   2.302
1985;  342(2): 234-41

63:  Kimura H, Okamoto K, Sakai Y.
Climbing and parallel fiber responses recorded intracellularly from Purkinje cell dendrites in guinea pig cerebellar slices.
Brain Res.    impact factor:   2.302
1985;  348(2): 213-9

64:  Hillman DE, Chen S.
Reciprocal relationship between size of postsynaptic densities and their number: constancy in contact area.
Brain Res.    impact factor:   2.302
1984;  295(2): 325-43

65:  Ebner TJ, Bloedel JR.
Climbing fiber action on the responsiveness of Purkinje cells to parallel fiber inputs.
Brain Res.    impact factor:   2.302
1984;  309(1): 182-6

66:  Matsushita M, Tanami T, Yaginuma H.
Differential distribution of spinocerebellar fiber terminals within the lobules of the cerebellar anterior lobe in the cat: an anterograde WGA-HRP study.
Brain Res.    impact factor:   2.302
1984;  305(1): 157-61

67:  DeLaunoy JP, Roussel G, Nussbaum JL, Mandel P.
Immunohistochemical studies of Wolfgram proteins in central nervous system of neurological mutant mice.
Brain Res.    impact factor:   2.302
1977;  133(1): 29-36

68:  Martin GF, Beattie MS, Hughes HC, Linauts M, Panneton M.
The organization of reticulo-olivo-cerebellar circuits in the North American opossum.
Brain Res.    impact factor:   2.302
1977;  137(2): 253-66

69:  Shimono T, Nosaka S, Sasaki K.
Electrophysiological study on the postnatal development of neuronal mechanisms in the rat cerebellar cortex.
Brain Res.    impact factor:   2.302
1976;  108(2): 279-94

70:  Morissette J, Bower JM.
Contribution of somatosensory cortex to responses in the rat cerebellar granule cell layer following peripheral tactile stimulation.
Exp Brain Res.    impact factor:   2.246
1996;  109(2): 240-50

71:  Hayama T, Ito S, Ogawa H.
Receptive field properties of the parabrachio-thalamic taste and mechanoreceptive neurons in rats.
Exp Brain Res.    impact factor:   2.246
1987;  68(3): 458-65

72:  Dupont JL, Crepel F.
Correlations among climbing fiber responses of nearby cerebellar Purkinje cells in the immature rat.
Exp Brain Res.    impact factor:   2.246
1979;  37(3): 525-35

73:  Oscarsson O, Sjolund B.
The ventral spine-olivocerebellar system in the cat. II. Termination zones in the cerebellar posterior lobe.
Exp Brain Res.    impact factor:   2.246
1977;  28(5): 487-503

74:  Matsushita M, Ikeda M.
Projections from the lateral reticular nucleus to the cerebellar cortex and nuclei in the cat.
Exp Brain Res.    impact factor:   2.246
1976;  24(4): 403-21

75:  Wylie DR, Linkenhoker B.
Mossy fibres from the nucleus of the basal optic root project to the vestibular and cerebellar nuclei in pigeons.
Neurosci Lett.    impact factor:   2.085
1996;  219(2): 83-6

76:  Rho JH, Sidman RL.
Intracellular injection of lucifer yellow into lightly fixed cerebellar neurons.
Neurosci Lett.    impact factor:   2.085
1986;  72(1): 21-4

77:  Rintala J, Jaatinen P, Lu W, Sarviharju M, Eriksson CJ, Laippala P, Kiianmaa K, Hervonen A.
Effects of lifelong ethanol consumption on cerebellar layer volumes in AA and ANA rats.
Alcohol Clin Exp Res.    impact factor:   2.013
1997;  21(2): 311-7

78:  Espinar A, Piera V, Carmona A, Guerrero JM.
Histological changes during development of the cerebellum in the chick embryo exposed to a static magnetic field.
Bioelectromagnetics.    impact factor:   1.919
1997;  18(1): 36-46

79:  Johnston JM.
The egg-laying behaviour of Phyllodistomum folium, in vivo and under experimental conditions.
Parasitology.    impact factor:   1.868
1967;  57(4): 13P

80:  Dino MR, Willard FH, Mugnaini E.
Distribution of unipolar brush cells and other calretinin immunoreactive components in the mammalian cerebellar cortex.
J Neurocytol.    impact factor:   1.86
1999;  28(2): 99-123

81:  Matsuda H, Shimoda H, Yoshikawa M.
Structure-requirements of isocoumarins, phthalides, and stilbenes from Hydrangeae Dulcis Folium for inhibitory activity on histamine release from rat peritoneal mast cells.
Bioorg Med Chem.    impact factor:   1.799
1999;  7(7): 1445-50

82:  Fujikado T, Noda H.
Saccadic eye movements evoked by microstimulation of lobule VII of the cerebellar vermis of macaque monkeys.
J Physiol.    impact factor:   1.773
1987;  394: 573-94

83:  Murakami N, Mostaqul HM, Tamura S, Itagaki S, Horii T, Kobayashi M.
New anti-malarial flavonol glycoside from Hydrangeae Dulcis Folium.
Bioorg Med Chem Lett.    impact factor:   1.759
2001;  11(18): 2445-7

84:  Matsuda H, Shimoda H, Yamahara J, Yoshikawa M.
Immunomodulatory activity of thunberginol A and related compounds isolated from Hydrangeae Dulcis Folium on splenocyte proliferation activated by mitogens.
Bioorg Med Chem Lett.    impact factor:   1.759
1998;  8(3): 215-20

85:  Bjaalie JG, Brodal P.
Cat pontocerebellar network: numerical capacity and axonal collateral branching of neurones in the pontine nuclei projecting to individual parafloccular folia.
Neurosci Res.    impact factor:   1.726
1997;  27(3): 199-210

86:  Takeda T, Ishikawa A, Ohtomo K, Kobayashi Y, Matsuoka T.
Fractal dimension of dendritic tree of cerebellar Purkinje cell during onto- and phylogenetic development.
Neurosci Res.    impact factor:   1.726
1992;  13(1): 19-31

87:  Brodal P, Bjaalie JG.
Organization of the pontine nuclei.
Neurosci Res.    impact factor:   1.726
1992;  13(2): 83-118

88:  Kano M, Kato M, Chang HS.
The glutamate receptor subtype mediating parallel fibre-Purkinje cell transmission in rabbit cerebellar cortex.
Neurosci Res.    impact factor:   1.726
1988;  5(4): 325-37

89:  Kano K, Kato M.
Mode of induction of long-term depression at parallel fibre--Purkinje cell synapses in rabbit cerebellar cortex.
Neurosci Res.    impact factor:   1.726
1988;  5(6): 544-56

90:  Adams AM, Hoberg EP, McAlpine DF, Clayden SL.
Occurrence and morphological comparisons of Campula oblonga (Digenea: Campulidae), including a report from an atypical host, the thresher shark, Alopias vulpinus.
J Parasitol.    impact factor:   1.485
1998;  84(2): 435-8

91:  Mrlianova M, Tekel'ova D, Felklova M, Reinohl V, Toth J.
The influence of the harvest cut height on the quality of the herbal drugs Melissae folium and Melissae herba.
Planta Med.    impact factor:   1.438
2002;  68(2): 178-80

92:  Englert J, Harnischfeger G.
Diuretic action of aqueous Orthosiphon extract in rats.
Planta Med.    impact factor:   1.438
1992;  58(3): 237-8

93:  Kinoshita K, Morikawa K, Fujita M, Natori S.
Inhibitory effects of plant secondary metabolites on cytotoxic activity of polymorphonuclear leucocytes.
Planta Med.    impact factor:   1.438
1992;  58(2): 137-45

94:  Rintala J, Jaatinen P, Kiianmaa K, Riikonen J, Kemppainen O, Sarviharju M, Hervonen A.
Dose-dependent decrease in glial fibrillary acidic protein-immunoreactivity in rat cerebellum after lifelong ethanol consumption.
Alcohol.    impact factor:   1.433
2001;  23(1): 1-8

95:  Andre P, d'Ascanio P, Pompeiano O.
Noradrenergic agents into the cerebellar anterior vermis modify the gain of vestibulospinal reflexes in the cat.
Prog Brain Res.    impact factor:   1.425
1991;  88: 463-84

96:  Riikonen J, Jaatinen P, Rintala J, Porsti I, Karjala K, Hervonen A.
Intermittent ethanol exposure increases the number of cerebellar microglia.
Alcohol Alcohol.    impact factor:   1.343
2002;  37(5): 421-6

97:  Mishina M, Senda M, Ishii K, Ohyama M, Kitamura S, Katayama Y.
Cerebellar activation during ataxic gait in olivopontocerebellar atrophy: a PET study.
Acta Neurol Scand.    impact factor:   1.325
1999;  100(6): 369-76

98:  Jang MH, Kim H, Shin MC, Lim BV, Lee TH, Jung SB, Kim CJ, Kim EH.
Administration of Folium mori Extract Decreases Nitric Oxide Synthase Expression in the Hypothalamus of Streptozotocin-Induced Diabetic Rats.
Jpn J Pharmacol.    impact factor:   1.317
2002;  90(2): 189-92

99:  MacKay WA, Murphy JT.
Integrative versus delay line characteristics of cerebellar cortex.
Can J Neurol Sci.    impact factor:   1.292
1976;  3(2): 85-97

100:  Angner RT, Kelly RM, Wiley RG, Walsh TJ, Reuhl KR.
Preferential destruction of cerebellar Purkinje cells by OX7-saporin.
Neurotoxicology.    impact factor:   1.282
2000;  21(3): 395-403

101:  Sandnes D, Johansen T, Teien G, Ulsaker G.
Mutagenicity of crude senna and senna glycosides in Salmonella typhimurium.
Pharmacol Toxicol.    impact factor:   1.263
1992;  71(3 Pt 1): 165-72

102:  Niwa M, Yuasa K, Kondo S, Sakuragawa N.
Studies of Wakan-Yakus (traditional herbal drugs): especially on the effects of Gaiyoh (Artemisiae folium) on blood coagulation.
Thromb Res.    impact factor:   1.207
1985;  38(6): 671-9

103:  Castejon HV, Alvarado MV, Gonzalez ME.
Transient accumulations of glycosaminoglycans in rat and chicken cerebellar cortex during development.
Cell Mol Biol.    impact factor:   1.172
1991;  37(4): 391-412

104:  Lin R, Tian J, Huang G, Li T, Li F.
Analysis of menthol in three traditional Chinese medicinal herbs and their compound formulation by GC-MS.
Biomed Chromatogr.    impact factor:   1.145
2002;  16(3): 229-33

105:  Li L, Dong TY, Li XL, Qian CZ.
Studies on standardization of folium strobilanthis, radix strobilanthis and their preparations.
Biomed Chromatogr.    impact factor:   1.145
1994;  8(3): 145-7

106:  Lozak A, Soltyk K, Ostapczuk P, Fijalek Z.
Determination of selected trace elements in herbs and their infusions.
Sci Total Environ.    impact factor:   1.126
2002;  289(1-3): 33-40

107:  Umehara K, Matsumoto M, Nakamura M, Miyase T, Kuroyanagi M, Noguchi H.
Differentiation inducing activities of isocoumarins from Hydrangea Dulcis Folium.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
2000;  48(4): 566-7

108:  Yoshikawa M, Shimada H, Yagi N, Murakami N, Shimoda H, Yamahara J, Matsuda H.
Development of bioactive functions in Hydrangeae dulcis folium. VI. Syntheses of thunberginols A and F and their 3'-deoxy-derivatives using regiospecific lactonization of stilbene carboxylic acid: structures and inhibitory activity on histamine release of hydramacrophyllols A and B.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1996;  44(10): 1890-8

109:  Yoshikawa M, Matsuda H, Shimoda H, Shimada H, Harada E, Naitoh Y, Miki A, Yamahara J, Murakami N.
Development of bioactive functions in hydrangeae dulcis folium. V. On the antiallergic and antimicrobial principles of hydrangeae dulcis folium. (2). Thunberginols C, D, and E, thunberginol G 3'-O-glucoside, (-)-hydrangenol 4'-o-glucoside, and (+)-hydrangenol 4'-O-glucoside.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1996;  44(8): 1440-7

110:  Mino Y, Yamada K, Takeda T, Nagasawa O.
Metal-containing components in medicinal plants. III. Manganese-containing components in Theae folium as oral magnetic resonance imaging contrast materials.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1996;  44(12): 2305-8

111:  Yoshikawa M, Harada E, Naitoh Y, Inoue K, Matsuda H, Shimoda H, Yamahara J, Murakami N.
Development of bioactive functions in hydrangeae dulcis folium. III. On the antiallergic and antimicrobial principles of hydrangeae dulcis folium. (1). Thunberginols A, B, and F.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1994;  42(11): 2225-30

112:  Yoshikawa M, Uchida E, Chatani N, Murakami N, Yamahara J.
Thunberginols A, B, and F, new antiallergic and antimicrobial principles from hydrangeae dulcis folium.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1992;  40(11): 3121-3

113:  Yoshikawa M, Uchida E, Chatani N, Kobayashi H, Naitoh Y, Okuno Y, Matsuda H, Yamahara J, Murakami N.
Thunberginols C, D, and E, new antiallergic and antimicrobial dihydroisocoumarins, and thunberginol G 3'-O-glucoside and (-)-hydrangenol 4'-O-glucoside, new dihydroisocoumarin glycosides, from Hydrangeae Dulcis Folium.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1992;  40(12): 3352-4

114:  Hiraoka A, Koike S, Sakaguchi S, Masuda Y, Terai F, Miura I, Kawasaki T, Kawai H, Sakakibara M.
The sennoside constituents of rhei rhizoma and sennae folium as inhibitors of serum monoamine oxidase.
Chem Pharm Bull (Tokyo).    impact factor:   1.117
1989;  37(10): 2744-6

115:  Necchi D, Soldani C, Bernocchi G, Scherini E.
Development of the anatomical alteration of the cerebellar fissura prima.
Anat Rec.    impact factor:   1.111
2000;  259(2): 150-6

116:  Matsuda H, Shimoda H, Kageura T, Yoshikawa M.
The role of thunberginol A, an isocoumarin constituent of Hydrangeae Dulcis Folium, on the signal transmission pathway for rat mast cell degranulation.
Biol Pharm Bull.    impact factor:   .844
1999;  22(9): 925-31

117:  Matsuda H, Shimoda H, Yamahara J, Yoshikawa M.
Effects of phyllodulcin, hydrangenol, and their 8-O-glucosides, and thunberginols A and F from Hydrangea macrophylla SERINGE var. thunbergii MAKINO on passive cutaneous anaphylaxis reaction in rats.
Biol Pharm Bull.    impact factor:   .844
1999;  22(8): 870-2

118:  Shimoda H, Matsuda H, Yamahara J, Yoshikawa M.
Development of bioactive functions in Hydrangeae Dulcis Folium. VII. Immunomodulatory activities of thunberginol A and related compounds on lymphocyte proliferation.
Biol Pharm Bull.    impact factor:   .844
1998;  21(8): 809-13

119:  Wolfe JW.
Evidence for control of nystagmic habituation by folium-tuber vermis and fastigial nuclei.
Acta Otolaryngol.    impact factor:   .812
1968;  ;[e-pub ahead of print]  120:  Nakamoto K, Sadamori S, Hamada T.
Effects of crude drugs and berberine hydrochloride on the activities of fungi.
J Prosthet Dent.    impact factor:   .767
1990;  64(6): 691-4

121:  Andre P, D'Ascanio P, Manzoni D, Pompeiano O.
Nicotinic receptors in the cerebellar vermis modulate the gain of the vestibulospinal reflexes in decerebrate cats.
Arch Ital Biol.    impact factor:   .761
1993;  131(1): 1-24

122:  Andre P, Pompeiano O, Manzoni D, D'Ascanio P.
Muscarinic receptors in the cerebellar vermis modulate the gain of the vestibulospinal reflexes in decerebrate cats.
Arch Ital Biol.    impact factor:   .761
1992;  130(3): 213-45

123:  Welker WI.
The significance of foliation and fissuration of cerebellar cortex. The cerebellar folium as a fundamental unit of sensorimotor integration.
Arch Ital Biol.    impact factor:   .761
1990;  128(2-4): 87-109

124:  Anderson N, Wells E, Hay R, Darlow B.
Cerebellar vermis measurement at cranial sonography for assessing gestational age in the newborn weighing less than 2000 grams.
Early Hum Dev.    impact factor:   .723
1996;  44(1): 59-70

125:  Petlevski R, Hadzija M, Slijepcevic M, Juretic D.
Effect of 'antidiabetis' herbal preparation on serum glucose and fructosamine in NOD mice.
J Ethnopharmacol.    impact factor:   .687
2001;  75(2-3): 181-4

126:  Obertreis B, Ruttkowski T, Teucher T, Behnke B, Schmitz H.
Ex-vivo in-vitro inhibition of lipopolysaccharide stimulated tumor necrosis factor-alpha and interleukin-1 beta secretion in human whole blood by extractum urticae dioicae foliorum.
Arzneimittelforschung.    impact factor:   .671
1996;  46(4): 389-94

127:  Cuddihy SL, Anderson NG, Wells JE, Darlow BA.
Cerebellar vermis diameter at cranial sonography for assessing gestational age in low-birth-weight infants.
Pediatr Radiol.    impact factor:   .643
1999;  29(8): 589-94

128:  McKenzie RA, Green PE, Wood AD.
Angiostrongylus cantonesis infection of the brain of a captive Bennett's wallaby (Macropus rufogriseus).
Aust Vet J.    impact factor:   .514
1978;  54(2): 86-8

129:  Jahodar L, Leifertova I, Lisa M.
Investigation of iridoid substances in Arctostaphylos uva-ursi.
Pharmazie.    impact factor:   .446
1978;  33(8): 536-7

130:  Vichi S, Zitterl-Eglseer K, Jugl M, Franz C.
Determination of the presence of antioxidants deriving from sage and oregano extracts added to animal fat by means of assessment of the radical scavenging capacity by photochemiluminescence analysis.
Nahrung.    impact factor:   .395
2001;  45(2): 101-4

131:  Huang YP, Tuason MY, Wu T, Plaitakis A.
MRI and CT features of cerebellar degeneration.
J Formos Med Assoc.    impact factor:   .362
1993;  92(6): 494-508

132:  Iizuka Y, Sakurai E, Tanaka Y.
[Antidiabetic effect of folium mori in GK rats]
Yakugaku Zasshi.    impact factor:   .238
2001;  121(5): 365-9

133:  Sawabe Y, Yamasaki K, Iwagami S, Kajimura K, Nakagomi K.
[Inhibitory effects of natural medicines on the enzymes related to the skin]
Yakugaku Zasshi.    impact factor:   .238
1998;  118(9): 423-9

134:  Chen F, Nakashima N, Kimura I, Kimura M.
[Hypoglycemic activity and mechanisms of extracts from mulberry leaves (folium mori) and cortex mori radicis in streptozotocin-induced diabetic mice]
Yakugaku Zasshi.    impact factor:   .238
1995;  115(6): 476-82

135:  Yoshikawa M, Chatani N, Harada E, Nishino Y, Yamahara J, Murakami N.
[Quantitative analysis of dihydroisocoumarin constituents of Hydrangeae Dulcis Folium by means of high performance liquid chromatography. Chemical characterization of the processing, distribution in plant, and seasonal fluctuation]
Yakugaku Zasshi.    impact factor:   .238
1994;  114(3): 176-81

136:  Yamahara J, Matsuda H, Shimoda H, Ishikawa H, Kawamori S, Wariishi N, Harada E, Murakami N, Yoshikawa M.
[Development of bioactive functions in hydrangeae dulcis folium. II. Antiulcer, antiallergy, and cholagoic effects of the extract from hydrangeae dulcis folium]
Yakugaku Zasshi.    impact factor:   .238
1994;  114(6): 401-13

137:  Kuzuya M, Sakata H, Kondo S, Noguchi A.
[Mechanochemical solid state reactions of natural products for medicinal use containing hydroxyanthraquinone derivatives]
Yakugaku Zasshi.    impact factor:   .238
1991;  111(11): 665-71

138:  Ishida H, Umino T, Tsuji K, Kosuge T.
[Studies on the anti-hemorrhagic substances in herbs classified as hemostatics in Chinese medicine. X. On hemostatic activities of the parched herbs for hemostatics]
Yakugaku Zasshi.    impact factor:   .238
1989;  109(3): 179-83

139:  Umemoto K, Hozumi K.
[Applications of low-temperature ashing with high-frequency oxygen plasma in pharmacognostical studies; identifications of crude drugs "uvae ursi folium" and "vitis-idaeae folium" by calcium oxalate crystals]
Yakugaku Zasshi.    impact factor:   .238
1971;  91(8): 907-8

140:  Umemoto K, Hozumi K.
[Applications of low-temperature ashing with high-frequency oxygen plasma in pharmacognostical studies: identifications of crude drugs Uvae Ursi Folium and Vitis-Idaeae Folium and related plants by calcium oxalate crystals]
Yakugaku Zasshi.    impact factor:   .238
1971;  91(10): 1047-57

141:  Ito H.
[Studies on Folium perillae. VI. Constituent of essential oils and evaluation of genus Perilla]
Yakugaku Zasshi.    impact factor:   .238
1970;  90(7): 883-92

142:  Han J, Kang S, Choue R, Kim H, Leem K, Chung S, Kim C, Chung J.
Free radical scavenging effect of Diospyros kaki, Laminaria japonica and Undaria pinnatifida.
Fitoterapia.    impact factor:   0
2002;  73(7-8): 710-2

143:  Raz N, Gunning-Dixon F, Head D, Williamson A, Acker JD.
Age and sex differences in the cerebellum and the ventral pons: a prospective MR study of healthy adults.
AJNR Am J Neuroradiol.    impact factor:   0
2001;  22(6): 1161-7

144:  He B, Chen X, Luo J.
[Effects of five different polar extracts from Herba pogostemonis being gotten rid of volatile oil on gastrointestinal tract]
Zhong Yao Cai.    impact factor:   0
2001;  24(6): 422-4

145:  Dugarov ZhN.
[The distribution of Phyllodistomum umblae and Phyllodistomum folium (Trematoda: Gorgoderidae) in the excretory system of fishes]
Parazitologiia.    impact factor:   0
2000;  34(1): 66-9

146:  Dugarov ZhN.
[The morphological variability of the maritae of Phyllodistomum umblae and Phyllodistomum folium (Trematoda: Gorgoderidae) from fish in the Lake Baikal basin]
Parazitologiia.    impact factor:   0
2000;  34(4): 315-22

147:  Chen J, He B, Liu X.
[Experimental study on effect of folium Ginkgo biloba in treating pulmonary interstitial fibrosis in rats]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
2000;  20(6): 441-3

148:  Zhou L, Ming L, Jiang Q.
[Protective effect of extract of folium ginkgo on repeated cerebral ischemia-reperfusion injury]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
2000;  20(5): 356-8

149:  Pikulikova A, Valaskova I, Lubkeova S.
[Mn and Zn content in the plant drug from Folium betulae grown in various locations]
Ceska Slov Farm.    impact factor:   0
2000;  49(3): 131-3

150:  Ku YR, Wen KC, Ho LK, Chang YS.
Solid-phase extraction for the determination of caffeine in traditional Chinese medicinal prescriptions containing Theae folium by high performance liquid chromatography.
J Pharm Biomed Anal.    impact factor:   0
1999;  20(1-2): 351-6

151:  Du X, Zhang H, Fu X.
[Clinical study on tripterygium wilfordii complex ester tablet in treating rheumatoid arthritis]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1998;  18(2): 88-91

152:  Wang H, Wang Y, Zhao X, Zhang Z, Miao Y.
[Protective effects of folium Ginkgo extract on experimental cerebral ischemia of mice]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1998;  23(3): 169-71, inside backcover

153:  Cordero del Campillo M, Rousset JJ.
[Would not the Taenia be folium?]
Hist Sci Med.    impact factor:   0
1997;  31(1): 57-60

154:  Kala M.
[Dependence producing substances in the practice of the Insitute of Forensic Experts in Krakow]
Przegl Lek.    impact factor:   0
1997;  54(6): 430-7

155:  Chen K, Zhou WQ, Gao P.
[Clinical study on the effect of shuxuening tablet in treatment of coronary heart disease]
Zhongguo Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1996;  16(1): 24-6

156:  Carnat A, Lacouture I, Fraisse D, Lamaison JL.
[Standardization of the birch leaf]
Ann Pharm Fr.    impact factor:   0
1996;  54(5): 231-5

157:  Han G, Chen T, Yang J, Dai J, Xu R, Zhang Y, Okano J, Yui R, Nakajima H, Hamasaki T.
[Quantitative analysis of organochlorine pesticide residues in Chinese drugs]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1996;  21(10): 591-4, 639

158:  Guo Y, Cui Y, Zhou J, Yan Y, Yuan P.
[Quantitative determination of ursolic acid in folium Ilicis cornutae (gouguye) gathered in different and periods]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1995;  20(10): 591-2, 638

159:  Belli E, Cicconetti A.
[The indications for reconstruction of the oral cavity using a pedicled flap of the musculus pectoralis major]
Minerva Stomatol.    impact factor:   0
1994;  43(4): 155-65

160:  Pikulikova A, Bumbalova A, Komova M.
[Determination of Mn, Fe, Cu, Zn, Pb and Hg levels in herbal drugs using the radionuclide x-ray fluorescence method]
Ceska Slov Farm.    impact factor:   0
1994;  43(4): 160-2

161:  Li L, Qiao CZ, Li XL, Dong TY.
[Study of quality control on herbal drugs and preparations of daqingye and banlangen]
Yao Xue Xue Bao.    impact factor:   0
1993;  28(3): 229-33

162:  Daniela T.
[Salvia officinalis l. I. Botanic characteristics, composition, use and cultivation]
Cesk Farm.    impact factor:   0
1993;  42(3): 111-6

163:  Bishop GA.
An analysis of HRP-filled basket cell axons in the cat's cerebellum. I. Morphometry and configuration.
Anat Embryol (Berl).    impact factor:   0
1993;  188(3): 287-97

164:  Li J, Tong YY.
[Determination of active constituents in shi-wei (Folium Pyrrosiae) by high performance liquid chromatography]
Yao Xue Xue Bao.    impact factor:   0
1992;  27(2): 153-6

165:  Hu S, Cai W, Ye J, Qian Z, Sun Z.
Influence of medicinal herbs on phagocytosis by bovine neutrophils.
Zentralbl Veterinarmed A.    impact factor:   0
1992;  39(8): 593-9

166:  Sun N, Sun Z.
[The expression of oncogenes in the development of human brain]
Hua Xi Yi Ke Da Xue Xue Bao.    impact factor:   0
1992;  23(1): 9-12

167:  Li J, Tong Y, Xing G.
[Botanical survey and quality evaluation of Chinese drug shiwei (folium Pyrrosiae)]
Zhongguo Zhong Yao Za Zhi.    impact factor:   0
1991;  16(9): 520-2, 573

168:  Zhang Y, Zhang L, Yang H, Zhang H, Zhu Y.
1291 cases of cholelithiasis treated with electric shock on otoacupoints.
J Tradit Chin Med.    impact factor:   0
1991;  11(2): 101-9

169:  Press GA, Murakami JW, Courchesne E, Grafe M, Hesselink JR.
The cerebellum: 3. Anatomic-MR correlation in the coronal plane.
AJR Am J Roentgenol.    impact factor:   0
1990;  154(3): 593-602

170:  Press GA, Murakami JW, Courchesne E, Grafe M, Hesselink JR.
The cerebellum: 3. Anatomic-MR correlation in the coronal plane.
AJNR Am J Neuroradiol.    impact factor:   0
1990;  11(1): 41-50

171:  Zhou LG, Zheng GZ, Wang SL.
A study on mass culture of Panax quinquefolium cells.
Chin J Biotechnol.    impact factor:   0
1990;  6(4): 279-85

172:  Inui N.
[Olivocerebellar, corticonuclear and nucleocortical projections in the "four limbs area" of the paramedian lobule in the cat: a combined electrophysiological and HRP study]
Kaibogaku Zasshi.    impact factor:   0
1990;  65(1): 1-10

173:  Courchesne E, Press GA, Murakami J, Berthoty D, Grafe M, Wiley CA, Hesselink JR.
The cerebellum in sagittal plane--anatomic-MR correlation: 1. The vermis.
AJR Am J Roentgenol.    impact factor:   0
1989;  153(4): 829-35

174:  Kojima S, Hirayama K.
[Magnetic resonance imaging in spinocerebellar degeneration]
No To Shinkei.    impact factor:   0
1988;  40(2): 187-93

175:  Meng XZ.
[Chemical constituents of fructus Lycii and folium Lycii (II): amino acid in fructus Lycii and folium Lycii]
Zhong Yao Tong Bao.    impact factor:   0
1987;  12(5): 42-4

176:  Jin YC, Hu GH.
[Clinical effect and experimental study on folium Sennae in acute gastroduodenal hemorrhage]
Zhong Xi Yi Jie He Za Zhi.    impact factor:   0
1986;  6(8): 455-7, 451

177:  Chi ZS.
[Chemical constituents of fructus Lycii and folium Lycii (I)--nutrients in fructus Lycii and folium Lycii]
Zhong Yao Tong Bao.    impact factor:   0
1986;  11(3): 41-3, 35

178:  Liu TC, Liu HQ, Hu BY.
Studies on cultivation of Panax quinque folium.
Proc Chin Acad Med Sci Peking Union Med Coll.    impact factor:   0
1986;  1(4): 250

179:  Miao TJ, Xiong RC.
The use of Chinese herbs folium ilicis chinensis decoction plus eucalyptus distillate for preoperative preparation of intestinal tract.
J Tradit Chin Med.    impact factor:   0
1984;  4(2): 149-52

180:  Ishimoto Y.
Comparative anatomical studies on the cerebellar nuclei of the pangolins.
J Hirnforsch.    impact factor:   0
1983;  24(5): 575-89

181:  Komala Z, Oswiecimska M, Polak A.
Sensitivity of Paramecium primaurelia and test plants to extracts from Folium betulae.
Folia Biol (Krakow).    impact factor:   0
1981;  29(3-4): 223-30

182:  Mel'man EP, Shutka BV.
[Differentiation of components of the filtration barrier of the human kidney during the prenatal period of development]
Arkh Anat Gistol Embriol.    impact factor:   0
1981;  80(1): 56-64

183:  Oswiecimska M, Komala Z, Liszka B.
Sensitivity of Paramecium primaurelia and Lepidium sativum to extracts from Folium urticae.
Folia Biol (Krakow).    impact factor:   0
1980;  28(3): 245-51

184:  Montarolo PG, Raschi F, Strata P.
On the origin of the climbing fibres of the cerebellar cortex.
Pflugers Arch.    impact factor:   0
1980;  383(2): 137-42

185:  Joseph JW, Shambes GM, Gibson JM, Welker W.
Tactile projections to granule cells in caudal vermis of the rat's cerebellum.
Brain Behav Evol.    impact factor:   0
1978;  15(2): 141-9

186:  Koziejowska K.
[A chromatographic evaluation of infusion and maceration with folium digitalis lanatae (author's transl)]
Ann Univ Mariae Curie Sklodowska [Med].    impact factor:   0
1973;  28: 1-8

187:  Sobiczewska M, Borkowski B.
[Determination of boldine in Folium boldo and in the commercial preparation Boldine Houde]
Acta Pol Pharm.    impact factor:   0
1972;  29(3): 271-5

188:  Sonanini D, Rzadkowska-Bodalska H, Steinegger E.
[Flavonol-glycosides of Folium stramonii. 7. Solanaceae-flavones]
Pharm Acta Helv.    impact factor:   0
1970;  45(2): 153-6

189:  Schellner HP.
[Electrophoresis of chicken serum with acetate folium and reseparation in polyacrylamide gel]
Berl Munch Tierarztl Wochenschr.    impact factor:   0
1969;  82(18): 351-2

190:  Kast C, Fluck H.
[The effects of pulverization on plant drugs with special reference to the active substance content. 2. Changes in drug active substances of folium menthae and fructus foeniculi during the process of pulverization]
Pharm Acta Helv.    impact factor:   0
1967;  42(4): 209-33

191:  Kast C, Fluck H.
[The influence of grinding on vegetable drugs with special reference to tent of active ingredients. I. The mechanical processes in pulverizing of dry vegetable drugs, specially in Folium menthae and Fructus foeniculi]
Pharm Acta Helv.    impact factor:   0
1966;  41(6): 346-68

192:  Sonanini D, Steinegger E.
[The flavinoids of folium Belladonnae. 6. Report on the Solanaceae-flavones]
Pharm Acta Helv.    impact factor:   0
1966;  41(12): 670-9


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