World Literature on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -63
World Literature
on Medicinal Plants from Pankaj Oudhia’s Medicinal Plant Database -63
World Literature on Medicinal Plants
Quoted/Consulted/Modified/Improved/Discussed/Used/Corrected in Pankaj Oudhia’s
Medicinal Plant Database.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 51. Neem (Azadirachta
indica) based formulation (With 3+1 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 52. Neem (Azadirachta
indica) based formulation (With 3+3 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 53. Neem (Azadirachta
indica) based formulation (With 3+8 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 54. Neem (Azadirachta
indica) based formulation (With 3+1 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 55. Neem (Azadirachta
indica) based formulation (With 11 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 56. Neem (Azadirachta
indica) based formulation (With 23 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India. Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 57. Neem (Azadirachta
indica) based formulation (With 15 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 58. Neem (Azadirachta
indica) based formulation (With 18 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 59. Neem (Azadirachta
indica) based formulation (With 17 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 60. Neem (Azadirachta
indica) based formulation (With 3 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 61. Neem (Azadirachta
indica) based formulation (With 19 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 62. Neem (Azadirachta
indica) based formulation (With 21 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 63. Neem (Azadirachta
indica) based formulation (With 3+11 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 64. Neem (Azadirachta
indica) based formulation (With 3+13 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 65. Neem (Azadirachta
indica) based formulation (With 3+5 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1. Management of Nephotettix sp. in
Rice (Oryza sativa) crop. 66. Neem (Azadirachta
indica) based formulation (With 3+23 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 67. Neem (Azadirachta
indica) based formulation (With 30 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
Oudhia, P. (2009). Traditional Agricultural
Knowledge in Indian state Chhattisgarh. 1.
Management of Nephotettix sp. in Rice (Oryza sativa)
crop. 68. Neem (Azadirachta
indica) based formulation (With 3 Herbs) . CGBD
(Offline Database on Chhattisgarh
Biodiversity), Raipur, India.
62. Chakravarti N, Myers JN, Aggarwal BB. Targeting
constitutive
and interleukin-6-inducible signal transducers and
activators of
transcription 3 pathway in head and neck squamous
cell
carcinoma cells by curcumin (diferuloylmethane). Int
J Cancer
2006.
63. Ichikawa H, Takada Y, Shishodia S, et al.
Withanolides potentiate
apoptosis, inhibit invasion, and abolish
osteoclastogenesis
through suppression of nuclear factor-kappaB
(NF-kappaB)
activation and NF-kappaB-regulated gene expression.
Mol
Cancer Ther 2006;5:1434–45.
64. Ichikawa H, Murakami A, Aggarwal BB.
19-Acetoxychavicol
acetate inhibits RANKL-induced osteoclastic
differentiation of
RAW 264.7 monocytic cells by suppressing nuclear
factor-kappaB
activation. Mol Cancer Res 2006;4:275–81.
65. Ichikawa H, Aggarwal BB. Guggulsterone inhibits
osteoclastogenesis induced by receptor activator of nuclear factor-kappaB
ligand
and by tumor cells by suppressing nuclear
factor-kappaB
activation. Clin Cancer Res 2006;12:662–8.
66. Sandur SK, Ichikawa H, Sethi G, et al. Plumbagin
(5-hydroxy-2-
methyl-1,4-naphthoquinone) suppresses NF-kappaB
activation
and NF-kappaB-regulated gene products through modulation
of
p65 and IkappaBalpha kinase activation, leading to
potentiation
of apoptosis induced by cytokine and
chemotherapeutic agents. J
Biol Chem 2006;281:17023–33.
67. Sethi G, Ahn KS, Sandur SK, et al. Indirubin
enhances TNFinduced apoptosis through modulation of nuclear factor-kappa B
EO signaling pathway. J Biol Chem 2006.
68. Shishodia S, Aggarwal BB. Diosgenin inhibits
osteoclastogenesis,
invasion, and proliferation through the
downregulation of Akt, I
kappa B kinase activation and NF-kappa B-regulated
gene
expression. Oncogene 2006;25:1463–73.
69. Takada Y, Ichikawa H, Badmaev V, et al.
Acetyl-11-keto-betaboswellic acid potentiates apoptosis, inhibits invasion, and
abolishes osteoclastogenesis by suppressing NF-kappa
B and
NF-kappa B-regulated gene expression. J Immunol
2006;176:
3127–40.
70. Zambre AP, Kulkarni VM, Padhye S, et al. Novel
curcumin
analogs targeting TNF-induced NF-kappaB activation
and
proliferation in human leukemic KBM-5 cells. Bioorg
Med
EP Chem 2006.
71. Fukuda K, Hibiya Y, Mutoh M, et al. Inhibition
by berberine of
cyclooxygenase-2 transcriptional activity in human
colon cancer
cells. J Ethnopharmacol 1999;66:227–33.
72. Hong CH, Hur SK, Oh OJ, et al. Evaluation of
natural products
on inhibition of inducible cyclooxygenase (COX-2)
and nitric
oxide synthase (iNOS) in cultured mouse macrophage
cells. J
Ethnopharmacol 2002;83:153–9.
73. Kiemer AK, Hartung T, Huber C, et al.
Phyllanthus amarus has
anti-inflammatory potential by inhibition of iNOS,
COX-2, and
cytokines via the NF-kappaB pathway. J Hepatol
2003;38:289–97.
74. Li RW, Leach DN, Myers SP, et al.
Anti-inflammatory activity,
cytotoxicity and active compounds of Tinospora
smilacina Benth.
Phytother Res 2004;18:78–83.
75. Chun KS, Keum YS, Han SS, et al. Curcumin inhibits
phorbol
ester-induced expression of cyclooxygenase-2 in
mouse skin
through suppression of extracellular
signal-regulated kinase
activity and NF-kappaB activation. Carcinogenesis
2003;24:
1515–24.
76. Androulakis XM, Muga SJ, Chen F, et al.
Chemopreventive effects
of Khaya senegalensis bark extract on human
colorectal cancer.
Anticancer Res 2006;26:2397–405.
77. Huss U, Ringbom T, Perera P, et al. Screening of
ubiquitous plant
constituents for COX-2 inhibition with a
scintillation proximity
based assay. J Nat Prod 2002;65:1517–21.
78. Marsik P, Kokoska L, Landa P, et al. In vitro
inhibitory effects of
thymol and quinones of Nigella sativa seeds on
cyclooxygenase-1-
and -2-catalyzed prostaglandin E2 biosyntheses.
Planta Med 2005;
71:739–42.
79. Lev-Ari S, Maimon Y, Strier L, et al.
Down-regulation of
prostaglandin E2 by curcumin is correlated with
inhibition of cell
growth and induction of apoptosis in human colon
carcinoma
cell lines. J Soc Integr Oncol 2006;4:21–6.
80. Park C, Kim GY, Kim GD, et al. Induction of G2/M
arrest and
inhibition of cyclooxygenase-2 activity by curcumin
in human
bladder cancer T24 cells. Oncol Rep 2006;15:1225–31.
81. Sharma MK, Kumar M, Kumar A. Ocimum sanctum
aqueous leaf
extract provides protection against mercury induced toxicity
in
Swiss albino mice. Indian J Exp Biol
2002;40:1079–82.
82. Samudralwar DL, Garg AN. Minor and trace
elemental
determination in the Indian herbal and other
medicinal
preparations. Biol Trace Elem Res 1996;54:113–21.
83. Culos-Reed SN, Carlson LE, Daroux LM, et al. A
pilot study of
yoga for breast cancer survivors: physical and
psychological
benefits. Psychooncology 2006;15:891–7.
84. Shan B, Cai YZ, Sun M, et al. Antioxidant
capacity of 26 spice
extracts and characterization of their phenolic constituents.
J
Agric Food Chem 2005;53:7749–59.
85. Lai PK, Roy J. Antimicrobial and chemopreventive
properties of
herbs and spices. Curr Med Chem 2004;11:1451–60.
86. Shobana S, Naidu KA. Antioxidant activity of
selected Indian
spices. Prostaglandins Leukot Essent Fatty Acids
2000;62:107–10.
87. Abdullaev FI. Cancer chemopreventive and
tumoricidal properties of saffron (Crocus sativus L.). Exp Biol Med (Maywood)
2002;
227:20–5.
88. Naik GH, Priyadarsini KI, Bhagirathi RG, et al.
In vitro
antioxidant studies and free radical reactions of
triphala, an
ayurvedic formulation and its constituents.
Phytother Res 2005;
19:582–6.
89. Shoba G, Joy D, Joseph T, et al. Influence of
piperine on the
pharmacokinetics of curcumin in animals and human
volunteers.
Planta Med 1998;64:353–6.
90. Larsson SC, Wolk A. Meat consumption and risk of
colorectal
cancer: a meta-analysis of prospective studies. Int
J Cancer 2006;
119:2657–64.
91. Bakhru HK. Conquering cancer naturally. Delhi:
Choukhamba EQ
Orientalia; Varanasi, 2000.
92. Mazumder R, Bhattacharya S, Mazumder A, et al.
Antidiarrhoeal
evaluation of Aegle marmelos (Correa) Linn. root
extract.
Phytother Res 2006;20:82–4.
93. Boon H, Wong J. Botanical medicine and cancer: a
review of the
safety and efficacy. Expert Opin Pharmacother
2004;5:2485–501.
94. Zabeer A, Bhagat A, Gupta OP, et al. Synthesis
and bronchodilator activity of new quinazolin derivative. Eur J Med Chem 2006;
41:429–34.
95. Arora R, Chawla R, Puri SC, et al.
Radioprotective and
antioxidant properties of low-altitude Podophyllum
hexandrum
(LAPH). J Environ Pathol Toxicol Oncol
2005;24:299–314.
96. Arora R, Gupta D, Chawla R, et al.
Radioprotection by plant
products: present status and future prospects.
Phytother Res 2005;
19:1–22.
97. Jena GB, Nemmani KV, Kaul CL, et al. Protective
effect of a
polyherbal formulation (Immu-21) against
cyclophosphamideinduced mutagenicity in mice. Phytother Res 2003;17:306–10.
98. Khafif A, Hurst R, Kyker K, et al. Curcumin: a
new radiosensitizer of squamous cell carcinoma cells. Otolaryngol Head
Neck Surg 2005;132:317–21.
99. Sowmyalakshmi S, Nur EAM, Akbarsha MA, et al.
Investigation
on semecarpus lehyam—a Siddha medicine for breast
cancer.
Planta 2005;220:910–8.
100. Paranjpe P, Patki P, Patwardhan B. Ayurvedic
treatment of
obesity: a randomised double-blind,
placebo-controlled clinical
trial. J Ethnopharmacol 1990;29:1–11.
101. Chopra A, Lavin P, Patwardhan B, et al. A
32-week randomized,
placebo-controlled clinical evaluation of RA-11, an
ayurvedic
drug, on osteoarthritis of the knees. J Clin
Rheumatol 2004;10:
236–45.
102. Ranga RS, Girija R, Nur-e-Alam M, et al.
Rasagenthi lehyam (RL):
a novel complementary and alternative medicine for
prostate
cancer. Cancer Chemother Pharmacol 2004;54:7–15.
103. Devraj TL. Cancer therapy in ayurveda; Delhi
1999. Kashi
Ayurveda Series No. 21.
1. Abu-Amra, S. ( 1994 ): Influence of
Venom extracted factors separated from
shakes on serum insulin , serum glucose,
liver glycogen and skeletal muscle pyruvate
levels of rats . J . Egypt. Ger. Soc. zoo1.,
15( A ): 205-214 .
2. Abu-Sinna., G. ; Al- Zahady, A.S.;
Abdel-Aal, A. ; Abdel-Baset, A. and
Soliman, N. A. ( 1993 ): The effect of the
viper, cerastes arastes venom and venom
fractions on carbohydrate metabolism.
Toxicology, 31 ( 6 ) : 791-801 .
3. Al-Awadi, F . M.; Kattar, M . A. and
Gumaa, K. A. ( 1985 ): On the mechanis
of the hypoglycemic effect of a plant
extract. Diabetologia, 28: 432-434 .
4. Blumenthal, M.; Busse, W.R. and
Goldberg, A. ( 1998 ): The complete
commission E Monogrophs. Therapeutic
guide to herbal
medicines. Boston, M.A. .
Integrative medicines communications, 80
– 81
5. Bolaffi, J.L.; Nowlain, R.E.; Gruz, L. and
Grodsky, G.M. ( 1986 ): Progressive
damage of cultured pancreatic islets after
single early exposture to streptozotcin.
Diabetes, 35:1027-1033 .
6. Brown, D.L.; Kane, C.D.; Chernausek,
S.D.; Greenhalgh, D.G. ( 1997 ):
Defferential expression and localization of
insulin-like growth factors I and II in
cutaneous wounds of diabetic and nondiabetic mice.
Am. J. Pathol, 151 ( 3 ): 715-
724 .
7. Defronzo,R.A.and Simonson,D.C.(1992 ):
Glucose toxicity, In: Advances in
endocrinology and metabolism. Vol. 3
st
Lours, M.O. Mosby, p. 1-53 .
8. Fyles, J.M.; Cawlhorne, M.A. and
Howell, S.L. ( 1986 ): The characteristics
of B-adrenergic binding sites on pancreatic
islets of
Langerhands. J. Endocr., P.111 -
263 .
9. Fayed, T.A.; EL. Missiry, M.A.; Emara,
H. and EL- Sayaad, N. (1998 ): Effect of
Nigella sativa or fish oil supplementation in
alloxan diabetic rats. J. Union Arab Biol.,
zoology, 9 : 137-150.
10. Ganong, W.F. ( 1995 ): Quoted from.
Review of Medical physiology, 17
th
Ed.,
Lange med. Public, chapter, 19:306-326 .
11. Helal, E.G.E. ( 2000 ) : Effect of Balanitus
aegyptica fruits on some physiological
parameters in alloxan diabetic rats. AlAzhar Bull. Sci., 11 ( 1 ): 325-347 .
12. Jackie Hart, M.D.( 1996 ): Q & A. Using
Aloe vera to treat diabetes . 1, 2
13. Joseph, H.R.( 1955 ): The determination of
sugar in blood and spinal fluid with
anthrone reagent. J. Biol. Chem. 212: 335-
343 .
14. Karp, C. ( 1984 ): Cell growth and
division. In :
cell biology, P.
662-715
( Martin, M. Z., Gulden, S. and Bradley
J.W. Eds. ) NewYork: MeGraw Hill book
company.
15. Login, L.S.; Judo, A.M.; Cronin, M.J.;
kolke,k,.; Schettini, G.; yasumoto, T.
and Macleod, R.M. ( 1985 ): The effect of
maitotoxin on 45 Ca
+2
flux and hormone
release in Gh3 rat pituitary cells.
Endocrinology, 116 ( 2 ): 623-627.
16. Malhoero, V.K. ( 1980 ): Biochemistry for
students. Second revised and enlarged
Edition. Published by Joypee brothers June,
222-223 .
17. Masahi, K. and Olefsky, J.M. ( 1979 ):
Effect of streptozotocin diabetes on insulin
binding, glucose transport and intracellular
glucose metabolism in isolated rat
adipocytes. Diabetes, 28-87 .
18. Marles,R.T. and Farnsworth, N.R. (1995)
: Antidiabetic plants and their active
constituents. Phytomedicine, 2:137-189 .
19. Motala, A. A.; Omar, M.A.K. and Pirie,
F.J. ( 2000 ) : Type I diabetes mellitus in
Africa: epidemiology and pathogenesis.
Diabetes International J., 10:33 – 64 .
20. Okyar, A.; Can, A.; Akev, N.; Baktir, G.
and Suthepinar, N.
( 2001 ): Effect of
Aloe vera leaves on blood glucose level in
Type I and Type II diabetic rat models.
Istanbul, Turkey. Phytother. Res., 15 ( 2 ):
157 – 161 .
21. Reeves, W.G.( 1983 ) : Insulin antibody
determination: Theoretical and practical
consideration. Diabetologia, 24: 339 – 403 .
22. Rungby, J.; Flyvdjerg, A.; Andersen, H.
and Nyborgs, N. ( 1992 ): Lipid
peroxidation in early experimental diabetes
in rats: Effects of diabetes and insulin. Acta
Endocrinol., 126 : 378 – 380 .
23. Siest, G. and Schielf, M.J. ( 1981 ) :
Interpretation Des Examens. Delaboratoire,
Karger ed., PP. 206-223 .
24. Sokal, R.R. and Rahif, F.J. ( 1981 ) : The
principles and practical of statistics in
Biological Research. 2
nd
ed. Free man,
W.H. company,
San Francisco .
25. Takaku, T.; Kameda, K.; Matsuura, Y.;
Sekiya , K. and Okuda, N. ( 1990 ) :
Studies on insulin-like substances in
Korean red ginseng planta Medica, 56:27 –
30 .
26. Terao, K. ; Ito, E.; Kakinuma,Y.;
zgarasi, H.K.; Kobayashi, M.; Ohizumi,
Y. and
Yasumoto, T. ( 1989 ):
Histological studies on experimental marine
toxin
poisoning .4- pathogenesis of
experimental maitotoxin poisoning.
Toxico., 27 ( 9 ): 979 – 988 .
Abuelgasim, A.I., M.K.M. Osman, B. Elmahdi, 2008.
Effect of Aloevera ethanolic extract on blood glucose
level in wistar albino rats.Journal of Applied
science Research, 4(12): 1814-1845.
Ahmed, N., 2009. Alloxan diabetes-induced oxidative
stress and impairment of oxidative defense system
in rat brain: neuroprotective effects of cichorium
intybus. Natural Product Sciences, 17: 105-109.
Akinmoladun, A.C., O. Akinloye, 2007. Prevention of
the onset of hyperglycaemia by extracts of Aloe
barbadensis in rabbits treated with alloxan. AJB.,
6(8): 102.
Akinmoladun, A.C., O. Akinloye, 2004. Effect of Aloe
barbadensis on the lipid profile and fasting blood
sugar concentration of rabbits fed high cholesterol
diet. Glob. J. Pure Appl. Sci., 10(1): 139-142.
American Diabetes Association, 2004. Diagnosis
and Classification of diabetes mellitus.
Diabetes care,
3(1): S62-S67.
Botes, L., H.F. Francois van der, H. Westhuizen,
D.T. Loots, 2008. Phytochemical Contents and
Antioxidant Capacities of Two Aloe greatheadii var. davyana Extracts. Molecules, 13:
2169-2180.
El-Missiry, M.A., A.I. Othman, M.A. Amer, 2004.
L-Arginine Ameliorates Oxidative Stress in Alloxaninduced Experimental Diabetes
Mellitus. J. Appl. Toxicol., 24: 93-97.
El-Sherbiny, E., S. Abdel-Aziz, 2008. Effect of
Gamma Irradiation and Aloe vera on Antioxidant Status
and Thyroid Functions in Female Rats. Ninth Arab
Conference on the Peaceful Uses of Atomic Energy, Beirut,
1: 214-224.
Fassati, P., L. Prencipe, 1982. Serum triglycerides
determined in colorimetrically with an enzyme that
produce hydrogen peroxide. Clin. Chem., 28: 2077.
Grover, J., S. Yadav, V. Vats, 2002. Medicinal plants
of India with anti-diabetic potential. J.
Ethnopharmacol., 81: 81-100.
Gwarzo, M.Y., V.A. Nwachuku and A.O. Lateef,
2010. Prevention of alloxan induced
diabetes mellitus
in rats by vitamin a dietary supplementation. Asian
J. Anim. Sci., 4: 190-196.
Hamman, J.H., 2008. Composition and Applications of
Aloe vera Leaf Gel. Molecules, 13: 1599-1616.
Jackson, M., J. Xia, C. Jing, J. Wu, X. Huang, 2007. Protection against oxidative stress in
diabetic rats
by wheat bran feruloyl oligosaccharides.
Journal of Agricultural and Food
Chemistry, 55: 3191-3195.
Joseph, B., S.J. Raj, 2011. Pharmacognostic and
Phytochemical propertiesof aloe vera linn- an overview.
International Journal of Pharmaceutical Sciences
Review and Research, 4(2): 107-110.
Kim, K., H. Kim, J. Kwon, S. Lee, H. Kong, S.A.
Im, et al, 2009. Hypoglycemic and
hypolipidemic
effects of processed Aloevera gel in a Mouse model
of non-insulin-dependent diabetes mellitus. Phytomedicine,
16: 856-863.
Koracevic, D., G. Koracevic, V. Djordjevic, S. Andrejevic and V. Cosic, 2001. Method for the
measurement of antioxidant activity in human fluids.
J. Clin. Pathol., 54: 356-361.
Lafaka, T., V. Sinanoglou and E.S. Lazos, 2007.
on the extraction and antioxidant
activity of phenolic
compounds from wintry wastes.Food Chem., 104:
1206-1214.
Lenzen, S., 2008. The mechanisms of alloxan-and
streptozotocin-induced diabetes. Diabetologia, 51: 216-
226.
Maenthalsong, R., N. Chalyakunapruk, S. Niruntrapon,
2007. The efficiency of Aloe vera for burns and
wound healing, a systematic review. Burns, 33:
713-718.
Montgomery, H.A.C., J.F. Dymock, 1961. Determination
of nitrite in water. Analyst, 86: 414-416.
Meenakashi, S., D.M. Gnanambigi, S.T. Mozhi, M.
Arumugam, T. Balasubramanian, 2009. Total flavanoid
and in vitro antioxidant activity of two seaweeds of
rameshwaram coast. Global J. Pharmacol., 3(2): 59-62.
Mohammad, A.N., J. Abdalla, A.N. Mohammad, F.S.
Tarannum, V.S. Beena, S. Faiyaz, 2009. Antioxidant
status of atorvastatin in hyperchlosterolemic
patient. J. Serb. Chem. Soc., 74(10): 1063-1073.
Mohamed, A.E., A.F. Abdel-Aziz, E.M. El-Sherbiny,
R.M. Mors, 2009. Anti-diabetic effect of aloe vera
juice and evaluation of thyroid function in female
diabetic rats. Bioscience Research, 6(1): 28-34.
Moghaddasi, S.M., S.K. Verm, 2011. Aloe vera their
chemicals composition and applications. International
Journal of Biological & Medical Research, 2(1):
466-471.
Nwanjo, H.U., 2006. Antioxidant activity of the
exudate from Aloe barbadensis leaves in diabetic rats.
Biokemistri, 18: 77-81.
Nwaoguikpe, R.N., W. Braide, T.I.N. Ezejiofor, 2010.
The effect of aloe vera plant (aloe barbadensis)
extracts on sickle cell blood. African Journal of
Food Science and Technology, 1(3): 058-063.
Noor, A., S. Gunasekaran, A.S. Manickam, M.A.
Vijayalakshmi, 2008. Antidiabetic activity of Aloe vera
and histology of organs in streptozotocin induced
diabetic rats. Curr. Sci., 94(8): 25.
Offenbacher, E.G., F.X. Pisunyer, 1980. Beneficial
effects of chromium –rich yeast on glucose tolerance
and blood lipids in elderly subtects.Diabetes, 29:
919-925.
Ohkawa, H., W. Ohishiand, K. Yagi, 1979. Assay for
lipid peroxide in animal tissues by thiobarbituric
acid reaction. Anal. Biochem., 95: 351-358.
Rajasekaran, S.K., K. Sivagnanam, K. Ravi, S.
Subramanian, 2004. Hypoglycemic effect of Aloe vera gel
on streptozotocin induced diabetes in experimental
rats. J. Med. Food., 7: 61-66 .
Rajasekaran, S., K. Ravi , K. Sivagnanam , S.
Subramanian, 2006. Benecial effects of aloe vera leaf gel
extract on lipid profile status in rats with
streptozotocin diabetes. Clin. Exp Pharmacol. Physiol., 33: 232-237.
Rajasekaran, S., K. Sivagnaman, S. Subramanian,
2005. Modulatory effects of Aloe vera leaf gel extract
on oxidative stress in rats treated with
streptozotocin. J. Pharm. Pharmacol., 57: 241-246.
Richmond, W., 1973. Preparation and properties of a
cholesterol oxidase from Nocardia sp. and its
application to the enzymatic assay of total
cholesterol in serum. Clin. Chem., 19: 1350.
Samulsson, G., 2004. Drugs of natural origin: a textbook of pharmacognosy. 5 ed. Stockholm:
Swedish
Pharmaceutical Press.
Sarkar, B.A., A. Dutta, M. Das, K. Sarkar, C.
Mandal, M. Chatterjee, 2005. Effect of Aloe vera on nitric
oxide production by macrophages during inflammation.
Indian J. Pharmacol., 37(6): 371-375.
Sheetz, M.J., 2002. Molecular understanding of
hyperglycemia as adverse effects for diabetic complications,
J. Am. Med. Assoc., 288: 2579-2588.
Tiwari, A.K., J.M. Rao, 2002. Diabetes mellitus and
multiple Therapeutic approaches of phytochemicals:
present status and future prospects. Curr Sci., 83:
30-38.
Trinder, P., 1969. Determination of glucose by
enzymatic colorimetric method. Ann. Clin. Biochem., 6:
24.
Van, E.M., A. Emmeri, 1936. Some critical remarks on
the determination of ascorbic acid. Biochem. J.,
30: 25-27.
1. Abu-Amra, S., 1994. Influence of venom extracted
factors separated from snakes on serum insulin,
serum glucose, liver glycogen and skeletal muscle
pyurrate levels
of rats. J.
Egypt. Ger. Soc. Zool.,
15: 205-215.
2. Ajabnoor, M., 1990. Effect of aloes on blood
glucose levels in normal alloxan diabetic mice.
J.Ehtanopharmcol., 28: 200-215.
3. Ashii, Y. and H. Tanizawa, 1994. Studies of Aloe
vera mechanisms of cathartic effect. Biological and
Pharmaceutical Bulletin, 17: 61-653.
4. Blumenhal, M., N.R. Busse and A. Golddberg,
1998. The complete commission E. monographs
therapeutic guide to herbal medicine, Boson M.A.
Integrative Medicines Communications, 80-81.
5. Brusick, D. and
V. Mengs, 1997. Assessment of
genotoxic risk
from laxative products. Environ.
Molec. Mutag., 29: 1-9.
6. Drury, R.A.B. and E.A. Wallington, 1980.
Carleton's histological technique. 5 ed. Oxford,
th
New York, Toronto.
7. Ghannam, N., Kingstn and I.A. Al-Meshall, 1986.
The anti-diabetic activity of Aloes, preliminary
clinical and experimental observations. Horm. Res.,
24: 288-294.
8. Gilmar, G.A., W.T. Rall, S.A. Nies and P. Taylor,
1992. Pharmacological Basisogy Therapeutics. Vol.
II. English edition. McCrow-Hill International
Editions Medical Series.
9. Harborne, J.B., 1976. Methods of exraction and
isolation phyto-chemical method. Chapman and
hall, London, pp: 4-6.
10. Hassan,
R.A., 2002. The hypoglycemic and antidiabetic effects
of Guiera senegalensis J.f. GMd
and Medicago
sativa L. M.Sc. Thesis, University
of Khartoum.
11. Helal, E.G.M., H.A. Mohammed, M.M. Asharf and
A. Al-Kamel, 2003. Effect of Aloe vera extract on
some
physiological parameters in diabetic albino
rats. Egyptian J. of Hosp. Med., 12: 53-61.
12. Hutter, J. and M. Salmon, 1993.
Anti-inflammatory
C-glucose chromone from Aloe arbadensis. J. Net
Prod., 5: 541-543.
13. Ishii, Y. and H. Tanizawa, 1994. Studies of Aloe
vera mechanism of
cathartic effect. Biological and
Pharmaceutical Bulletin, 17: 651-653.
14. Khana, A.K., R. Chandar, N.K. Kapor, Sinahx and
A. Srivastava, 1993. Hypoglycemic activity of T.
chbulain in rats. Tritor, LXIX, 4315-4356.
15. Kheighley, U.K., 1999. British Herbal Medicine
Association, British Herbal Pharmacopoeia.
16. Lee, B., 2000. Inhibitory mechanism of Aloe
single
component (Alprogen) on mediator release in
guinea pig lung mast cells activated with specific
antigen-antibody reactions. Pharmacol. and Exper.
Therapeutic, 293: 114-121.
17. Mendenhall, W., 1972. Introduction to
probability
and statistics 3 ed. Wadsworth Publishing
rd
Company, Inc. Belmont, California, USA.
18. National Diabetes, 1998. Fact sheet: National
Estimates and General Information on Diabetes.
Atlanta, Georgia, Center of Disease Control and
Prevention.
19. Okyar, A., A. Car, N. Akev, G. Baktir and N.
Suthepinar,
2001. Effect of Aloe vera leaves
on
blood glucose level in type I and type II diabetic
rat models. Istanbul, Turkey, Phytother. Res. 15:
157-161.
20. Shane, M.C. and L. Whorter, 2001. Biological
complementary therapies. A focus on botanical
products
in diabetes. Diabetes Spectrum, 14:
199-208.
21. Shelton, M., 1991. Aloe vera its
chemical and
th e r a p e u ti c
p r o p e rti e s. I n t e r n a
tio n a l J .
Dermatology., 30: 679-683.
22. Siest, G. and M.J. Schielf, 1981. Interpretation
Des
Examens Delaboratoire, Karger ed., pp: 206-223.
23. Takakatta, T., K. Kameda, Y. Matsuura, K.
Selkiya
and N. Okuda, 1990. Studies on insulin like
substances in Korean red ginseng. Planta Medica.,
56: 27-30.
24. Wendell, L., 2006. Aloe vera. http://www.
uspharmacist.com/old-format.
1. Abdullah, K. M., Abdullah, A., Johnson, M. L.,
Bilski, J. J.,
Petry, K., Redmer, D. A., Reynolds, L. P. and
Grazul-Bilska,
A. T. 2003. Effects of Aloe vera open gap junctional
intercellular communication and proliferation of human diabetic and
nondiabetic skin fibroblasts. J. Altern. Complement.
Med. 9:
711–718.
2.
Altavilla, D., Saitta, A., Cucinotta, D., Galeano, M., Deodato,
B., Colonna, M., Torre, V., Russo, G., Sardella, A.,
Urna, G.,
Campo, G. M., Cavallari, V., Squadrito, G. and
Squadrito, F.
2001. Inhibition of lipid peroxidation restores
impaired vascular endothelial growth factor expression and stimulates wound
healing and angiogenesis in the genetically diabetic
mouse.
Diabetes 50: 667–674.
3. Bitar, M.
S. and Labbad, Z. N. 1996. Transforming growth factor-beta and insulin-like
growth factor-I in relation to diabetesinduced impairment of wound healing. J.
Surg. Res. 61: 113–
119.
4. Boudreau,
M. D. and Beland, F. A. 2006. An evaluation of the
biological and toxicological properties of Aloe
Barbadensis
(Miller), Aloe vera. J. Environ. Sci. Health C.
Environ. Carcinog. Ecotoxicol. Rev. 24: 103–154.
5. Chithra,
P., Sajithlal, G. B. and Chandrakasan, G. 1998. Influence of Aloe vera on the
glycosaminoglycans in the matrix of
healing dermal wounds in rats. J. Ethnopharmacol.
59: 179–
186.
6. Chithra,
P., Sajithlal, G. B. and Chandrakasan, G. 1998. Influence of Aloe vera on the
healing of dermal wounds in diabetic
rats. J. Ethnopharmacol. 59: 195–201.
7. Chithra,
P., Sajithlal, G. B. and Chandrakasan, G. 1998. Influence of Aloe vera on
collagen characteristics in healing dermal
wounds in rats. Mol. Cell Biochem. 181: 71–76.
8. Choi, S.
W., Kim, K. W., Choi, J. S., Han, S. T., Park, Y. I.,
Lee, S. K., Kim, J. S. and Chung M. H. 2002.
Angiogenic
activity of -sitosterol in the
ischaemia/reperfusion-damaged
brain in Mongolian Gerbil. Planta Med. 68: 330–335.
9. Choi, S.
W., Son, B. W., Son, Y. S., Park, Y. I., Lee, S. K. and
Chung, M. H. 2001. The wound-healing effect of a
glycoprotein fraction isolated from Aloe vera. Br. J. Dermatol. 145:
535–545.
10. Davis, R. H., Leitner, M. G. and Russo, J. M.
1988. Aloe vera:
a natural approach for treating wound, edema and
pain in diabetes. J. Am. Podiatr. Med. Assoc.72: 60–68.
11. Desmouliere, A., Geinoz, A., GabbianI, F. and
GabbianI, G.
1993. Transforming growth factor-1 induces -smooth
muscle actin expression in granulation tissue myofibroblasts and in
quiescent and growing cultured fibroblasts. J. Cell.
Biol. 122:
103–111.
12. Djeraba, A. and Quere, P. 2000. In vivo
macrophage activation
in chickens with Acemannan, a complex carbohydrate
extracted from Aloe vera. Int. J. Immunopharmacol.
22: 365–
372.
13. Frank, S., Hubner, G., Dreier, G., Longaker, M.
T., Greenhalgh, D. G. and Werner, S. 1995. Regulation of vascular
endothelial growth factor expression in cultured
keratinocytes: implications for normal and impaired wound healing. J. Biol.
Chem. 270: 12607–12613.
14. Hedlund, C. S. 2007. General Principles and
techniques. pp.
159–192. In: Small Animal Surgery, 3rd ed. (Fossum,
T. W.
ed), Mosby Elsevier, St. Louis.
15. Jettanacheawchankit, S., Sasithanasate, S., Sangvanich, P.,
Banlunara, W. and Thunyakitpisal, P. 2009. Acemannan
stimulates gingival fibroblast proliferation; expressions of keratinocyte
growth factor-1, vascular endothelial growth factor, and
type I collagen; and wound healing. J. Pharmacol.
Sci. 109:
525–531.
16. Kwon, A. H., Qiu, Z. and Hirao, Y. 2007. Topical
application
of plasma fibronectin in full-thickness skin wound
healing in
rats. Exp. Biol. Med. 232: 935–941.
17. Kwon, Y. B., Kim, H. W., Roh, D. H., Yoon, S.
Y., Baek, R.
M., Kim, J. Y., Kweon, H., Lee, K. G., Park, Y. H.
and Lee, J.
H. 2006. Topical application of epidermal growth
factor accelerates wound healing by myofibroblast proliferation and collagen
synthesis in rat. J. Vet. Sci. 7: 105–109.
18. Lee, P. Y., Chesnoy, S. and Huang, L. 2004.
Electroporatic
delivery of TGF-1 gene works synergistically with
electric
therapy to enhance diabetic wound healing in db/db
mice. J.
Invest. Dermatol. 123: 791–798.
19. Liu, C., Leung, M.Y., Koon, J.C., Zhu, L. F.,
Hui, Y. Z., Yu, B.
and Fung, K. P. 2006. Macrophage activation by
polysaccharide biological response modifier isolated from Aloe vera L.
var. chinensis (Haw.) Berg. Int. J. Immunopharmacol.
6: 1634–
1641.
20. Moon, E. J., Lee, Y. M., Lee, O. H, Lee, M. J.,
Lee, S. K.,
Chung, M. H., Park, Y. I., Sung, C. K., Choi, J. S.
and Kim, K.
W. 1999. A novel angiogenic factor derived from Aloe
vera
gel: -sitosterol, a plant sterol. Angiogenesis 3:
117–123.
21. Mustoe, T.A., Pierce, G.F., Morishima, C. and Deuel, T.F.
1991. Growth factor-induced acceleration of tissue
repair
through direct and inductive activities in a rabbit
dermal ulcer
model. J. Clin. Invest. 87: 694–703.
22. Pan, S., An, P., Zhang, R., He, X., Yin, G. and
Min, W. 2002. Etk/Bmx as a tumor necrosis factor receptor type 2-specific
kinase: Role in endothelial cell migration and
angiogenesis.
Mol. Cell. Biol. 22: 7512–7523.
23. Qiu, Z., Jones, K., Wylie, M., Jia, Q. and
Orndorff, S. 2000.
Modified Aloe barbadensis polysaccharide with
immuneregulatory activity. Planta Med. 66: 152–156.
24. Roberts, D. B. and Travis, E. L. 1995.
Acemannan-containing
wound dressing gel reduces radiation-induced skin
reactions in
C3H mice. Int. J. Radiat. Oncol. Biol. Phys. 32:
1047–1052.
25. Saaristo, A., Tammela, T., Farkkila, A.,
Karkkainen M., Suominen, E., Yla, S. and Alitalo, K. 2006. Vascular endothelial
growth factor-C accelerates diabetic wound healing.
Am. J.
Pathol. 169: 1080–1087.
26. Sidhu, G. S., Singh, A. K., Banaudha, K. K.,
Gaddipati, J. P.,
Patnaik, G. K. and Maheshwari, R. K. 1999. Arnebin-1
accelerates normal and hydrocortisone-induced impaired wound
healing. J. Invest. Dermatol. 113: 773–781.
27. Turan, M., Saraydyn, S., Bulut, H., Elagoz, S.,
Cetinkaya, O.,
Karadatyi, K., Canbay, E. and Sen, M. 2004. Do
vascular
endothelial growth factor promote phenytoin’s wound
healing
effect in rat? An immunohistochemical and
histopathologic
study. Dermatol. Surg. 30: 1303–1309.
28. Vogler, B. K. 1999. Aloe vera: a systemic review
of its clinical
effectiveness. Br. J. Gen. Pract. 49: 823–828.
29. Wang, W., Lin, S., Xiao, Y., Huang, Y., Tan, Y.,
Cai, L. and
Li, X. 2008. Acceleration of diabetic wound healing
with chitosan-crosslinked collagen sponge containing recombinant
acidic fibroblast growth factor in healing-impaired
STZ diabetic rats. Life Sci. 82: 190–204.
30. Werner, S. and Grose, R. 2003. Regulation of
wound healing
by growth factors and cytokines. Physiol Rev. 83:
835–870.
31. Werner, S., Krieg, T. and Smola, H. 2007.
Keratinocyte-fibroblast interactions in wound healing. J. Invest. Dermatol. 127:
998–1008.
32. Zhang, L. and Tizard, I. R. 1996. Activation of
a mouse macrophage cell line by acemannan: the major carbohydrate fraction from
Aloe vera gel. Immunopharmacology 35: 119–128.
1) Arellano P. El Libro Verde. Guía de Recursos
Terapéuticos Vegetales. Ministerio de Salud. Lima, 1992. pp 33,46,53.
2) Aguilar CA. Plantas Tóxicas de México. Instituto
Mejicano de
Seguridad Social. México D.C., 1985.
3) Barriga R. Plantas útiles de la Amazonía peruana.
CONCYTEC,
Lima - Perú, 1994.
4) Sanyal AK, Das PK, Sinha S, Sinha YK. Banana and
gastric
secretion. J Pharm Pharmacology 1961; 13: 318-9.
5) Sanyal AK, Burnerjee CR, Das PK. Studies on peptic
ulceration - Part II Role of banana in restraint and
prednisolone
induced ulcer in albino rats. Arch Intern Pharmacodynamie
Ther
1965; 155: 244-8.
6) Adami E, Marzzi-Uberti E, Turba C.
Pharmacological research
on gafarnate, a new synthetic isopenoid with an
antiulcer action.
Arch Intern Pharmacodynamie Ther 1964; 147: 113-45.
7) Tapia SB, Principe H, Rachumi M. Estudio
controlado del
efecto preventivo y terapéutico de Croton
palanostigma, Aloe vera y Omeprazol sobre lesiones gástricas inducidas por
etanol
en ratas albinas. Congreso Peruano de
Gastroenterología.
Lima, 1996.
8) Malaga E. Efecto del clorhidrato de taspina sobre
la curación
de úlcera gástrica inducida en ratas. Tesis de
bachiller en Biología. Lima. Univ. Peruana Cayetano Heredia, 1991.
9) Robert A, Nezamis RA, Lancaster JE, Hanchar AJ.
Cytoprotection by prostaglandins in rats. Prevention
of gastric
necrosis produced by alcohol, HCl, NaOH, hypertonic
NaCl and
thermal injury. Gastroenterology 1979; 77: 433-43.
10) Davenport HW. Ethanol damage to canine oxyntic
glandular
mucosa. Proc Soc Exp Biol Med 1967; 126: 657-62.
11) Tarnawski A, Hollander K, Krause NH, Gergely H.
Sucralfate
protection of gastric mucosa against alcohol injury.
Morphologic,
ultraestrucural, and functional time-sequence
analysis [resumen]
Gastroenterology 1983; 84-113.
12) Derelanko J, Long JF. Carbenoxolone sodium
protects rat
gastric mucosa against ethanol induced necrosis.
Proc. Soc Exp
Biol Med 1981; 166: 394-7.
13) Tarnawski A, Hollander D, Gergely H, Stachura J.
Comparison of Antacid, Sucralfate, Cimetidine and
Ranitidine
in protection of the gastrica mucosa against ethanol
injury. Am J
Med 1985; 79: 19-23.
14) Tarnawski A, Hollander D, Cummings D, Krause WJ,
Gegerly H, Zipser RD. Are antacids acid neutralizers
only
Histologic ultraestructural and functional changes
in normal
gastric mucosa induced by antacids? [resumen].
Gastroenterology
1984; 86: 1276.
15) Vaisberg AJ, Milla M, Planas MC, Cordoba JL,
Agusti ER,
Ferreyra R, Nustiga MC, Carlin L, Hammon GB. Taspine
is
cicatrizant principle in sangre de grado extracted
from Croton
lechleri. Planta Med 1989 Abr; 55(2): 140-3.
16) Cheng ZP, Cat Y, Phillipson D. Studies on the
antitumor,
antibacterial and wound-healing properties of
dragonis blood.
Planta Med 1994 Dec; 60(6): 541-5.
17) Milla ME. Estudio sobre mecanismo de acción del
principio
activo taspina de sangre de grado. Tesis de
bachiller en Biología. Univ. Peruana Cayetano Heredia. Lima, 1985.
18) Harrington SJ, Schelegel JF, Code CF. The
protective effect
os sucralfate on the gastric mucosa of rats. J Clin
Gastroenterol
1981; 3: 129-34.
19) Nagashima R, Hashino E, Hinohara Y, Sakai K, Haa
S,
Nakano H.
Effect of sucralfate on ethanol induced gastric
mucosal damage in the rat. Scand J Gastroenterol
1983; 3(suppl
83): 17-20.
20) Nagashima R. Mechanism of action of sucralfate.
J Clin
Gastroenterol 1981; 3(suppl 2): 117-27.
21) Nakazama S, Nagashima R, Samioff IM. Selective
binding
of sucralfate to gastric ulcer in man. Dig Dis Sci
1981; 26:
297-300.
22) Tarnawski A, Hollander D, Krause WJ, Zipser RD,
Gegerly
H. Effect of sucralfate on normal gastric mucosa.
Histologic,
ultraestructural and functional assesment [resumen].
Gastroenterology 1983; 84: 1331.
23) Hollander D, Tarnawski A, Krause WJ, Gegerly H.
The
protective effect of sucralfate against alcohol
induced gastric mucosal injury in the rat. Macroscopic, histologic,
ultraestructural and functional time-sequence
analysis.
Gastroenterology 1985; 88: 366-74.
24) Tarnawski A, Hollander D. Prostaglandin
protection of the rat
gastric mucosa against alcohol injury a mucosal
proliferative
zone. Gastroenterology 1985; 88: 334-52.
25) Tarnawski A, Hollander D. Arachidonic acid
protection of
gastric mucosa against alcohol injury sequencial
analysis of
morphologic and functional changes. J Lab Clin Med
1983; 102:
340-51.
26) Tarnawski A, Hollander D, Mach T, Stachura J,
Bogdal J.
Effect of sucralfate on normal human gastric mucosa.
Endoscopic, histologic and ultraestructural
assesment [resumen]
Gastroint Endosc 1984; 30: 155.
27) Mylake T, Ariyoshi J, Suzaki T, Oishi M, Sakai
M, Ueda S.
Endoscopic evaluation of the effect of sucralfate
therapy and other clinical parameters on the recurrence rate of gastric ulcer.
Dig Dis Sci 1980; 25: 1-7.
28) Moshal MG, Spitaeis JM, Manion GI. Double-blind,
placebocontrolled evaluation of one-year therapy with sucralfate in
healed duodenal ulcer. Scand J Gastroenterol 1982;
18(suppl
83): 57-9.
29) Classen M, Bethge H, Brunner G, et al. Effect of
sucralfate on
peptic ulcer recurrence: a controlled, double-blind
multicenter
study. Scand J Gastroenterol 1982; 18(suppl 83):
61-8.
30) Libeskind M. Maintenance treatment of patients
with healed
peptic ulcer with sucralfate, placebo, and
cimetidine. Scand J
Gastroenterol 1982; 18(suppl 83): 69-70.
31) Borrego E, Margolis J, Bank S, Schulman N,
Chardavoyne
R. A comparison between sucralfate and antacids in
the
prevention of stress ulcers in critically iII
patients [resumen].
Gastroenterology 1984; 86: 102.
1. Rodriguez-Bigas M, Cruz NI, Suarez A: Comparative
evaluation of aloe vera in the management of burn
wounds in guinea pigs. Plastic Reconstruct Surg
1988;81(3):386
2. Heggers JP, Kucukcelebia A, Listengarten D, et
al:
Beneficial effect of Aloe on wound healing in an
excisional wound model. Journal Alternative Comprehensive
Medicine 1996;2(2):271
3. Womble D, Helderman JH: The impact of acemannan
on the generation and function of cytotoxic
T-lymphocytes.
Immunopharmacol Immunotoxicol
1992;14:63
4. Sheets MA, Unger BA, Giggleman GF, et al: Studies
of the effect of acemannan on retrovirus infections:
Clinical stabilization of feline leukemia
virus-infected
cats. Mol Biother 1991;3:41
5. Yates KM, Rosenberg LJ, Harris CK, et al: Pilot
study of the effect of acemannan in cats infected
with
feline immunodeficiency virus. Vet Immuno Immunopath
1992;35:177
6. Viola H, Wasowski C, Levi de Stein M, et al:
Apigenin, a component of Matricaria recutita
flowers, is
a central benzodiazepine receptors-ligand with
anxiolytic
effects. Planta Med 1995;61:213
7. Sato F, Matsukawa Y, Matsumoto K, Nishino H, et
al: Apigenin induces morphological differentiation
and
G2-M arrest in rat neuronal cells. Biochem Biophys
Res
Commun 1994;204:578
8. Weizman Z, Alkrinawi S, Goldfarb D, et al:
Efficacy
of herbal tea preparation in infantile colic. J Pediatr
1993;122:650
9. Roberts A, Williams JMG: The effect of olfactory
stimulation on fluency, vividness of imagery, and associated
mood; A preliminary study. Br J Med Psychol
1992;65:197 10. Tubaro A, Tragni E, Del Negro P, et al: Anti-inflammatory
activity of a polysaccharide fraction of
Echinacea
angustifolia. J Pharm Pharmacol 1987;39(7):567
11. Wacker A, Hilbig W: Virus inhibition by Echinacea
purpurea. Planta Medica 1978;33:89
12. Roesler J, Steinmuller C, Kiderlen A, et al:
Application of purified polysaccharides from cell cultures of the
plant
Echinacea purpurea to mice mediates protection
against systemic infections with Listeria monocytogenes
and Candida albicans. Int J Immunopharmocol 1991;
13(1):27
13. Coeugniet EG, Kuhnast R: Recurrent candidiasis:
Adjuvant immunotherapy with different formulations
of
Echinacin. Therapiewoche 1986;36:3352
14. Braunig B, et al: Echinacea purpurea radix for
strengthening the immune system in flu-like
infections. Z
Phytother 1992;13:7
15. Schoneberger D: The influence of
immune-stimulating effects of pressed juice from Echinacea purpurea on the
course and severity of colds. Results of a
double-blind study. Forum Immunol 1992;8:2
16. Johnson ES, Kadam NP, Hylands DM, et al:
Efficacy
of feverfew as prophylactic treatment of migraine.
Br Med
J 1985;291:569
17. Murphy JJ, Heptinstall S, Mitchell JR:
Randomised
double-blind placebo controlled trial of feverfew in
migraine
prevention. Lancet 1988;2:189
18. Pattrick M, Heptinstall S, Doherty M: Feverfew
in
rheumatoid arthritis: A double-blind, placebo
controlled
study. Ann Rheum Dis 1989;48:547
19. Amin AH, Subbaiah TV, Abbasi KM: Berberine
sulfate:
Antimicrobial activity, bioassay, and mode of
action. Can
Microbiol 1969;15:1067
20. Sack RB, Froehlich JL: Berberine inhibits
intestinal
secretory response of Vibrio cholera toxins and
Escherichia
coli enterotoxins. Infect Immun 1982; 35:471
21. Rabbani GH, Butler T, Knight J, et al:
Randomized
controlled trial of berberine sulfate therapy for
diarrhea
due to enterotoxigenic Escherichia coli and Vibrio
cholera.
J Infect Dis 1987;155(5):979 22. Gupte S: Use of
berberine in treatment of giardiasis.
Am J Dis Child 1975;129:866
23. Kuo CL, Chou CC, Yung BY: Berberine complexes
with DNA in the berberine-induced apoptosis in human
leukemic HL-60 cells. Cancer Lett 1995:93(2):193
24. Chi CW, Chang YF, Chao TW, et al: Flowcytometric
analysis of the effect of berberine on the
expression of
glucocorticoid receptors in human hepatoma HepG2
cells.
Life Sci 1994;54:2099
25. Chen KT, Hao DM, Liu ZX, et al: Effect of
berberine
alone or in combination with argon ion laser
treatment
of 9L rat glioma cell line. Chin Med J (Engl) 1994;
107(11):808
26. Bassett IB, Pannowitz DL, Barnetson R: A
comparative study of tea tree oil versus benzoyl peroxide in the
treatment of acne. Med J Australia 1990;153:455
27.Tong MM, Altman PM, Barnetson RS: Tea tree oil in
the
treatment of tinea pedis. Austr J Dermatol 1992;
33:145
28. Blackwell AL: Tea tree oil and anaerobic
(bacterial)
vaginosis. Lancet 1991;337:300
1. Unakul S. Urinary stones in Thailand: a
statistical
survey. Siriraj Hosp Gaz 1961; 13: 199-214.
2. Sriboonlue P, Prasongwatana V, Chata K, Tungsanga
K. Prevalence of upper urinary tract stone
disease in a rural community of north-eastern
Thailand. Br J Urol 1992; 69: 240-4.
3. Anasuya A, Sasikala M. The effect of feeding
tamarind to men on the lithogenic properties of
urine [abstract]. Urol Res 1988; 16: 174.
4. Sriboonlue P, Prasongwattana V, Tungsanga K,
Tosukhowong P, Phantumvanit P, Bejrabutra O,
et al. Blood and urinary aggregator and inhibitor
composition in controls and renal-stone patients
from northeastern Thailand. Nephron 1991; 59:
591-6.
5. Sriboonlue P, Prasongwattana V, Tosukhowong P,
Reungjui S, Premgamone A, Tungsanga K. High
carbohydrate/low fat diet: a possible cause of
renal stone disease in rural northeast Thailand.
Intern Med J Thai 2002; 18: 107-10.
6. Hallson PC, Rose GA. Reduction of the urinary
risk factors of urolithiasis with magnesium and
tartrate mixture: a new treatment. Br J Urol 1988;
61: 382-4.
7. Sriboonlue P, Prasongwattana V, Bowornpadungkitt
S, Suwantri S, Piaruksa P. A study on potential
effects of herbal plants in the treatment of
nephrolithiasis. Research Report. Khon Kaen: Faculty of
Medicine, Khon Kaen University; 1999.
8. Davis RH, Agnew PS, Shapiro E. Antiarthritic
activity of anthraquinones found in aloe for
pediatric medicine. J Am Pediatr Med Assoc 1986; 76:
61-6.
9. Agarwal OP. Prevention of atheromatous heart
disease. Angiology 1985; 36: 485-92.
10. Ghannam N, Kingston M, Al-Meshaal IA, Tariq
M, Parman NS, Woodhouse N. The antidiabetic
activity of aloes: preliminary clinical and
experimental observations. Horm Res 1986; 24: 288-94.
11. Shelton RM. Aloe vera. Its chemical and
therapeutic properties. Int J Dermatol 1991; 30: 679-83.
12. Ghazali S, Barratt TM. Urinary excretion of calcium
and magnesium in children. Arch Dis Child 1974;
49: 97-101.
13. Moellering H, Gruber W. Determination of citrate
with citrate lyase. Anal Biochem 1966; 17: 369-76.
14. Underhill FP, Peterman FI, Krause AG. Studies on
the metabolism of tartrates I: a colorimetric method
for the determination of tartaric acid. J Pharmacol
Exp Ther 1931; 43: 351-8.
15. Fossati P, Prencipe L, Berti G. Use of 3,
5-dichloro-
2-hydroxybenzenesulfonic acid/4-aminophenazone
chromogenic system in direct enzymatic
assay of uric acid in serum and urine. Clin Chem
1980; 26: 227-31.
16. Crider QE, Curran DF. Simplified method for
enzyme
urine oxalate assay. Clin Biochem 1984; 17: 351-5.
17. Pak CY, Holt K. Nucleation and growth of
brushite
and calcium oxalate in urine of stone-formers.
Metabolism 1976; 25: 665-73.
18. Pak CY, Hayashi Y, Finlayson B, Chu S.
Estimation
of the state of saturation of brushite and calcium
oxalate in urine: a comparison of three methods. J
Lab Clin Med 1977; 89: 891-901.
19. Nicar MJ, Hill K, Pak CY. A simple technique for
assessing the propensity for crystallization of
calcium oxalate and brushite in urine from the
increment in oxalate or calcium necessary to elicit
precipitation. Metabolism 1983; 32: 906-10.
20. Sriboonlue P, Prasongwattana V, Kuwattananukul
C. Tartrate and citrate content of the Thai fruits:
a
choice to develop for prevention and control of
nephrolithiasis in the future. Research Report.
Khon Kaen: Faculty of Medicine, Khon Kaen
University; 1992.
21. Fleisch H. Inhibitors and promoters of stone
formation. Kidney Int 1978; 13: 361-71.
22. Hans-Goeran Tieselius. Urinary excretion of
citrate
in normal subjects and patients with urolithiasis.
In: Smith LH, Robertson WG, Finlayson B, editors.
Urolithiasis: clinical and basic research. New York:
Plenum Press; 1980: 39-44.
23. Butz M, Dulce HJ. Enhancement of urinary citrate
in oxalate stone formers by the intake of alkaline
salts. In: Smith LH, Robertson WG, Finlayson B,
editors. Urolithiasis: clinical and basic research.
New York: Plenum Press; 1980: 881-4.
24. Nicar MJ, Skurla C, Sakhaee K, Pak CY. Low
urinary
citrate excretion in nephrolithiasis. Urology 1983;
21: 8-14.
25. Menon M, Mahle CJ. Urinary citrate excretion
in patients with renal calculi. J Urol 1983; 129:
1158-60.
26. Nirdnoy M. The effect of roselle and orthosiphon
on urinary uric acid and citrate excretion in the
normals. Seminar on the development of clinical
use of medicinal herbs and scientific researches
and technology of herbs for treatment of tropical
diseases [abstract]. Nakhon Pathom: Mahidol
University Salaya; 26-27 Feb. 1987: 57.
27. Kirdpon S, Nanakorn S, Kirdpon W. Changes in
urinary chemical composition in healthy volunteers
after consuming Roselle (Hibiscus sabdariffa
Linn.) juice. J Med Assoc Thai 1994; 77: 314-21.
BARROS, H. Economia agrária. Lisboa: Livraria Sá da
Costa, 1948.
BRUNI, A. L.; FAMÁ, R. Gestão de custos e formação
de
preços. São Paulo: Atlas, 2004. 551 p.
CREA, P. Aloe Sabila manual práctico y clínico:
terapias e
medicinas alternativas. Buenos Aires: Continente,
1995.
128 p.
FOREVERLIVING. Search products: perda do peso.
Disponível em:
%2Bvera%26hl%3Dpt-BR%26lr%3D%26ie%3DUTF>.
Acesso em: 21 set. 2004.
HEDENDAL, B. E. Whole-leaf aloe vera, almost A
panacea.
2001. Disponível em:
>. Acesso em: 21 set. 2004.
HOFFMANN, R.; ENGLER, J. J. C.; SERRANO, O.
Administração da empresa agrícola. 3. ed. São Paulo:
Pioneira, 1981. 325 p.
HORNGREN, C. T.; DATAR, S. M.; FOSTER, G.
Contabilidade de custos. 11. ed. São Paulo: Prentice
Hall,
2004. 310 p.
LOPES, M. A.; CARVALHO, F. de M. Custo de produção
do
gado de corte. Lavras: UFLA, 2002. 47 p. (Boletim
agropecuário, 47).
MATSUNAGA, M.; BEMELMANS, P. F.; TOLEDO, P. E.
N. de; DULLEY, R. D.; OKAWA, H.; PEDROSO, I. A .
Metodologia de custo de produção utilizado pelo IEA.
Agricultura em São Paulo, São Paulo, v. 23, n. 1, p.
123-
139, 1976.
STEVENS, N. O poder curativo da babosa aloe vera:
selestial connection. Tradução de S. Scapin. São
Paulo:
Madras, 1999
Alstrom, S., Burns, R.G., 1989. Cyanide production
by rhizobacteria as a possible mechanism of plant growth
inhibition. Biol. Fertil. Soil. 7, 232–238.
Arshad, M. Frankenberger, Jr. W.T., 1993. Microbial
production of plant growth regulators. Marcel and Dekker,
New York, pp. 307–347.
Bakker, A.W., Schippers, B., 1987. Microbial cyanide
production in the rhizosphere in relation to potato yield
reduction and Pseudomonas sp. mediated plant growth
stimulation. Soil Biol. Biochem. 19, 451–457.
Bent, E., Tuzun, S., Chanway, C.P., Enebak, S.,
2001. Alterations in plant growth and in root hormone levels of
lodgepole pines inoculated with rhizobacteria. Can.
J. Microbiol. 47, 793–800.
Blakemore, L.C., Searle, PL., Daly, B.K., 1972.
Methods for chemical analysis of soils. New Zealand Soil Bureau
Report IOA Government printer, Wellington.
Boddey, R.M., Dobereiner, J., 1995. Nitrogen
fixation associated with grasses and
cereals: recent progress and
perspectives for the future. Fert. Res. 42, 241–250.
Brick, J.M., Bostock R.M., Silverstone S. E., 1991.
Rapid insitu assay for indole acetic acid production by bacteria
immobilized on nitrocellulose membrane. Appl.
Environ. Microbiol. 57, 535–538.
Briely, I.J.,
Thornton I., 1983. Primary observation on the effect on heavy metals from
mining and smelting on
nitrogen-fixing bacteria in some British soils.
Minerals Environ. 1, 112-119.
Burd, G.I., Dixan, D.G., Glick, B.R., 1998. A plant
growth promoting bacterium that decreases nickel toxicity in
seedlings. Appl. Environ. Microbiol. 64, 3663 -
3668.
Cappuccino, J. C., Sherman, N., 1992. In:
Microbiology: A Laboratory Manual, New York, pp. 125–179.
Carlot, M., Giacomini, A., Casella, S., 2002.
Aspects of plant-microbe interactions in heavy metal polluted soil.
Acta Biotechnol. 22, 13-20.
Cattelan, A.J., Hartel, P.G., Fuhrmann, J.J., 1999.
Screening of plant growth promoting rhizobacteria to promote
early soybean growth. Soil Sci. Soc. Am. J. 63,
1670–1680.
Cervantes, C., Gutierrez-Corana, F., 1994. Copper resistance
mechanism in bacteria and fungi. FEMS Microbiol.
Rev. 14, 121-137.
Cervantes, C., Chavez, J., Cardova, N.A., De Na Mora
P., Velasco, J.A., 1986. Resistance to Metal by
Pseudomonas aerugenosa Clinical Isolates.
Microbiol. 48,159- 163.
Chanway, C.P., Holl, F.B., 1993. First year yield
performance of spruce seedlings inoculated with plant growth
promoting rhizobacteria. Can. J. Microbiol. 39,
1084–1088.
De Freitas, J.R., Banerjee, M.R., Germida, J.J.,
1997. Phosphate solubilizing rhizobacteria enhance the growth and
yield but not phosphorus uptake of canola (Brassica
napus L.). Biol. Fertil. Soil 24, 358–364.
De Leij, F. A. A. M., Suttom, E. M., Whipps, J. M.,
Linch, J. M., 1994. Effect of genetically modified
Pseudomonas aureofaciens on indigenous microbial
population of wheat. FEMS Microbiol.
Ecol. 13, 249-
258. De Leij, F. A. A. M., Suttom, E. M., Whipps, J.
M., Linch, J. M., 1995. Impact of field release of genetically
modified Pseudomonas fluorescens on indigenous
microbial populations of wheat. Appl. Environ. Microbiol.
61, 3442-3453.
Flaishman, M.A., Eyal, Z.A., Zilberstein, A.,
Voisard, C., Hass, D., 1996. Suppression of Septoria tritci blotch and
leaf rust of wheat by recombinant cyanide producing
strains of Pseudomonas putida. Mol.
Plant Microbe
Interact. 9, 642–645.
Fuhrmann, J. J., Wollum, A.G., 1989. Nodulation
competition among Bradyrhizobium
japonicum strains as
influenced by rhizosphere bacteria and iron
availability. Biol. Fertil. Soil. 7, 108–112.
Gaur, A.C., 1990. Physiological functions of
phosphate solubilizing micro-organisms. In: Gaur, A.C. (Ed.),
Phosphate Solubilizing Micro-organisms as
Biofertilizers. Omega Scientific Publishers, New Delhi, pp. 16–
72.
Glick, B.R., 1995. The enhancement of plant growth
by free living bacteria. Can. J. Microbiol. 41, 109–114.
Gonzalez-Lopez, J., Salmeron, V., Martinez-Toledo,
M.V., Ballesteros, F., Ramos-Cormenzana, A., 1986.
Production of auxins, Gibberellins and cytokinins
by Azotobacter vinelandii ATCC 12837 in chemically
defined media and dialyzed soil media. Soil Biol.
Biochem. 18, 119–120.
Griffiths, B. S., Ritz, K., Ebblewhite, N., Dobson,
G., 1999. Soil microbial community structure. Effects of
substrate loading rates. Soil Biol. Biochem. 31,
145-153.
Gupta, A., Saxena, A.K., Murali, G., Tilak,
K.V.B.R., 1998. Effect of plant growth promoting rhizobacteria on
competitive ability of introduced Bradyrhizobium sp.
(Vigna) for nodulation. J. Sci. Ind. Res. 57, 720–725.
Hasnain, S., Sabri, A.N., 1996. Growth stimulation of Triticum aestivum seedlings under Cr-stresses
by non
rhizospheric
pseudomonad strains In: Abstracts of the 7
th
international
Simposium on Biological Nitrogen,
Fixation with non-Legumes p. 36.
Hazel, J.R., Williams, E.E., 1990. The role of
alteration in membrane lipid composition in enabling physiological
adaptation of organisms to their physical
environment. Prog. Lipid Res. 29, 167-227.
Hofte, M., Boelens, J., Verstraete, W., 1992.
Survival and root colonization of mutants of plant growth promoting
pseudomonads affected in siderophore biosynthesis or
regulation of siderophore production. J. Plant Nutr. 15,
2253-2262.
Jackman, S.C., Lee, H., Trevors, J.T., 1992.
Survival, detection and containmant of bacteria. Microb. Releases 1,
125-154.
Jagnow, G., 1987. Inoculation of cereal crops and forage grasses with nitrogen fixing
rhizosphere bacteria:
Possible causes of success and failure with regard
to yield response – A review. Z. Pflanzenernnaehr.
Bodenkd. 150, 361–368.
King, E.O., Ward M.K. Randey, D.E., 1954. Two simple
media for the demonstration of pyocyanin and
fluorescein. J. Lab. and Clin. Med. 44, 301-307
Kloepper, J.W.,
Schrot, M., 1978. Plant growth-promoting rhizobacteria on radishes.
Proc. Int. Conf. Plant
Pathog. Bact. 2, 879-882.
Kloepper, J.W., Lifshitz, R., Zablotowicz,
R.M., 1989. Free-living bacterial
inocula for enhancing crop
productivity. Trends Biotechnol. 7, 39–43.
Loper, J.E., Henkels, M.D., 1997. Availability of
iron to Pseudomonas fluorescence in rhizosphere and bulk soil
evaluated with an ice nucleation reporter gene.
Appl. Environ. Microbiol. 63, 99-105.
Lorck, H., 1948. Production of hydrocyanic acid by
bacteria. Plant Physiol. 1, 142 -146.
Nieto, K.F., Frankenberger, W.T., 1989. Biosynthesis
of cytokinins produced by Azotobacter chroococcum. Soil
Biol. Biochem. 21, 967–972.
Norris, J.R. Chapman, H.M., 1968. Classification of
Azotobacter. In: Identification methods for microbiologists
Gibbs B.M. and Shapton D.A. (Eds.) Academic press
London and New York. pp 19-27
Ohsumi, Y., Katsuhiko, K., Yasuhiro, A., 1988.
Changes induced in the permeability barrier of the yeast plasma
membrane by cupric ion. J. Bacteriol. 170,
2676-2682.
Okon, Y., Labandera-Gonzalez, C.A., 1994. Agronomic
applications of Azospirillum. In: Ryder, M.H., Stephens,
P.M., BOWen, G.D. (Eds.), Improving Plant
Productivity with Rhizosphere Bacteria. Commonwealth
Scientific and Industrial Research Organization, Adelaide,
Australia, pp. 274–278.
Rother, J.A., Millbank J.W., Thronton, I., 1983.
Nitrogen fixation by white clover (Trifolium repens) in grasslands
contaminated with cadmium, lead and zinc. J. Appl.
Bacteriol. 30, 362-376.
Scher, F.M., Baker, R., 1982. Effect of Pseudomonas
putida and a synthetic iron chelator on induction of soil
suppressiveness to Fusarium wilt pathogens.
Phytopathol. 72, 1567–1573.
Schwyn, B., Neilands, J.B., 1987. Universal chemical
assay for detection and determination of siderophore Anal.
Biochem. 160, 47-56
Shanahan, P., O’Sullivan, D.J., Simpson, P.,
Glennon, J.D., O’Gara, F., 1992. Isolation of 2,4-
diacetylphlorogucinol from a fluorescent pseudomonad and investigation
of physiological parameters
influencing its production. Appl. Environ.
Microbiol. 58, 353–358.
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