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Features Include |
| Protease 800: |
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allows for the digestion of protein at a full range of pH conditions, as exists in the entire digestive tract.*
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| Protease 3.0: |
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is characterized by its ability to hydrolyze proteins under acidic conditions. The broad specificity of acid-stable
protease enables the enzyme to easily and efficiently hydrolyze most soluble proteins. Protease 3.0 is uniquely
suited to work synergistically with endogenous pepsin to enhance protein digestion in the stomach.*
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| Protease 6.0: |
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is a mixture of acid, neutral and alkaline proteases that demonstrates both exo-peptidase and endo-peptidase
activity with high substrate specificity. Protease 6.0 works synergistically with endogenous enzymes to provide
protein digestion through all portions of the digestive tract.*
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| Lipase: |
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specifically digests fats (triglycerides) into free fatty acids and glycerol, enabling absorption of fat-soluble
nutrients through the intestinal mucosa.*
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| Amylase: |
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hydrolyzes the bonds of complex starches, and reduces viscosity of gelatinous starch, amylase, and amylopectin
solutions to yield soluble dextrins. Its saccharifying action liberates glucose and maltose.*
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| Cellulase: |
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is a complex composed of three distinct enzymes which convert cellulose to glucose. Humans lack the endogenous
enzymes required to digest cellulose; the supplementation of cellulase provides humans with an additional
source of nutrition, and reduces the bulking effect of fibrous foods.*
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| Invertase (Sucrase): |
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catalyzes the hydrolysis of sucrose into its component parts D-fructose and D-glucose, assisting with digestion
of refined sugars.*
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| Lactase: |
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is characterized by its ability to hydrolyze lactose over a wide range of temperatures and pH. This enzyme
works synergistically with endogenous human lactase to digest the sugars found in milk and dairy products,
and therefore reduces the symptoms of lactose intolerance.*
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| Alpha Galactosidase: |
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hydrolyzes certain types of sugars called oligosaccharides found in certain vegetables, legumes, and grains.
These sugars, including raffinose, stachyose, and verbascose, are indigestible because humans do not produce
alpha galactosidase.*
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| Glucoamylase: |
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will hydrolyze amylase, isomaltose and dextrins to release free glucose. This enzyme works synergistically
with endogenous human amylase and supplemental amylase to potentiate the complete digestion
of carbohydrat-rich foods.*
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| Hemicellulase: |
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is a mixture of enzymes which can hydrolyze the indigestible components of plant fibers. Humans lack the endogenous enzymes
required to digest plant fibers; the supplementation of hemicellulase provides humans with an additional source of nutrition,
and reduces the bulking effect of fibrous foods.*
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| Phytase: |
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catalyzes the hydrolysis of phytic acid (a plant component known to bind minerals) into its component parts. Humans lack endogenous
phytase; the supplementation of phytase can release important mineral nutrients otherwise lost from the diet.*
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| Nattokinase: |
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potent fibrinolytic enzyme that enhances the body's natural ability to fight blood clots in several different ways; it closely resembles
plasmin and dissolves fibrin directly.*
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Recommendations
Helion Nutraceuticals recommends (for adults): 1 to 9 capusules daily in divided doses.
Maintenance: 1 capsule, 3 times a day with meals.
Therapeutic: 3 capsules, 3 times a day on an empty stomach.
One vegetable capsule contains: |
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| Protease 800 | 32500 HUT |
| Protease 6.0 | 11000 HUT |
| Protease 3.0 | 11 SAPU |
| Lipase | 1650 FIP |
| Amylase | 10500 DU |
| Cellulase | 450 CU |
| Hemicellulase | 110 HCU |
| Invertase | 500 SU |
| Lactase | 900 ALU |
| Glucoamylase | 16.5 AGU |
| Alpha Galactosidase | 65 GaLU |
| Beta-glucanase | 11 BGU |
| Phytase | 6 FTU |
| Nattokinase | 500 FU |
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References
1Gonzalez NJ, Isaacs LL. Evaluation of pancreatic proteolytic enzyme treatment of adenocarcinoma of the pancreas, with nutrition and detoxification support. Nutr Cancer.
1999;33:117-124.
2Beuth J. et al. Impact of complementary oral enzyme application on the postoperative treatment results of breast cancer patients - results of an epidemiological multicentre
retrolective cohort study. Cancer Chemother Pharmacol 2001; 47(Suppl):S45-54.
3Zavadova E, Desser L, Mohr T. Stimulation of reactive oxygen species production and cytotoxicity in human neutrophils in vitro and after oral administration of a polyenzyme
preparation. Cancer Biother 1995; 10(2):147-152.
4Popiela T, Kulig J, Hanisch J, Bock PR. Influence of a complementary treatment with oral enzymes on patients with colorectal cancers--an epidemiological retrolective cohort study.
Cancer Chemother Pharmacol 2001; 47 Suppl:S55-S63.
5Jackson, P. G., et al, Intestinal permeability in patients with eczema and food allergy, Lancet, 1:1285-1286, 1981.
6Mazurov VI, et al. Beneficial effects of concomitant oral enzymes in the treatment of rheumatoid arthritis. Int J Tiss React 1997;19:91.
7Ransberger K: Enzyme treatment of immune complex diseases. Arthritis Rheuma 1986;8:16-9.
8Kleine MW, et al.: The intestinal absorption of orally administered hydrolytic enzymes and their effects in the treatment of acute herpes zoster as compared with those of oral
acyclovir therapy. Phytomedicine 1995;2:7-15.
9Kabil SM, Stauder G: Oral enzyme therapy in hepatitis C patients. Int J Tiss React 1997;19:97-8.
10Majima Y, et al.: The effect of an orally administered proteolytic enzyme on the elasticity and viscosity of nasal mucus. Arch Otorhinolaryngol. 1988;244(6):355-9.
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