EP0660675A1 - Produit carne a teneur reduite en graisse et procede de fabrication dudit produit - Google Patents

Produit carne a teneur reduite en graisse et procede de fabrication dudit produit

Info

Publication number
EP0660675A1
EP0660675A1 EP92915275A EP92915275A EP0660675A1 EP 0660675 A1 EP0660675 A1 EP 0660675A1 EP 92915275 A EP92915275 A EP 92915275A EP 92915275 A EP92915275 A EP 92915275A EP 0660675 A1 EP0660675 A1 EP 0660675A1
Authority
EP
European Patent Office
Prior art keywords
meat
beef
glucan
amylodextrin
product
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Withdrawn
Application number
EP92915275A
Other languages
German (de)
English (en)
Other versions
EP0660675A4 (fr
Inventor
Charles M. Harper
Michael J. Swanson
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Monfort Inc
Original Assignee
Monfort Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Monfort Inc filed Critical Monfort Inc
Publication of EP0660675A4 publication Critical patent/EP0660675A4/fr
Publication of EP0660675A1 publication Critical patent/EP0660675A1/fr
Withdrawn legal-status Critical Current

Links

Classifications

    • AHUMAN NECESSITIES
    • A23FOODS OR FOODSTUFFS; TREATMENT THEREOF, NOT COVERED BY OTHER CLASSES
    • A23LFOODS, FOODSTUFFS, OR NON-ALCOHOLIC BEVERAGES, NOT COVERED BY SUBCLASSES A21D OR A23B-A23J; THEIR PREPARATION OR TREATMENT, e.g. COOKING, MODIFICATION OF NUTRITIVE QUALITIES, PHYSICAL TREATMENT; PRESERVATION OF FOODS OR FOODSTUFFS, IN GENERAL
    • A23L13/00Meat products; Meat meal; Preparation or treatment thereof
    • A23L13/40Meat products; Meat meal; Preparation or treatment thereof containing additives
    • A23L13/42Additives other than enzymes or microorganisms in meat products or meat meals
    • A23L13/426Addition of proteins, carbohydrates or fibrous material from vegetable origin other than sugars or sugar alcohols

Definitions

  • This invention relates to a novel reduced fat meat product that plumps on cooking and which has improved texture and juiciness.
  • the reduced fat meat product of the present invention incorporates oat beta- glucan amylodextrin.
  • a reduced fat meat product comprising from about 0.5-10 wt% oat beta-glucan amylodextrin.
  • the meat product constitutes about 80-99 wt% meat wherein the meat has less than 12 wt% fat, about 0.5-5 wt% oat beta-glucan amylodextrin and about 0.5-15 wt% meat adjuncts.
  • the reduced fat meat product of this invention comprises about 80-95 wt% meat, about 2-3 wt% oat beta-glucan amylodextrin and 0.5-10 wt% meat adjuncts.
  • a method of processing a reduced fat meat product wherein a quantity of meat is mixed with about 0.5-10 wt% oat beta-glucan amylodextrin.
  • the reduced fat meat product is made by mixing about 80-99 wt% meat having less than about 12 wt% fat, 0.5-5 wt% oat beta-glucan amylodextrin and about 0.5-15 wt% meat adjuncts.
  • about 80-95 wt% meat having less than about 12 wt% fat, about 2-3 wt% oat beta-glucan amylodextrin and about 0.5-10 wt% meat adjuncts are mixed to make the reduced fat meat product of this invention.
  • the oat beta- glucan amylodextrin and meat adjuncts are first dry mixed and hydrated with water prior to mixing with the meat.
  • meat refers to any animal protein source, such as beef, poultry, lamb, pork, veal, as well as processed meats such as hot dogs and sausages.
  • FIG. 1 is a flow diagram of a presently preferred process for making oat beta-glucan amylodextrin used in the process of FIG. 2.
  • FIG. 2 is a flow diagram of a presently preferred process for making the preferred embodiments of the meat product of this invention.
  • the reduced fat meat products of this invention comprising 0.5-10 wt% oat beta-glucan amylodextrin plump on cooking, and that these meat products further have improved texture and juiciness.
  • oat beta-glucan amylodextrin encapsulates available water in the meat.
  • the oat beta-glucan amylodextrin expands to accommodate the greater volume occupied by the water vapor entrapped therein. This apparently causes the meat product to plump on cooking.
  • the entrapped moisture enhances the texture and juiciness of the low fat meat product.
  • animal protein sources are contemplated for use in the reduced fat meat product of the present invention.
  • Animal protein sources include but are not necessarily limited to beef, poultry, lamb, pork, veal, as well as processed meats such as hot dogs and sausages.
  • the meats are selected from the group consisting of beef, poultry, lamb, pork, veal and mixtures thereof. Even more preferred meats are selected from the group consisting of turkey, chicken and beef.
  • the most preferred meat is beef.
  • the meat will contain less than about 12 wt% fat. More preferably, the meat will contain less than about 9 wt% fat. Most preferably, the meat will comprise less than about 5 wt% fat.
  • a reduced fat meat product comprising from about 0.5- 10 wt% oat beta-glucan amylodextrin.
  • oat beta-glucan amylodextrin comprises about 0.5-5 wt% of the reduced fat meat product, and even more preferably about 2-3 wt%.
  • Oat beta-glucan amylodextrin is a combination of maltodextrin and beta-glucan derived from the enzymatic treatment of oats.
  • Oat beta-glucan amylo ⁇ dextrin may be prepared according to the method dis ⁇ closed in U.S. Patent No. 4,996,063, incorporated herein by reference.
  • Oat beta-glucan amylodextrin is known under the tradename OATRIM, and can vary in its beta-glucan content depending on the starting material. The beta-glucan content is identified by a number suffix. For example, OATRIM-5 contains about 4.5% - 5.5% by dry weight beta-glucan and is made from whole oat flour.
  • OATRIM-10 contains about 9.5% - 10.5% by dry weight beta-glucan and is prepared from oat bran.
  • OATRIM-1 contains about 0.5% - 1.5% by dry weight beta- glucan and is prepared from debranned oats.
  • oat beta-glucan amylodextrin having about 4.5% - 5.5% by dry weight beta-glucan (OATRIM-5J is incorporated in the reduced fat meat product of the present invention.
  • the oat beta-glucan amylodextrin is preferably prepared according to the following process.
  • the first step in the illustrated process is to introduce 1,750 lbs. water, 339 grams calcium chloride (50 p.p.m.) and 250 lbs. whole oat flour (12.5% solids level) into a liquifier 12.
  • a suitable whole oat flour is available from ConAgra Oat Mill, South Sioux City, NE.
  • the pH of the mixture in the liquifier 12 should be within the range of 5.9 to 6.3. If necessary, the pH may be adjusted by the addition of sodium hydroxide or hydrogen chloride.
  • the mixture in the liquifier 12 is intensely mixed for about ten minutes while simultaneously raising the temperature of the mixture to about 85°C.
  • 272 ml of a thermo-stable alpha-amylase enzyme which is available from Solvay Enzymes, Inc., Elkhart IN under the name TAKA-THERM L-340, is then added to the liquifier 12 and allowed to react with the mixture therein for about two minutes.
  • the alpha-amylase is then deactivated by the addition of hydrogen chloride (5N) to the liquifier 12 to lower the pH to 4.5, and raising the temperature of the mixture in the liquifier 12 to 95°C.
  • the mixture in the liquifier 12 is then transferred via pump 14 to a holding tank 16.
  • the holding tank 16 is provided with agitation, and the mixture is mixed well for about 10 minutes.
  • the mixture in the holding tank 16 is then transferred via pump 18 through a triple tube cooler 20 where the mixture is quickly cooled to 40°C.
  • the mixture is then transferred via pump 22 to a balance tank 24.
  • the balance tank 24 is provided with agitation. The mixture remains in the balance tank 24 only for a time sufficient for the entire mixture to be transferred to the balance tank 24.
  • the mixture in balance tank 24 is then immediately transferred via pump 26 to a centrifuge 28.
  • the mixture is centrifuged and the solid phase of the mixture is discharged by gravity to a collector 30 and can be later sold as animal feed.
  • the soluble stream from the centrifuge 28 is transferred by pump 32 to a balance tank 34.
  • the balance tank 34 is provided with agitation.
  • the soluble stream remains in the balance tank 34 only for a time sufficient for the entire soluble stream to be transferred to the balance tank 34.
  • the soluble stream is then immediately transferred by pump 36 to a spray dryer 38 for drying.
  • the resulting powder is then transferred by gravity from the spray dryer 38 to a 50 lb. bag 40 for shipment.
  • the reduced fat meat products of this invention preferably contain meat adjuncts.
  • Meat adjuncts are used to further enhance the organoleptic character of the reduced fat meat products of the present invention.
  • Meat adjuncts include but are not necessarily limited to flavorings, spices, dietary fibers, binders, gums, flours and salts.
  • the meat adjuncts will comprise about 0.5-15 wt% of the reduced fat meat product of this invention. Even more preferably, the meat adjuncts will comprise about 0.5-10 wt% of the reduced fat meat product of this invention.
  • Flavorings may comprise about 0.1-2 wt% of the reduced fat meat product, and include but are not necessarily limited to beef stock, hydrolyzed vegetable proteins, autolyzed yeast, sodium lactate, beef plasma and the like.
  • Spices may comprise about 0.1-4 wt% of the reduced fat meat product, and include but are not necessarily limited to dill, salt, peppers (black, red, green, pink, and the like) , onion powder, garlic powder, dextrose and the like.
  • Dietary fibers may comprise about 0.1-2 wt% of the reduced fat meat product, and include but are not necessary limited to oat fiber, soy fiber, wheat fiber and pea fiber.
  • Binders may comprise about 0.1-4 wt% of the reduced fat meat product, and include but are not necessarily limited to corn starch, potato starch, rice starch, tapioca starch, maltodextrin and the like. Preferred binders are corn starch, potato starch and maltodextrin. Gums may comprise about 0.1-1.0 wt% of the reduced fat meat product, and include but are not necessarily limited to carrageenan, guar gum, xanthan gum and locust bean gum. Flours may comprise about 0.5-5 wt% of the reduced fat meat product, and include but are not necessarily limited to oat flour, wheat flour, rice flour and tapioca flour.
  • Salt may comprise about 0.1-2 wt% of the reduced fat meat product, and include but are not necessarily limited to table salt (sodium chloride) , sodium citrate and potassium chloride.
  • the salt may be flake, ingredient or encapsulated with hydrogenated vegetable oil. Where the total amount of dietary fiber and binder in the reduced fat meat product of this invention is below about 5 wt%, flake or ingredient salt is preferred. Conversely, where the reduced fat meat product contains about 5 wt% or more of dietary fiber and binder, encapsulated salt is presently preferred.
  • the meat adjuncts used in the reduced fat meat product of this invention are beef stock and table salt.
  • the oat beta-glucan amylodextrin may be mixed with the meat in either dry or hydrated form. However, the oat beta-glucan amylodextrin is preferably first hydrated prior to mixing with the meat. Specifically, the oat beta-glucan amylodextrin is first dry mixed with the optional meat adjuncts, and then this mixture is hydrated to form a non-meat slurry. This non-meat slurry is then mixed with the meat to yield the reduced fat meat products of the present invention.
  • the hydration of the oat beta-glucan amylodextrin enhances its ability to encapsulate water, thereby imparting greater plumping and improved texture and juiciness to the reduced fat meat product on cooking.
  • the first step in the illustrated preferred process is to introduce the meat into a grinder 12, and grind the meat once through a 5/8 inch plate.
  • the resulting coarse ground meat is then augured into a ribbon blender 14 until the blender scale indicates that the desired quantity of meat has been introduced.
  • quality assurance personnel transfer a twenty pound sample of the meat from the ribbon blender 14 to a grinder 16, and fine grind the sample once through a 3/32 inch plate.
  • the finely ground meat is tested with a fat analyzer 17 for compliance with batch fat specifications. The batch is adjusted where necessary to meet specifications.
  • the aqueous non-meat slurry is prepared for addition to the meat.
  • the first step is to introduce oat beta-glucan amylodextrin and any optional meat adjuncts into a blender 18.
  • the oat beta-glucan amylodextrin and optional meat adjuncts are mixed for about 1-4 minutes until homogenous.
  • a preweighed amount of water is then slowly added to the blender 18, and the resulting non- meat mixture is thoroughly mixed to yield an aqueous non-meat slurry.
  • Preferably about 2-6 parts by weight water to 1 part by dry weight of the non-meat mix are added to the blender 18.
  • aqueous non-meat slurry is then transferred to the blender 14.
  • the blender 14 is turned on and the meat and aqueous non- meat slurry are mixed for about 2-5 minutes in each direction to thoroughly disperse the non-meat slurry in the meat.
  • a carbon dioxide injector 22 is utilized to inject carbon dioxide via an injection apparatus 23 into the meat mix in the blender 14 to maintain the meat temperature between about 28°F and 30°F.
  • the meat mix from the blender 14 is then augured to a grinder 24.
  • the mix in the grinder 24 is then subjected to a final grind through a 1/8 inch plate.
  • the meat mix from the grinder 24 is augured through a ground meat pump 25 to a chub packaging machine 26.
  • the meat mix in the chub packaging machine 26 is lined with plastic chub film and then transferred via a motorized conveyor to a chub chiller 38 where the temperature of the meat chub is reduced to about 24- 25°F. From the chub chiller 38, the meat chubs are hand-packed for retail 40 or institutional 42 use.
  • the meat mix from the grinder 24 is augured to the holding tub 28.
  • the mix from the tub 28 is then transferred by an elevator to a patty stamper 30.
  • the meat patties are then transferred through a freezer 32 where the patty temperature is reduced to 0°F internal temperature.
  • the meat patties are then packaged for retail 34 or institutional 36 use.
  • the reduced fat meat products of the present invention can be cooked according to any method as, for example, baking, frying, broiling or grilling. Suitable cooking temperatures range from about 275- 475°F. Preferred cooking temperatures are in the range from about 300-375°F; the most preferred cooking temperature being in the range from about 325-350°F.
  • the reduced fat meat products of this invention may be prepared from rare doneness (internal meat temperature of about 140°F) to well doneness (internal meat temperature of about 160°F) . However, best results (i.e. plumpness, texture and juiciness) are realized when the reduced fat meat product of this invention is cooked to medium-rare (internal meat temperature of about 145°F) or medium doneness (internal meat temperature of about 150°F) .
  • Longmont Foods, Inc. Longmont, CO (about 10 wt% fat) z Containing 70 wt% water; 20 wt% oat beta- glucan amylodextrin; 6.5 wt% spray dried beef stock; and 3.5 wt% table salt.
  • the meat batches having the indicated formulations were prepared according to a method similar to that previously described, the primary difference being that the meat patties used in these examples were prepared on a smaller scale.
  • the control batches were prepared by grinding the meat in a Butcher Boy 3/4 horsepower grinder through a 3/32 inch plate. None was added to the control meat batches.
  • the meat products of this invention were prepared by first dry mixing by hand the oat beta-glucan amylodextrin, spray dried beef stock and table salt. The water was then slowly added to this dry mixture to make an aqueous non-meat slurry.
  • the resulting aqueous non- meat slurry was then uniformly dispersed in the meat by hand, the meat having been previously ground in a Butcher Boy 3/4 horsepower grinder through a 3/32 inch plate.
  • Four ounce patties were then prepared by hand from the meat batches. The patties were about 18 mm in height and about 95 mm in diameter. These meat patties were cooked to various degrees of doneness and according to various methods. The amount by which these meat patties plumped on cooking was measured as the increase in height in the center of the patty. These meat patties were compared to controls for plumpness.
  • Table 3 relates to a measure of the plumpness of turkey and pork products of the present invention. Specifically, turkey patties and pork patties of this invention were compared to control turkey and pork patties. The patties were pan-fried to medium doneness (about 150°F internal meat temperature) , and measured for their plumpness. Table 3 shows that turkey and pork patties increased in height by an amount more than twice that of the controls on cooking. - 13 -
  • Table 4 relates to a measure of the plumpness on cooking of a beef product of the present invention.
  • Beef patties of the present invention were compared to control beef patties.
  • the patties were pan-fried to medium doneness, and measured for their plumpness.
  • Table 4 shows that the beef patties of the present invention increased in height by an amount almost three times greater than compared with the controls on cooking.
  • Table 5 demonstrates that a beef product of the present invention increased by about one-third more in height if pan-fried fresh than if pan-fried from an initially frozen state.
  • Table 6 shows beef products of the present invention cooked to various degrees of doneness. As demonstrated by Table 6, beef patties pan-fried to medium rare and medium doneness increased in height on cooking about twice as much as beef patties cooked to rare or well doneness.
  • Table 7 shows beef products of the present invention grilled and pan-fried to medium doneness. As demonstrated by Table 7, pan-fried beef patties experienced a greater increase in height on cooking than did grilled beef patties.
  • Table 8 shows beef products of the present invention pan-fried to medium doneness. As demonstrated by Table 8, the beef patties retain substantially all of their plumpness on standing for ten minutes.
  • Table 9 demonstrates that a beef product of the present invention retains 2.82% more moisture on cooking than a control beef patty. This increased moisture retention results in a beef product which has better texture and improved juiciness.
  • Beef, turkey and pork products of this invention were prepared and evaluated for overall taste as compared to control products.
  • the control beef and pork products were made by first grinding the meat in a Hobart Grinder through a 1/2" plate, and then through a 1/8" plate.
  • the turkey was obtained already ground from Longmont Foods, Longmont, CO.
  • the ground beef, pork and turkey were made into 4 oz. patties, 4" in diameter and 1/2" thick using a Hollymatic Model No. 54 patty machine. During the aforesaid process, the meat was maintained at 30°F.
  • the patties were then blast frozen to -10°F using a mechanical blast freezer and kept for about ten days until cooking for sensory evaluation.
  • a non-meat slurry comprising 70% water, 20 wt% oat beta-glucan amylodextrin, 6.5 wt% spray dried beef stock and 3.5 wt% table salt was prepared by first dry mixing the oat beta-glucan amylodextrin, spray dried beef stock and table salt. This mixture was then hydrated with the water in a stainless steel bowl using a wire whip to slurry the ingredients.
  • the beef and pork patties of this invention were prepared by grinding the meat in a Hobart Grinder through a 1/2" plate. Again, the turkey was obtained from Longmont Foods already ground. 90 parts of the ground beef, pork and turkey were separately placed in a Keebler vacuum mixer and mixed with 10 parts of the non-meat slurry.
  • a vacuum was applied at 26 inches and the mixture was allowed to mix for 3 minutes.
  • the vacuum was removed and the temperature of the mix was reduced to 28-30°F for beef and pork and 26-28°F for turkey by the addition of C0 2 pellets and further mixing for 2-4 minutes.
  • the mixture was then transferred to a Hobart Grinder and ground through an 1/8 inch plate. The meat was then stamped into patties and frozen as described with respect to the controls.
  • the reduced fat turkey and beef products of the present invention manifested overall organoleptic acceptability superior to control patties.
  • the pork products of the present invention exhibited overall organoleptic acceptability about the same as the control patties.
  • Blender R.M.F. Ribbon Blender MEPAC 170 Model No. MB8000 16 Grinder HOBART grinder, 3/32 inch plate 17 Fat Analyzer KARTRIDGE PAK Corp.
  • Seventy-six Subjects randomly selected from consumers of hamburger/meat patties, sausage pattie . or chicken/turkey bread patties. The patties were heated in an electric skillet over medium heat for 14-16 minutes, flipping once. Turkey patties cooked to an internal temperature of 170°F, beef patties cooked to an internal temperature of 160°F and pork patties cooked to an internal temperature of 180°F. The meat patties were served on six-inch white styrofoam plates on a white service tray.
  • One minute between samples with a five minute break between types of products i.e. beef, pork, and turkey.
  • Distilled water was used as the rinse water and an unsalted cracker as the mouth cleanser.
  • Lighting consisted of a 40 watt, 115-125 volt GE Lumiline bulb with a soft white diffuser in each booth.

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  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Molecular Biology (AREA)
  • Nutrition Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Engineering & Computer Science (AREA)
  • Food Science & Technology (AREA)
  • Polymers & Plastics (AREA)
  • Meat, Egg Or Seafood Products (AREA)

Abstract

Produit carné à teneur réduite en graisse comprenant de la viande et environ 0,5 à 10 % en poids d'amylodextrine de bêta-glucane d'avoine et procédé de fabrication dudit produit. La viande provient de n'importe quelle source de protéines animales et est choisie de préférence dans le groupe composé du b÷uf, du poulet, du porc, du veau, de l'agneau, de la dinde et de mélanges desdites viandes.
EP92915275A 1991-07-05 1992-07-02 Produit carne a teneur reduite en graisse et procede de fabrication dudit produit Withdrawn EP0660675A1 (fr)

Applications Claiming Priority (3)

Application Number Priority Date Filing Date Title
US725062 1985-04-19
US72506291A 1991-07-05 1991-07-05
PCT/US1992/005613 WO1993000829A1 (fr) 1991-07-05 1992-07-02 Produit carne a teneur reduite en graisse et procede de fabrication dudit produit

Publications (2)

Publication Number Publication Date
EP0660675A4 EP0660675A4 (fr) 1994-04-25
EP0660675A1 true EP0660675A1 (fr) 1995-07-05

Family

ID=24913009

Family Applications (1)

Application Number Title Priority Date Filing Date
EP92915275A Withdrawn EP0660675A1 (fr) 1991-07-05 1992-07-02 Produit carne a teneur reduite en graisse et procede de fabrication dudit produit

Country Status (5)

Country Link
EP (1) EP0660675A1 (fr)
JP (1) JPH06508758A (fr)
CA (1) CA2112801A1 (fr)
MX (1) MX9203976A (fr)
WO (1) WO1993000829A1 (fr)

Families Citing this family (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08507920A (ja) * 1993-03-25 1996-08-27 ユニリーバー・ナームローゼ・ベンノートシャープ 脂肪の低減された積層されたドウ
JPH06303943A (ja) * 1993-04-05 1994-11-01 Rhone Poulenc Special Chem Co 減じられた脂肪微粉砕食肉組成物
AU2260697A (en) * 1996-02-06 1997-08-28 Rhodia Inc. Meat taste and texture modifier composition
US7417072B2 (en) 2005-05-12 2008-08-26 Wisconsin Alumni Research Foundation Blockade of Pin1 prevents cytokine production by activated immune cells
US9574002B2 (en) 2011-06-06 2017-02-21 Amgen Inc. Human antigen binding proteins that bind to a complex comprising β-Klotho and an FGF receptor

Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1992010106A1 (fr) * 1990-12-05 1992-06-25 Inglett George E Compositions dietetiques solubles a base de fibres et procede de preparation
EP0577294A2 (fr) * 1992-06-19 1994-01-05 Rhone-Poulenc Inc. Compositions de fibres diététiques et leur utilisation pour des aliments

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
SE8005667L (sv) * 1980-08-12 1982-02-13 Plavia Maskin Ab Kottersettningsprodukt, forfarande for framstellning av kottersettningsprodukt, och kottprodukter innehallande sadan kottersettningsprodukt

Patent Citations (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO1992010106A1 (fr) * 1990-12-05 1992-06-25 Inglett George E Compositions dietetiques solubles a base de fibres et procede de preparation
EP0577294A2 (fr) * 1992-06-19 1994-01-05 Rhone-Poulenc Inc. Compositions de fibres diététiques et leur utilisation pour des aliments

Non-Patent Citations (1)

* Cited by examiner, † Cited by third party
Title
See also references of WO9300829A1 *

Also Published As

Publication number Publication date
CA2112801A1 (fr) 1993-01-21
EP0660675A4 (fr) 1994-04-25
WO1993000829A1 (fr) 1993-01-21
MX9203976A (es) 1993-05-01
JPH06508758A (ja) 1994-10-06

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