DE102023125201A1 - Tubular film bags with stacks of pre-soaked non-woven wipes as ready-to-use disinfectant wipes - Google Patents

Abstract

The subject of the invention are tubular film bags with a removal opening at the top filled with a stack of non-woven cloths, the non-woven cloths being pre-soaked with a disinfectant solution and the quotient of the degree of impregnation of the last 10 non-woven cloths by the degree of impregnation of the first 10 non-woven cloths is less than two.

Description

The invention relates to film tubular bags (flow packs) with a top-mounted removal opening filled with a stack of nonwoven wipes, wherein the nonwoven wipes are pre-soaked with a disinfectant solution and the quotient of the degree of soaking of the last 10 nonwoven wipes by the degree of soaking of the first 10 nonwoven wipes is less than two.

The disinfection of surfaces plays an important role in preventing infections. This applies to areas of food production, animal husbandry and healthcare. In recent years, the need for immediately usable, pre-soaked disinfectant wipes has increased significantly. There are many packaging options. Wipes pre-soaked with disinfectant solution are offered as rolls in cans or stand-up pouches, or as so-called flow packs. The latter consist of a pre-soaked stack of individual wipes that are placed in a flow pack with a removal opening, which is welded at the left and right ends and is equipped with a top-mounted removal unit ( 1 ).

It was shown in Knieler R.: “Quality and testing of ready-to-use disinfectant wipes”, Hygiene & Medicine 2019, 44(4), pages D33-D40 (Knieler 2019 ), that if the packing units are stored with the opening facing upwards, the top cloths are significantly less soaked than the bottom cloths. This is to be expected because gravity causes the soaking liquid to sink downwards. The publication also shows that a higher level of soaking results in an increase in the amount delivered during wiping and that this increasing amount delivered is associated with increasing effectiveness. The degree of impregnation is the weight of the liquid in the cloth divided by the weight of the (dry) cloth in percent. A cloth with a dry weight of 2g soaked in 6g of disinfectant solution has a soaking level of 300%.

The above publication shows that the degree of impregnation of the first 10 wipes and the last 10 wipes of a packing unit can be very different.

However, the property of a high-quality product is that the degree of impregnation of the wipes within a package is as similar as possible, so that the product properties of the wipes within a stack of a packaging unit, such as effectiveness or area performance, are as similar as possible. The difference in the degree of impregnation between the first and last ten wipes increases with the number of wipes in the stack. For example, if there are 50 towels in a stack, the difference is smaller and the quality is therefore more uniform and better; in stacks of 100 towels, for example, the difference is higher and the quality is therefore more uneven and poorer. In the study, the coefficient of the degree of impregnation of the last 10 wipes was divided by the degree of impregnation of the first 10 wipes (the value is identical to the coefficient of the amount of liquid per wipe of the last 10 wipes by the amount of liquid per wipe of the first ten wipes, since the dry weights of the wipes are identical within a stack) at 1.5 to 3.2. The higher this coefficient, the greater the differences and the worse the quality. Values below 2 were only observed for products with 60 or fewer wipes; for 80 or more wipes the value was always above 2. On the other hand, packaging units with 80 or more wipes are economically and ecologically advantageous because here the proportion (cost, waste) of packaging material is reduced is lower in the outer packaging.

In Schweins et. al.: “Factors influencing the area performance of disposable wipes soaked in active ingredients for cleaning and disinfection in the medical sector”, Hygiene & Medicine 2015, 40(4), pages 144-149 , it is shown that as the liquid content of the wipe increases, the area performance of the wipe increases. Both effectiveness and area performance are important quality parameters for these products.

There are different approaches to avoid lowering the liquid in such flow packs. That's how it is DE 102017111233 A1 discloses a holding system that fixes the packaging upright/vertically. This is to prevent the liquid from sinking from the upper cloths into the lower ones. However, this also requires an additional holder, which also limits the flexible use of these products. In this case, the stack of soaked fleece cloths should lie flat so that the plane of the fleece cloths (even when folded) runs horizontally.

In the WO 2019001735 A1 as well as in the EP 3892180 B1 Liquid-tight separator sheets are inserted into the stacks. These intermediate barriers are intended to prevent the soaking liquid from sinking. However, it should be noted here that this complicates the industrial production of the products for the users Separating layers have to be disposed of again and again and this also causes an increase in the amount of waste. In this case, the soaked fleece cloths should lie directly on top of each other.

Task of the invention

The object of the present invention is to provide packaging in the form of a flow pack for a stack of wet wipes, without the pre-soaked wipes in the flow pack from top to bottom due to the flat storage in the flow pack A drop in the degree of impregnation with the aqueous disinfectant solution.

Description of the invention

The subject of the invention are tubular film bags (flow packs) with a removal opening at the top filled with a stack of nonwoven cloths according to claim 1. Preferred embodiments are the subject of the subclaims and/or described below.

The flow pack is a tubular film bag that can be closed in various ways: with transverse seals and, if necessary, also with one or more longitudinal seals. The flow pack preferably has the shape of a pillow. A tab can be designed in the longitudinal direction of the flow pack sides near the longitudinal seal. According to this embodiment, each flow pack then has three weld seams, two transverse and one longitudinal seal. The longitudinal direction is the direction that corresponds to the film unwinding direction during production.

Flow pack has a removal opening on the top, which is preferably resealable. On the opposite side, the floor surface, the longitudinal seal with a tab is preferably attached.

The flow pack encloses the stack in a substantially liquid-tight manner, with the top and bottom surfaces of the flow pack preferably resting on the top and bottom of the stack and the flow pack then forming a cushion shape.

The terms “flow pack” and “tubular film bag” have an identical meaning in the present case and are used interchangeably. The cloth is a fleece or non-woven cloth.

After removing all the non-woven cloths from the tubular film bag, there should be no disinfectant solution left in the tubular film bag, apart from a few drops. The non-woven cloths should preferably essentially hold the disinfectant solution in the flow pack.

In the packaged stacks, the individual towels can be loose or folded on top of each other or folded into one another (e.g. Z-fold (Z-folded) or Z-fold and inter-fold (folded hooked into one another)). The fleece cloths folded in this way also lie directly on top of each other (even if they sometimes hook under one another).

According to the invention, cloth materials are used that are nonwovens (drylaid/wetlaid/spinbonded/meltblown) in grammages between 20 g/m ² to 80 g/m ² .

What was surprising and unforeseeable for the expert was that in flow packs with 80 wipes or more, the coefficient of the degree of impregnation of the last 10 wipes by the degree of impregnation of the first 10 wipes was less than 2 if the cloth material was made of viscose or viscose variants (together on a “viscose basis “) and the disinfectant solution comprises hydrophilic active ingredients, whereby the water content in the disinfectant solution is greater than or equal to 51% by weight.

The disinfectant solution includes hydrophilic active ingredients. These are, for example, carboxylic acids such as lactic acid, acetic acid, salicylic acid, glycolic acid and/or tartaric acid, preferably tartaric acid, lactic acid and/or glycolic acid, or per compounds such as peracetic acid, hydrogen peroxide and/or potassium peroxomonosulfate, preferably peracetic acid and/or hydrogen peroxide, as well as alcohols such as Ethanol, propan-1-ol and propan-2-ol, preferably ethanol. Active ingredients with a hydrophobic component are, for example, quaternary ammonium compounds, such as benzalkonium chloride or didecyldimethylammonium chloride. Active ingredients with a hydrophobic component are preferably not used.

• - den Alkohol und die Carbonsäure und die Perverbindung oder
• - den Alkohol und die Perverbindung oder
• - nur den Alkohol oder
• - den Alkohol und die Perverbindung oder
• - eine Mischung aus zwei unterschiedlichen der obigen Carbonsäure.

In addition to water, the disinfectant solution preferably comprises at least

• - the alcohol and the carboxylic acid and the per compound or
• - alcohol and per-compound or
• - just the alcohol or
• - alcohol and per-compound or
• - a mixture of two different carboxylic acids above.

During pre-soaking, the dry fleece cloths are preferably soaked with the disinfectant solution in such a way that a soaking level of 300% or more, preferably 330% and more, is achieved across all cloths. The quotient is preferably measured after 3 days of storage in the closed flow pack on its base area, which is opposite the removal opening, with the fleece cloths stacked on top of each other and lying flat horizontally. The stack has, for example, a roughly rectangular shape.

The disinfectant solution preferably contains surfactants such as fatty alcohol ethoxylates. Other additives can include dyes, perfumes, phosphorus-based acids, dipicolinic acid, butylhydroxytoluenes (e.g. 2,6-di-tert-butyl-p-cresol) and/or corrosion inhibitors.

• - quartäre Ammoniumverbindungen mit einem Alkylrest von mehr als 8 Kohlenstoffatomen, insbesondere mehr als 10 Kohlenstoffatomen, und/oder
• - Alkylaminoxide mit einem Alkylrest von mehr als 8 Kohlenstoffatomen, insbesondere mehr als 10 Kohlenstoffatomen,

in der Summe zu weniger als 0,08 Gew.% enthält, wobei vorzugsweise

• - keine quartäre Ammoniumverbindungen mit einem Alkylrest von mehr als 10 Kohlenstoffatomen, insbesondere mehr als 8 Kohlenstoffatomen, und
• - keine Alkylaminoxide mit einem Alkylrest von mehr als 10 Kohlenstoffatomen, insbesondere mehr als 8 Kohlenstoffatomen,

in der Desinfektionsmittellösung enthalten sind.The disinfectant solution includes

• - quaternary ammonium compounds with an alkyl radical of more than 8 carbon atoms, in particular more than 10 carbon atoms, and / or
• - Alkylamine oxides with an alkyl radical of more than 8 carbon atoms, in particular more than 10 carbon atoms,

in total contains less than 0.08% by weight, preferably

• - no quaternary ammonium compounds with an alkyl radical of more than 10 carbon atoms, in particular more than 8 carbon atoms, and
• - no alkylamine oxides with an alkyl radical of more than 10 carbon atoms, in particular more than 8 carbon atoms,

contained in the disinfectant solution.

Character description

1 . shows a flow pack (film tubular bag) in pillow form with top-mounted removal opening in plan view (1) with two visible weld seams (2), removal opening (3) and top side (4).

Production of the test products

Two disinfectant solutions were prepared: A solution A, consisting of a 29% by weight aqueous solution of propan-1-ol and 71% by weight of water, and a solution B, consisting of an aqueous solution with 1.5% by weight. -% hydrogen peroxide, 1.5% by weight glycolic acid, 0.05% by weight of a non-ionic C13 alcohol ethoxylate and 96.95% by weight of water.

The following different cloth variants were used: Not according to the invention and for comparison purposes cloth a, PET, basis weight 50 g/m ² . Variants according to the invention were based on viscose variants, ie nonwoven cloths based on viscose: viscose (spun pulp), lyocell fibers (spun pulp, produced using a solvent process), and hydrophobized pulp. Cloth b, lyocell, 50 g/m ² and cloth c, viscose/lyocell hydrophobic (70:30), 45 g/m ² were used. The cloth size for all variants was 20 x 20 mm, folded once and stacked, in stacks of 80 or 100 cloths.

For all samples, the dry cloth stacks were weighed, placed in flow pack packaging made of PET/PE film, 112 µm thick, that was still open on one side, soaked with 3.3 times the amount (in g) of disinfectant solution and the flow pack sealed on the still open side. Table 1, sample Pattern Solution Cloth Number of cloths Weight of cloths [g] Drinking amount [g] Weight cloth Ø [g] 1 A a 80 161.3 532.3 2.02 2 A a 100 200.8 662.6 2.01 3 A b 80 158.9 524.4 1.99 4 A b 100 207.6 685.1 2.08 5 A c 100 190.2 627.7 1.90 6 b a 80 160.8 530.6 2.01 7 b a 100 200.9 663.0 2.01 8th b b 80 167.1 551.4 2.09 9 b b 100 206.2 680.5 2.06 10 b c 100 186.2 614.5 1.86 Patterns 1, 2, 6, 7 not according to the invention

The samples were turned several times over two days to ensure that the liquid was distributed as evenly as possible. Before the start of the experiment, the samples were stored with the opening side up for at least three days. The test results are summarized in Table 1.

Carrying out the investigations

The packaging unit was opened, 5 wipes each were removed and weighed until the packaging unit was empty. The cloths No. 3, in the case of stacks of 80 also the cloths No. 40 and No. 77, in the case of stacks of 100 the cloths No. 50 and No. 97 were weighed individually.

These individual cloths were used to wipe melamine-coated surfaces until a continuous film of liquid was no longer possible. The cloths were turned over with the aim of applying as much liquid as possible to the surface. Immediately afterwards the cloths were weighed. Table 2, measurement results samples 1-5, weight of 5 soaked cloths each, solution A Cloth Sample 1 ⁽¹⁾ Weight [g] Sample 2 ⁽¹⁾ Weight [g] Sample 3 Weight [g] Sample 4 Weight [g] Sample 5 Weight [g] 1-5 32.9 29.7 37.7 37.4 34.0 6-10 35.5 30.6 39.3 38.7 38.0 11-15 35.9 31.8 38.9 39.4 38.3 16-20 36.1 32.0 40.5 40.6 40.4 21-25 34.6 32.2 40.8 40.2 37.6 26-30 35.9 32.7 41.6 39.6 36.8 31-35 37.1 35.7 41.9 41.8 39.5 36-40 39.1 37.1 43.4 43.1 40.4 41-45 42.3 37.2 42.7 39.4 43.9 46-50 45.3 39.1 41.0 42.3 44.6 51-55 44.5 43.3 42.7 44.6 42.3 56-60 46.3 45.5 43.5 45.2 41.5 61-65 47.7 45.4 43.2 45.7 38.3 66-70 51.1 46.1 43.9 46.6 40.2 71-75 55.2 48.4 44.6 48.0 37.1 76-80 64.0 48.7 46.8 49.2 37.6 81-85 50.0 49.6 37.9 86-90 54.9 52.6 40.5 91-95 60.2 50.4 47.5 96-100 70.7 51.6 48.5 In total 683.5 851.3 672.5 886.0 804.9 (1): Comparison sample, not according to the invention

In all samples from Tables 2 and 3, the effect can be seen that the soaking liquid sinks downwards due to gravity. This effect is to be expected with intuitive storage and use. Table 3, measurement results samples 6-10, weight of 5 soaked cloths each, solution B Cloth Sample 6 ⁽¹⁾ Weight [g] Sample 7 ⁽¹⁾ Weight [g] Sample 8 Weight [g] Sample 9 Weight [g] Sample 10 Weight [g] 1-5 27.5 26.8 36.4 33.9 33.5 6-10 29.9 27.3 37.8 34.5 33.3 11-15 31.4 27.5 40.0 37.6 35.5 16-20 31.7 30.6 41.6 37.1 33.8 21-25 36.2 30.6 42.2 35.7 33.5 26-30 35.7 31.9 44.1 36.7 34.6 31-35 35.7 34.6 42.7 39.4 37.8 36-40 40.7 39.2 43.3 39.2 38.0 41-45 46.3 38.7 44.9 44.0 39.8 46-50 44.2 41.1 46.6 44.8 42.3 51-55 45.5 43.8 42.6 45.7 42.6 56-60 50.9 47.4 48.5 45.7 42.9 61-65 55.1 47.6 47.8 47.0 44.2 66-70 54.8 46.2 48.5 47.9 42.6 71-75 56.1 46.3 54.0 48.8 43.2 76-80 64.7 46.3 55.6 48.9 41.8 81-85 48.5 48.4 44.5 86-90 56.8 52.8 43.9 91-95 65.9 54.1 45.1 96-100 68.0 54.7 45.7 In total 686.4 845.1 716.6 876.9 798.6 (1): Comparison sample, not according to the invention

Tables 4 and 5 show that the upper wet wipes were lighter and the lower wet wipes were heavier, i.e. they contained more soaking liquid.

From the result field in Table 5, “Sample 6/weight” and “Cloth 3/after wiping” and the cloth weight from Table 1, it can be easily deduced that the soaking amount (5.8 g - 2.01 g = 3.79 g) was approximately 3.8 g. In the results field of Table 5, “Sample 6/weight” and “Cloth 77/after wiping” and the cloth weight from Table 1, it can be easily deduced that the soaking amount (13.3 g - 2.01 g = 11.29 g ) was approximately 11.3 g. The soaking liquid from the 3rd cloth to the 77th cloth differed by a factor of around 3 (11.3/3.8=2.97).

Schweins et al. 2015 showed that the area performance increases significantly with the amount of soaking liquid. The first wipes in the packaging unit therefore have a significantly shorter range than the last wipes in a packaging unit. The range is an important quality criterion for these pre-soaked disinfectant wipes that can be used immediately. The difference in the range of wipes within a packaging unit should therefore be reduced if possible. Table 4, measurement results samples 1-5, weight of cloths before and after wiping Sample 1 ⁽¹⁾ Weight [g] Sample 2 ⁽¹⁾ Weight [g] Sample 3 Weight [g] Sample 4 Weight [g] Sample 5 Weight [g] Weight cloth 3 6.4 6.1 7.6 7.5 6.9 after wiping 4.5 4.0 4.3 4.2 4.2 Weight cloth 40 after wiping 7.6 4.2 8.4 4.4 Weight cloth 50 8.2 8.3 8.7 after wiping 4.1 4.3 4.4 Weight cloth 77 12.5 9.1 after wiping 4.5 4.5 Weight cloth 97 13.8 10.2 9.6 after wiping 4.5 4.4 4.2 Weight of cloths ∅ after wiping 4.4 4.2 4.4 4.3 4.3 (1): Comparison sample, not according to the invention Table 5, measurement results samples 6-10, weight of cloths before and after wiping Sample 6 ⁽¹⁾ Weight [g] Sample 7 ⁽¹⁾ Weight [g] Sample 8 Weight [g] Sample 9 Weight [g] Sample 10 Weight [g] Weight cloth 3 5.8 5.2 7.3 6.7 6.8 after wiping 4.0 3.8 3.9 3.4 3.6 Weight cloth 40 8.8 8.9 after wiping 4.1 4 Weight cloth 50 8.4 8.9 8.4 after wiping 3.8 3.8 3.7 Weight cloth 77 13.3 11.3 after wiping 4.2 4 Weight cloth 97 13.6 10.8 8.9 after wiping 4.0 3.9 3.7 Weight of cloths ∅ after wiping 4.1 3.9 4.0 3.7 3.7 (1): Comparison sample, not according to the invention

It can also be seen that the weights of the cloths are always very similar after wiping. The residual moisture in the cloths is always approximately the same as the dry cloths' own weight, although the soaking liquid with a higher water content (solution B, samples 6-10) tended to be released slightly better than the soaking liquid with a lower water content (solution A, samples 1-5 ). Table 6, evaluation of patterns 1-5 Cloth Pattern 1 ⁽¹⁾ Soaking degree [%] Pattern 2 ⁽¹⁾ Soaking level [%] Pattern 3 Soaking level [%] Pattern 4 Soaking level [%] Pattern 5 Soaking level [%] 1-10 239% 200% 288% 267% 279% 11-20 257% 218% 300% 285% 314% 21-30 250% 223% 315% 284% 291% 31-40 278% 263% 329% 309% 320% 41-50 334% 280% 321% 294% 365% 51-60 350% 342% 334% 333% 341% 61-70 390% 356% 339% 345% 313% 71-80 491% 384% 360% 368% 293% 81-90 -- 422% -- 392% 312% 91-100 -- 552% -- 391% 405% Soaking level last 10 wipes/first 10 wipes 2.1 2.8 1.3 1.5 1.5 (1): Comparison sample, not according to the invention Table 7, evaluation patterns 6-10 Cloth Pattern 6 ⁽¹⁾ Soaking degree [%] Pattern 7 ⁽¹⁾ Soaking degree [%] Pattern 8 Soaking level [%] Pattern 9 Soaking level [%] Pattern 10 Soaking level [%] 1-10 186% 169% 255% 232% 259% 11-20 214% 189% 291% 262% 272% 21-30 258% 211% 313% 251% 266% 31-40 280% 267% 312% 281% 307% 41-50 350% 297% 338% 331% 341% 51-60 380% 354% 336% 343% 359% 61-70 447% 367% 361% 360% 366% 71-80 501% 361% 425% 374% 356% 81-90 -- 424% -- 391% 375% 91-100 -- 567% -- 428% 388% Soaking level last 10 wipes/first 10 wipes 2.7 3.3 1.7 1.8 1.5 (1): Comparison sample, not according to the invention

It can also be seen that the residual moisture contained in the cloths after wiping does not depend on the cloth materials in the examples. This makes the results from the following evaluations (Tables 6 and 7) all the more surprising and unforeseeable even for the expert.

The evaluations are always based on groups of 10 wipes because this evaluation methodology is so established in the literature (Knieler 2019). In the publication cited, without exception, all product examples with 80 or more wipes show a last 10 wipes/first 10 wipes impregnation ratio of over two. This means that the soaking level of the last wipes is more than twice as high. These results are confirmed by Examples 1, 2, 6 and 7, which are not according to the invention. A last 10 wipes/first 10 wipes impregnation ratio of <2 has so far only been observed in packing units of 60 or fewer wipes. Packaging units with such a lower quotient are to be preferred, as the difference in the degree of impregnation is minimized and ultimately the quality within a pack is more consistent and therefore better. It was not foreseeable that disinfectant solutions consisting of hydrophilic active ingredients and a water content greater than or equal to 51% by weight in combination with viscose-based nonwovens in a flow pack packaging unit with 80 or more stacked wipes would have a quotient soaking level last 10 wipes/first 10 cloths of less than 2.

QUOTES INCLUDED IN THE DESCRIPTION

This list of documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102017111233 A1 [0007]
• WO 2019001735 A1 [0008]
• EP 3892180 B1 [0008]

Non-patent literature cited

• Knieler R.: “Quality and testing of ready-to-use disinfectant wipes”, Hygiene & Medicine 2019, 44(4), pages D33-D40 (Knieler 2019 [0003]
• Schweins et. al.: “Factors influencing the area performance of disposable wipes soaked in active ingredients for cleaning and disinfection in the medical sector”, Hygiene & Medicine 2015, 40(4), pages 144-149 [0006]

Claims (7)

Tubular film bags with a removal opening at the top filled with a stack of non-woven cloths, the non-woven cloths being pre-soaked with a disinfectant solution; the disinfectant solution comprises at least hydrophilic active ingredients and at least 51% by weight of water; the fleece cloths can be removed through the removal opening at the top; the stack comprises at least 80 individual non-woven cloths lying directly one on top of the other, the first non-woven cloths forming the top of the stack and the last non-woven cloths forming the bottom of the stack, the non-woven cloths being viscose-based non-woven cloths, the non-woven cloths having a dry basis weight of 20 g/m ² to 80 g/m ² and the quotient of the degree of impregnation of the last 10 non-woven cloths by the degree of impregnation of the first 10 non-woven cloths is less than two. Tubular film bag Claim 1 , wherein the hydrophilic active ingredient comprises one or more members of the following group: - alcohols with a maximum of three carbon atoms, in particular ethanol and/or propan-1-ol and/or propan-2-ol; - Oxygen releasers, preferably peracetic acid and/or hydrogen peroxide and/or potassium peroxomonosulfate; - Carboxylic acids, preferably lactic acid and/or acetic acid and/or salicylic acid and/or glycolic acid and/or tartaric acid. Tubular film bag according to at least one of the preceding claims, wherein the stack has 80 to 110 of the nonwoven cloths lying directly on top of each other. Tubular film bag according to at least one of the preceding claims, wherein the non-woven cloths are based on viscose, non-woven cloths made from viscose, lyocell fibers, from hydrophobic cellulose or mixtures thereof. Tubular film bag according to at least one of the preceding claims, wherein the disinfectant solution has more than 65% by weight of water, particularly preferably more than 70% by weight of water. Tubular film bag according to at least one of the preceding claims, wherein the disinfectant solution contains - quaternary ammonium compounds with an alkyl radical of more than 8 carbon atoms, in particular more than 10 carbon atoms, and/or - alkylamine oxides with an alkyl radical of more than 8 carbon atoms, in particular more than 10 carbon atoms, in total less than 0.08% by weight, wherein the disinfectant solution preferably contains - no quaternary ammonium compounds with an alkyl radical of more than 10 carbon atoms, in particular more than 8 carbon atoms, and - no alkylamine oxides with an alkyl radical of more than 10 carbon atoms, in particular more than 8 carbon atoms. Tubular film bag according to at least one of the preceding claims, wherein the disinfectant solution comprises one or more members of the following group: one or more anionic and / or non-ionic surfactants, dyes, perfumes, phosphorus-based acids, dipicolinic acid, butylhydroxytoluenes as stabilizers, corrosion inhibitors and solvents.

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