ALEX WILSON and ELLEN COLLINSON
THE SUBJECT OF WORMS AND PARASITES IN HORSES IS A COMPLEX BUSINESS AND WORK IS CARRIED OUT
BOTH IN THE RESEARCH ENVIRONMENT AND ON HORSE PROPERTIES AROUND THE WORLD TO TRY AND
WIN THE FIGHT AGAINST THESE PESTS. THESEPARASITES INHABIT HORSES CAUSING PROBLEMS AS
SEVERE AS CHRONIC COLIC. IT IS HARD TO DISCUSS THE SUBJECT IN ANY DEPTH IN A SINGLE ARTICLE
OR PAPER BUT, BY SEARCHING THE INTERNET AND REFERENCE LIBRARIES, THERE IS MUCH TO
UNDERSTAND. ALEX WILSONAND ELLEN COLLINSON HAVE TRIED TO LOOK AT SOME OF THE LITERATURE
THAT CURRENTLY EXISTS AND OUTLINE USEFUL INFORMATION ABOUT WORMS AND HOW BEST TO
MANAGE HORSES TO AVOID PARASITES BECOMING A MAJOR PROBLEM.
Why do we need to worm horses?
For years, all the books have told us that it is essential to do a worming treatment every 3 months. This is often by panicking horse owners into
fears of what will happen if they don’t: the risk of ill-thrift, dull coats, weight loss and, the worst case scenario, colic.
As is pretty obvious, worms will compete with horses for their food and, in some cases, suck the blood from the horse’s digestive tract, causing
damage that will be permanent and can affect the horse secreting the chemicals necessary for it to digest its food properly. In extreme cases, the
worms can be so large that they can actually block the digestive tract, causing the horse to become seriously ill or even die. This can be seen in
foals or yearlings.
Blanket worming has many drawbacks as it is not an exact science. Many of the household brand wormers work only for one type of worm and
not for others. As we will see later, there are few ways of clearing parasites with a single product. Today we are advised to change our products
each time, but how many people realise that many wormers have the same ingredients and are just being sold under a different name? It is
essential to not only change the brand but to make sure you are changing the drug. Is this the reason we are often told about parasites becoming
immune to current worming products and then breeding more immune parasites?
In the wild, horses are found to have less worms than in a domesticated environment, especially where horses are kept in small
confined paddocks. If paddocks are kept clean, as we will see later, that can help cut down the problem. The domestication of
horses has meant that they are kept in much closer proximity to each other than they would be in the wild and we find that the
worm burdens are much higher.
Types of Worm found to be affecting horses
In a paper written by Don Hudson, Dale Grotelueschen and Duane Rice it is reported that most cases of colic can be put down to
parasites. The larvae of bloodworms, from the Strongyles family, cause massive damage to blood vessels. They also reported that as
much as 50% of all deaths in horses can be related to internal parasites.
To understand equine parasites properly, it is necessary to remember that there are five major internal parasites.
Many horsemen realise that horses get parasites, or worms, but
do not tend to look at the subject in any more depth; they will use the same chemicals to remedy the problem year in year out and
wonder why their horses are still carrying parasites. The five groups include large and small strongyles, ascarids, bots and pinworms.
Most parasitical worms are passed between horses, via the droppings. Horses that graze near areas where there are droppings can
involuntarily pick up infected eggs whilst eating. These eggs, once in the next horse will hatch, grow into adults and then lay eggs and
the process starts all over again ... This is a very simplistic description, but of course there is great variety from species to species.
Strongyles (Bloodworms)
The strongyles, or bloodworms, are the most dangerous of the parasites that infest horses and they are common in horses of all ages,
barring foals. There are 50 different species of these bloodworms which tend to inhabit the large intestine and they are divided into two
groups, large and small strongyles. The three main species of the large species are: Strongylus vulgaris, Strongylus equinus andStronggylus
edenatus. As larvae, they travel to the heart, liver and lungs using the blood vessels as transport, destroying a lot of healthy tissue
and leaving scar tissue in their wake. Horses that are carrying bloodworms will deposit the eggs in their dung most of the time. If a
grazing horse eats these larvae, they can remain dormant in the intestinal lining for long periods of time. Large amounts of larvae
can build up here and eventually they will erupt through the intestinal wall. This can be very damaging to the horse in question. These
larvae eventually develop into adults, who in turn lay new eggs (often thousands at a time) and the cycle is repeated. It is more important
to control these worms in adult horses than in young animals.
The small strongyle can often be more of a problem than their larger cousins as there are around 40 species and in many cases they are
getting more and more immune to conventional chemical wormers. When they get through the gut wall, this is often the
cause of colic. Another factor to be aware of is the effect of a bout of chemical de-worming on these parasites because it can act as a trigger for a large number of larvae to emerge
through the intestinal wall. This can happen very quickly, within seven to ten days, and in extreme cases this can cause the horse
diarrhoea, muscle wasting or weakness and even serious bouts of colic or, worse still, the death of the animal. The large strongyles are
easier to control than the smaller variety.
Chemical de-wormers have little effect in breaking this cycle and many of these small
strongyles are becoming very resistant to certain classes of anthelmintics. Another point to consider is that the adult worms are less
lethal to horses than when they are at the larval stage. With these parasites, the ideal is not to contaminate the environment with
them. Once larvae are infecting land, the only way to control them is effective land management, i.e. removing droppings,
keeping horses off the land and the hope of warm weather. Another important consideration, if it is practical, is to rotate
the animals that use the land. Parasites that effect horses tend not to effect sheep or cattle and vise-versa.
One other effective method is the herbal approach to parasite expulsion that does not cause the same problems that are associated
with chemical worming. This method will be discussed later.
It is a fact that not all horses within a herd will be highly contaminated, indeed it is often
just a few offenders that infect the rest. One way to help deal with this problem is to carry
out faecal egg counts and thus identify the culprits.
Large Roundworms (Parascaris equorum)
Unlike the strongyles, these parasites mainly affect foals and young horses and tend not to
be a problem for older animals. Their eggs can remain dormant in the soil for up to 10 years
before they are swallowed by horses whilst grazing but once in the animal’s intestine they
will start to hatch. Once hatched in the gut system, they move through the walls and into
the veins. Their journey takes them up to the lungs, where they go from the alveoli (or air
sacks) through the bronchioles until they reach the trachea. Once they are at the back
of the throat, the young horse will then swallow them, returning them to the small
intestine where they will grow into adults. These adults can grow as large as 50cm long
before they lay their own eggs which are in turn excreted in the droppings.
Most foals will be exposed to roundworm eggs and any parasite control programme must be
targeting this species when managing immature horses. Good control should look at
both killing the worms as well as to stopping them maturing; thus stopping the egg
production and breaking the cycle. A word of caution though: there have been reports from
the USA and Canada showing that conventional wormers used for this purpose
are starting to encounter major resistance from the worms. This situation is likely to be
the same in the UK and Europe.
Bots (Gasterophilus intestinalis)
The bot fly looks similar to a honey bee and is often seen singly or in groups around
horses. In the summer, horses can be seen rushing around their paddocks trying to avoid
these flies. These are usually females looking to deposit their eggs on the animals’ legs. The
flies tend to be striped and the eggs a yellow colour.
The legs are not the final resting place for these eggs and their mission is to get into the
horse’s mouth. Within five days, the eggs are ready to hatch; and this happens when the
temperature rises due to horses’ faces getting near them as horses use their muzzles to try
and stop the itching. The larvae then enter the horse’s mouth and they burrow into its
tongue. The next stage of the process is when they change colour to red, due to production
of haemoglobin, which is necessary due to the low oxygen levels in the horse’s tongue. From
here, they migrate to the stomach of the horse at which point they become a fully grown
bot. They will remain in the stomach for as long as 12 months where there is sufficient
oxygen for them to survive.
By late spring, these bots will get excreted by the horse in its droppings and the bots
pupate and become adult flies, a process that takes around three weeks, before the cycle
starts again.
The early stages of the larvae’s development
can have an impact on the host’s health, especially relating to their gums and teeth as
well as within their intestines.
Tapeworms (Anoplocephala perfoliata)
The last group of parasitical worms that needs to be discussed is the equine tapeworm, so
called as it resembles a measuring tape and is short and triangular and comparatively
smaller than those found in cats, dogs and humans. The worm is made up of segments
(proglottid) that are like carriages on a railway train. At any point, a segment or segments
can break off without killing the worm. For years it was believed that tapeworms were not
common in horses and that was because the proglottids tend to dissolve in the large
intestine and are rarely seen in the horses’ faeces. It had also been thought that these
tapeworms caused little harm to horses, but it is now known that they are responsible for
certain types of severe colic.
Tapeworms contain both male and female reproductive organs and, as with other parasitical worms, they produce eggs, but
unlike other parasites, they don’t lay those eggs; in fact they hang from the end of the
worm and break off once they mature. These eggs are then excreted into the dung.
Before getting into a horse, tapeworms start with an initial host, which is the oribatid mite
(Acari:Oribatida). These mites live in large numbers on pastures and the tapeworm eggs
tend to be swallowed whilst the mites are feeding on horse dung. Within two to four
months, these eggs hatch within the mites and the horse then swallows the mites whilst
grazing. Six to 10 weeks later, the worms mature within the horse.
The most accurate way to see if horses are infected, but very impractical, is via post
mortem or during surgery. Three surveys conducted in Kentucky (USA), where the
world’s largest horse population live, showed that in 1983, 53% were infected, in 1984 54% were infected and in 1992 64%
were infected.
The effects of tapeworms on horses is still not totally understood, but what we do know is
that tapeworms are thought to contribute to major colic attacks. Other hypotheses are that
these parasites can cause inflammation of the ileocecal valve and they can contribute to
ulcers, plus cause the retention of fluids. These problems can cause the horse to have
bowel problems. One problem with diagnosing tapeworms is that there are few
symptoms that can be easily identified by horse owners.
With tapeworms, the problem is not always to completely cleanse the horse of the
parasite, but to make sure that any infestation is limited, thus stopping the horse from
having a large burden of these worms. Another problem is that most conventional
wormers won’t tackle tapeworms effectively and it may be necessary to use a large dosage
of these drugs, which can be comparatively safe when administered by a vet, but not
necessarily when administered by the owner. Another method, which in most cases is both
inhumane and impractical, is keeping horses off pastures. Whilst this will protect horses
from the oribatid mite, it makes little sense to keep horses boxed all day, nor is it good for
their temperament. A better solution would be to look at herbal alternatives to wormers,
marketed as parasite repellents. Many of these products actually expel the parasites from the
horse and at the same time cleanse the gut of eggs and larvae. The larvae are killed or
paralysed, thus breaking the life cycle of the tapeworm and solving the problem cost
effectively. This methodology of clearing worms and other parasites from horses will be
discussed in more depth later.
The History of Worming
The approach to worming has changed over the years and, at the University of Kentucky,
Gene Lyons PhD, Sharon Tolliver BS and Hal Drudge DVM documented the history of
worming in the scientific journal Veterinary Parasitology. Their paper threw up some
unusual practices.
In the 17th century there was a notion that drawing blood from a horse and getting the
horse to drink its own blood was a very good way to kill worms and to cure other equine
ailments. How a horse was made to drink its own blood was not described. Other historical
ways to resolve worms were equally bizarre and included soap, liquorice, linseed oil, chick
or human faeces, eggs, guts of chicken or pigeons, and, worst of all, mercury. Owners
were advised against using some of these methods with pregnant mares. Feeding horses
tobacco was also practised, but the amount needed to have any effect would more than
likely make a horse quite ill. Also many people experimented with herbs without
proper knowledge of herbal medicine and so rarely getting the required results. However,
today’s leading herbal products are very carefully formulated and trialled to ensure the
best possible results.
In April 1891 the first edition of the book Veterinary Country Practice was printed.
Written by “Qualified and Experienced Members of the Royal College of Veterinary
Surgeons”, it was written expressly for Chemists and Druggists. In this book there
were several recipes for worming, some containing small quantities of Arsenic, also
herbs, including Aloes, Ginger, Liquorice, Valerian and Garlic; also used were Linseed
oil, Turpentine, Gentian and this list goes on. There were 11 different recipes, showing that
even in the 1890s they knew that it was beneficial to change the treatment to combat
resistance. It has to be said it was also to give the less well off a chance to use cheaper
ingredients. The last edition was reprinted in November 1935.
Carbon tetrachloride, best known as a component that is used in dry cleaning, was
one of the first chemicals used for worming. Whilst it was semi-effective, it was as one can
imagine, very toxic to horses.
The 1940s marked the start of a new era of
chemical wormers, but even the early chemicals that were introduced, like
phenothiazine, were very toxic. Phenothiazine was, however, the first product that would
start to attack the strongyles, which until then were a major issue for horses and their
owners. But by the 1960s, both in the UK and the USA there was evidence to show that
these parasites were starting to become resistant to chemical worming, a situation
that was going to make chemical worming a major problem from there on in.
The 1950s saw the introduction of some products that seemed to be effective on a
number of different parasites; mixing a number of chemicals together in smaller
qualities helped combat the toxicity of a large dose of one product. This cocktail had to be
administered by a vet by inserting a tube down the horse’s throat, a manoeuvre which
also carried risks. Organophosphates, which were commonly used in sheep dip, were
popular in the 1970s. They are very toxic chemicals both to horses and to humans who
get in contact with with. Today there are some farmers who used these chemicals in
sheep dips, etc., who are suffering from multiple chemical poisoning; in some cases
they are totally house bound and cannot live normal lives.
It wasn’t until the 1970s when owners were able to worm their horses themselves without
the need to call in the vet to run tubes down a horse’s throat. New products were being
marketed as a paste and the first of these was Benzimadazole. This drug had a much larger
margin for error and could be administered in much smaller quantities than previous de-
worming chemicals. Many drugs from this family of chemicals are still in circulation
today. Also in the 1970s Pyrantel was also offered from an alternative family of
chemicals. This proved to be very popular when parasites started to get resistant to the
benzimadazole products.
In the 1980s Ivermectin was introduced which allegedly kills the larvae of parasites as
well as the adults and this product would prove to be very popular with horse owners,
especially as it could also be administered as a paste. Finally, in the 1990s we saw the
introduction of Moxidectin, marketed on the basis of it being able to kill the pesky small
strongyles in the intestines of the horse.
Parasites’ resistance to chemical wormers
Whilst the drug companies would want you to believe that their’s is the answer to
exterminating parasites in horses, there is a fundamental problem that exists – resistance.
Parasites have had to learn to survive and to adapt to their environments and in doing so
they have managed to find ways to adapt to modern chemicals that are meant to stop their
reproduction. This is called resistance and these worms are now passing this resistance
on to their offspring. There is no single chemical product on the market that stops the
resistant parasites and there is evidence to show that the number of resistant parasites is
on the increase. Historically it has been believed that rotating the products and using
wormers from different chemical families can eliminate most resistant parasites but in a
paper published by Blanek, Brady, Nichols, Hutchinson et al. in which extensive studies
were conducted in the USA using quarter horses, they concluded that resistance in
equine parasites was an ever increasing problem and that more research needed to be
done into rotating wormers.
Another problem that blanket rotation needs to consider is the fact that certain classes of
drugs are aimed at different families of parasites and unless the horse owner is aware
of which parasites their horses carry, they can be using chemicals that can have little or no
effect on their horse or horses.
One solution to this problem is to have
regular egg counts utilising the dung of the horse. This, however can be costly and very
few owners undertake this kind of interest in their horses’ worm problems. The usual
thinking is that by carrying out regular worming on their animals that will be
sufficient. Another approach that should be considered is using a herbal product as an
alternative. There seems little evidence that there are worms that become resistant to the
tried and tested herbal products. More details of herbal worming will be discussed later.
Toxic effects of chemical wormers
The one subject that will never have been discussed by the manufacturers of the main
brands of wormers is the potential side effects of using chemicals. As has been discussed
above, these products are poisonous to worms and unless they are used very carefully, they
can equally be poisons for horses. As the resistance to chemicals grows, so stronger
dosages need to be used and the safety margins become smaller. The following side
effects can be caused by the use of equine wormers: swollen glands, colic, allergies,
laminitis, intestinal problems, skin reactions, drooling, hoof problems, internal problems,
plus dangers to the horse’s immune system. Let’s face it, horses are not designed to be
filled with toxic chemicals!
A good example is toxic hepatitis, which is caused by substances poisonous to the liver.
There are three known sources: chemical poisons, plant poisons and metabolic poisons.
Chemical poisons include arsenic, copper, mercury and phosphorous among others. It
should be noted that tetrachlorethylene and carbon tetrachloride, both used as worming
agents, are potential causes of non-infectious, toxic hepatitis, when improperly used.
In addition, there is the environmental impact of these chemicals. Using these
wormers mean that these chemicals get into the earth through horses’ urine and faeces.
The bigger picture means that other animals, especially wildlife, agricultural animals and
pets will be affected. It has been noted that birds that eat horse droppings from
chemically treated horses die. These chemicals stay in the land for over three years
and can also find their way into streams and rivers, affecting fish, and they can also get
into our drinking water. We have a responsibility to our environment not to
pollute it unnecessarily.
Herbal Worming
The use of herbal remedies or herbal medicines is thought of today as alternative,
but if we examine the evidence, in reality it is the chemical products that should be termed
as alternative. Herbal medicine can be traced much further back than any modern chemical
treatment. In fact, a large number of medicines used today have their basis in
herbal remedies that can be traced from as far as the tribesmen of Africa, the ancient
Egyptians and the Chinese.
The first reports of herbal medicine can be
dated as far back as 2800BC in ancient China. By 400BC the Greeks had also
adopted the use of herbal medicines and by 100BC the first reference book on herbs was
written in Greece. By 50AD, herbal medicine had spread to the Roman Empire and by
500AD herbal medicine first came to Britain and was practised throughout Saxon times. By
800AD, herbs were being grown in monasteries in Britain and monks developed
the usage of these remedies. At the time of the black death herbal remedies were used to try
and contain the spread of the disease. In the 1500s, and during the reign of Henry Tudor,
the first laws were passed to control the practise of herbal medicine to stop them
being supplied by untrained apothecaries. In the 1600s, medicine in Britain was becoming
2 tier, chemical based drugs for the rich and herbs for the poor. During this period and
into the 1700s many conventional drugs were being sold over the counter, but the
realisation of the terrible side effects was starting to become a reality. As we move into
the modern era, there has been a large resurgence of herbal medicine, partially due to
the side effects of chemical products, but also as in many cases natural products are
in harmony with nature, so can be more effective.
There are many products on the market claiming to be herbal Parasite repellents that
will have little if any effect, so it is always worth investigating what research has been
conducted to back up their claims.
There are herbs that are classed as
Anthelmintics: these are herbs which have the capacity to destroy intestinal worms and
parasites. They come in two categories: vermicides and vermifuges. The former are
agents that destroy worms without necessarily causing their expulsion from the bowels and
this category of herbs should be combined with laxative or cathartic herbs which then
cause the expulsion of the destroyed parasites. Vermifuges are agents, usually having
cathartic properties, which expel worms from the bowels.
As well as Anthelmintics there are Taeniafuges and Taeniacides.These are herbs that expel
(taeniafuges) or kill (taeniacides) tapeworms in the intestinal tract.
For a product to have a good combination it must include these herbs and also a separate
cathartic; this helps not only to loosen the bowels and work as a laxative but to clean the
gut walls of the eggs and larvae. Also needed is a good demulcent: demulcent herbs act as a
soothing agent to calm any inflamed or damaged tissue, and also to prevent any ‘side
effects’ that a strong anthelmintic, especially chemical anthelmintics, can cause. And last,
but not least, it would contain a stimulant to prompt the herbs to work as a formulation.
As many anthelmintic herbs are very bitter and cathartics very strong, it is usually a good
practice to add a herb that has both a palatable flavour as well as a pleasant aroma;
this can be the chosen stimulant or demulcent.
Through in vivotrials conducted at the Institute of Organic Research in Switzerland
it has been proven that certain herbs show a significant activity with a 79% reduction in
egg output on day five of feeding it and a 100% cessation of egg hatch. The trials also
show that the anthelmintic activity either killed or paralysed the larvae so they cannot
climb up the grass to be eaten by a new host. This stops the cycle and also prevents the
build up of resistance.
It has also been proven in recent trials conducted in the wild, that herbal parasite
repellents do not cause any damage to wildlife, the water or the environment.
It is however, essential that before buying a herbal parasite repellent, you check that it has
been properly trialled, and that the results prove that it can be used as either a complete
wormer or as part of a worming programme.
Environmental Control of Parasites
Controlling parasites on a property can go
beyond a good worming programme and the following ideas can certainly help control
parasites.
Any new horses arriving, before they are allowed to graze with the other horses, should
be isolated for 48 hours and wormed. It is important to know what worming has been
done at the property the horse is coming from and if any infestation is known to be a
problem there. Even if you are informed that the horse is worm free; do not take that
information as gospel and conduct your own worming. Herbal parasite repellents are often
good for this situation as you can be confident of not overdosing a horse or giving
them a product that might conflict with what they might have been given recently.
During the 48 hour period make sure that all droppings are removed and either have the
dung removed from the property or use it as a garden fertiliser so that it is kept away from
other horses.
A general consideration is to make sure that paddocks are kept as free from droppings as
possible and that will help stop the parasites’ life cycles. Many yards and stud farms use
special paddock vacuum cleaners to remove droppings. Again make sure that dropping are
disposed of and do not get back in direct contact with horses. Faecal egg counts can
also be a very useful tool, and consider the fact that if you have a horse with a large
worm burden it is advisable to isolate it from the rest of the herd.
Conclusion
The subject of equine parasites and their control is very complex and a proper
understanding of the subject, leading to good worming practice, should maintain clean
pastures and healthy horses. It is very easy to fall into the trap of either performing the
same worming time in time out or performing a targeted rotation, but these are
not necessarily the answers unless the horseman is aware of particular worms that
may be affecting their property. The use of herbal parasite repellents should also be
considered for good practice as the way that they work, being very different from the
chemical approach, breaks the life cycle of equine parasites.
Acknowledgements
Natural Healthy Horse Care - RH Kerrigan
B.Sc, MAIAS, MAAC. (Equine Educational)
Parasite Cycle– www.dignosteq.com
Should Horses be Wormed–
www.soloequestrian.com
Equine Internal Parasites – Don Hudson, Dale
Grotelelueschen, Duane Rice
Natural Horse Wormers – www.successful-
natural-horsecare.com
Illustrated Veterinary Encyclopaedia for
Horsemen (Equine Research Inc.)
Bad Bug Basics Karen Biggs DVM, Craig
ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Resistance Worms, do your horses have them?
Karen Biggs DVM, Craig ReinemeyerDVM
PhD, Dennis French DVM, MS, DipL,
ABVP and Ray Kaplan DVM, PhD (The
Horse Magazine)
Deworming adjuncts - Karen Biggs DVM,
Craig ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Age-related parasites - Karen Biggs DVM,
Craig ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Control for mature horses Karen Biggs DVM,
Craig ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Environment; development and persistence of
parasites - Karen Biggs DVM, Craig
ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Bots and beyond- Karen Biggs DVM, Craig
ReinemeyerDVM PhD, Dennis French
DVM, MS, DipL, ABVP and Ray Kaplan
DVM, PhD (The Horse Magazine)
Tapeworms, an underrated threat Karen Biggs
DVM, Craig ReinemeyerDVM PhD, Dennis
French DVM, MS, DipL, ABVP and Ray
Kaplan DVM, PhD (The Horse Magazine)
Strongyles, the worst of the worms - Karen Biggs
DVM, Craig ReinemeyerDVM PhD, Dennis
French DVM, MS, DipL, ABVP and Ray
Kaplan DVM, PhD (The Horse Magazine)
The History of Herbal Medicine –
www.herbal-concepts.co.uk
Investigation of anthelmintic resistance and
deworming regimens in horses – M Blanek,
HA Brady, WT Nichols, DP Hutcheson et al.
Historical perspective of cyathostomes;
prevalence, treatment and control programs
ET Lyons, SC Tolliver and JH Drudge.
Department of veterinary science Gluck Research
Centre, University of Kentucky.
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