Mosquito-borne Dog Heartworm Disease 1

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http://edis.ifas.ufl.edu/MG100

 Distribution of the heartworms in the US 2001 map
http://edis.ifas.ufl.edu/EDISImagePage?imageID=248651713&dlNumber=MG100&tag=FIGURE%202&credits=American%20Heartworm%20Society%20
( www.heartwormsociety.org )

Mosquito-borne Dog Heartworm Disease 1
J. K. Nayar and C. Roxanne Rutledge2
Each year thousands of dogs become disabled or die from lung, heart or circulatory problems caused by heartworm disease. Heartworm disease in dogs and related canines is caused by a filarial nematode (a large thread-like round worm), Dirofilaria immitis. The adult worms live in the right side of the heart (right ventricle) and adjacent blood vessels (pulmonary arteries), and because of their location, are commonly called "dog heartworms."


Distribution of Heartworm Disease
Heartworm disease occurs worldwide in tropical, subtropical, and some temperate regions. Until the late sixties, the disease was restricted to southern and eastern coastal regions of the United States. Now, however, cases have been reported from dogs native to all 50 states (Figure 1 ). For most of North America, the danger of infection is greatest during the summer when temperatures are favorable for mosquito breeding. In the southern U. S., especially the Gulf Coast and Florida, where mosquitoes are present year-round, the threat of heartworm disease is constant.

 
CREDITS: American Heartworm Society (www.heartwormsociety.org)
 
Figure 1. Distribution of Dog Heartworm in the United States.


The Heartworm Parasite
The complete development of the nematode parasite requires two hosts: dog and mosquito ( Figure 2 ). In the dog, sexually mature adult nematodes are large (females up to 14 in. and males up to 7 in.) and cause disease by clogging the heart and major blood vessels leading from the heart. By clogging the main blood vessels, the blood supply to other organs of the body is reduced, particularly the lungs, liver and kidneys, leading to malfunction of these organs. Once infected a dog is infected for life. The sexually mature nematodes discharge tiny (less than 1/800" long) immature worms called microfilariae into the blood stream of a dog. They do not develop further in the dog, but they can survive in the blood for up to three years. They must be ingested by a mosquito before they can progress further in their development. There are more microfilariae in the blood during the day than at night. Optimum numbers of microfilariae in the blood close to the skin coincide with times of peak feeding activity of mosquitoes. Microfilariae may also be more abundant in the summer when mosquitoes are abundant.


 
CREDITS: University of Florida
 
Figure 2. Life Cycle of Dog Heartworm.

Development In The Mosquito
Development of heartworm in the vector starts when microfilariae are ingested by the female mosquito during blood feeding on an infected dog. Microfilariae leave the midgut of the mosquito soon after ingestion and migrate into the Malpighian tubules cells (the mosquito kidney). At a temperature of about 27? C. the parasite becomes immobile, shortens and thickens, and develop into the so-called "sausage form" larva in about 4-5 days. This larval form is followed by the first stage larva and the first molt occurs in the Malpighian tubule cells at 8 days. During the second larval stage, the internal organs of the worms are formed. The second molt occurs at 11- 12 days, resulting in third stage larvae which resemble miniature adults. During the next 2-3 days, they increase in length, break out of the Malpighian tubules, migrate through the body to the head and accumulate in the mouthparts of thel female. These third stage larvae are now called infective larvae. Thus, in 2-3 weeks, microfilariae transform into infective larva. Further development can only take place when mosquitoes feed on a dog.
Infective larvae are concentrated in the proboscis, or mouth parts of the mosquito. As the infected mosquito feeds on a dog, the infective larvae emerge from the tip of the proboscis and on to the skin of the animal. A drop of mosquito blood protects the larvae from drying prior to their entry into the host. The infective larvae penetrate the skin through the puncture wound that remains after the female mosquito withdraws her mouthparts.


Development In The Dog
After penetrating the skin, the larvae stay close to the entry site and grow very little during the next few days. The molt from third- to fourth-stage larvae occurs 6-10 days after infection. Fourth-stage larvae migrate through subcutaneous tissue and muscle toward the upper abdomen and thoracic cavity. Fourth-stage larvae grow to about 1/10" in length during the next 40-60 days and then molt to the fifth and final larval stage, or young adults. The young adults penetrate veins to get into the blood stream and eventually, after 70-90 days in the dog, reach the heart. For unknown reasons, the percentage of infective third-stage larvae that reach maturity vary in different breeds of dogs.
Upon reaching the heart, the young adults continue to grow. Up to now there has been no evidence of disease in the dog. It is only after adult worms mate and start to discharge tiny motile microfilariae that circulate in the blood that disease becomes apparent. Microfilariae appear in the blood about 200 days after infection.

Visible signs of heartworm disease may not appear until a full year after being bitten by infected mosquitoes. In fact, the disease may be well advanced before the dog shows any symptoms. Dogs with typical heartworm disease fatigue easily, cough, and appear rough and not thriving. Blood and worms from ruptured vessels may be coughed up. Blockage of major blood vessels can cause the animal to collapse suddenly and die within a few days.

Dogs with 50-100 mature worms exhibit moderate to severe heartworm disease. Dogs with 10-25 worms that receive little exercise may never show signs of heartworm disease, and one may not be able to find microfilariae in the blood. Heartworm infection without detectable microfilaremia is called occult dirofilariasis.


Dog Heartworm Disease In Cats
Heartworm disease in cats is less frequent than in dogs. Cats are susceptible, but appear to be more resistant than dogs. The most prominent clinical signs are provided in Table 1. The average time from when the cats are infected through the bite of a mosquito until the presence of adult worms is about 8 months. Outdoor cats are at the greatest risk on infection; however, a high percentage of indoor cats (as defined by their owners) have been infected. The distribution of feline heartworm infection in the US is geographically similar to canine infection, but it occurs in fewer numbers than it does in dogs.

Differences in heartworm infections in cats and dogs
Heartworm infection in dogs is common in the United States, but infection in cats is a relatively new concern. There are important differences in several aspects of heartworm infection dog and cat owners need to know. The following chart is modified from the American Heartworm Society's website (http://www.heartwormsociety.org ) and highlights differences in all aspects of the disease in both groups of animals.

Dog Heartworm Disease In Humans
Heartworm is also an occasional parasite of humans. The parasite is usually found in the lung (pulmonary dirofilariasis), and less often in the heart. Although the worm forms "coin lesion" in the lung, which may be confused with other diseases on x-rays, such as carcinoma, its clinical significance in man has not been fully determined. During the last 40 years about 100 cases of human pulmonary dirofilariasis have been reported from Florida.

Mosquito Vectors
Sixteen species of mosquitoes (Aedes albopictus, Ae. vexans, Ochlerotatus canadensis, Oc. cantator, Oc. excrucians, Oc. sollicitans, Oc. sticticus, Oc. stimulans, Oc. taeniorhynchus, Anopheles bradleyi, An. punctipennis, An. quadrimaculatus, Culex nigripalpus, Cx. quinquefasciatus, Cx. salinarius and Psorophora ferox ) have been identified as natural hosts of D. immitis (Dog Heartworm) in the United States east of the Mississippi River. Among these, only 11 species ar found in any abundance in Florida.

Diagnosis
Diagnosis of canine heartworm infection depends on an accurate patient history, clinical signs, and use of several diagnostic procedures that may include detection of microfilariae in a blood sample, X-rays, or ultrasound.
It is much more difficult to diagnose feline heartworm infection than canine heartworm infection. Routine tests for the microfilariae are not useful in cats because the presence of heartworm offspring in the blood is temporary in cats. There are several tests used together for diagnosing heartworm in cats, including physical exam, ultrasound readings of the heart, complete blood count, blood testing, microfilaria testing, and in some cases, necropsy.


Treatment, Prevention And Control
Cats. There are no products approved for feline heartworm treatment in the U.S. However, there are three products that have been approved as preventatives in cats: Heartgard?, Revolution?, and Interceptor?. Only a veterinarian can prescribe the appropriate product and dose. It is NOT the same for cats and dogs.
Dogs. The treatment for dogs is expensive and involves some risk to the animals. Much of the damage caused by heartworms occurs before there are any outward signs of the disease. An arsenical compound is used to kill adult heartworms in dogs; it is given as an intravenous injection and one or two doses are given each day for two days followed by restriction of physical activity for one to two months. As the worms die they are carried by the bloodstream to the lungs. One dog in twenty may be expected to die as a result of complications from this therapy.

Prevention is the key element in protecting a dog. If a dog is already infected, the adult heartworms and the microfilariae must be eliminated before being put on a program to prevent reinfection. Preventatives include ivermectins: Heartgard?, Heartgard Plus?, Merial, InverhartTM Plus, Virbac; milbemycin oxime: Interceptor?, Sentinel, Novartis; and selamectin: Revolution?, Pfizer. The preventatives will eliminate infective larvae before they reach the heart.

Mosquito control. Mosquito control in residential areas where dogs and cats live can break the transmission cycle of heartworm disease. Dog owners should keep their animals out of mosquito infested areas. Living quarters should be mosquito-free. Dogs kept indoor usually show much lower incidence of infection.


Tables
Table 1. Clinical Signs Associated with Feline Heartworm Disease
ACUTE

 CHRONIC

 
Collapse

 Coughing

 
Dyspnea (Difficulty breathing)

 Vomiting

 
Convulsions

 Dyspnea

 
Diarrhea/Vomiting

 Lethargy

 
Blindness

 Anorexia

 
Tachycardia

 Weight Loss

 
Syncope (Fainting)

 Chylothorax

 
Sudden Death

 
 


Table 2. Comparison of Heartworm Infection in Cats and Dogs


 CATS

 DOGS

 
Parasite


 Dirofilaria immitis


 Dirofilaria immitis


 
Transmission


 Mosquito Bite


 Mosquito Bite


 
Susceptibility to infection


 Lower than dogs; 61% - 90% of unprotected cats exposed to infective larvae become infected


 Very high - virtually 100% of unprotected dogs exposed to infective larvae become infected


 
Longevity of worms


 2-3 years


 5-7 years


 
Number of worms


 Usually less than 6; 1 - 2 worms most common


 Not unusual to find more than 3


 
Organ with greatest pathology


 Lungs


 Heart and Lungs


 
Diagnosis


 Complex


 Relatively Simple


 
Treatment


 None approved; High risk of complications


 1 compound approved; complications manageable


 
Compounds for Prevention


 3 approved in US


 Several approved in US


 




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Footnotes
1. This document is ENY-628, one of a series of the Entomology and Nematology Department, Florida Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida. Publication date: July 1990. Revised: July 1998. Major Revision: May 2005. Please visit the EDIS Website at http://edis.ifas.ufl.edu.
2. J. K. Nayar and C. Roxanne Rutledge, Professor (retired) and assistant professor, Florida Medical Entomology Laboratory, Cooperative Extension Service, Institute of Food and Agricultural Sciences, University of Florida, Vero Beach, FL 32962.



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http://www.scchealth.org/docs/ph/ph_docs/phehs/mosquito/mosquito.html

Mosquitoes are sometimes carriers of dangerous diseases. In humans, malaria, yellow fever, dengue, and encephalitis, and in dogs heartworm . Most of these diseases, with the exception of human encephalitis and canine heartworm, have been fairly well eliminated from the entire United States. Outbreaks of mosquito borne encephalitis have periodically occured in Missouri. Canine heartworm is an endemic problem, with costs to animal owners escalating each year. Effective mosquito control measures including the elimination of swamp areas, and maintenance efforts to keep road ditches clear and water free have done much to control mosquito populations. This reduces the potential for disease transmission. Each year there remains the possibility that outbreaks may occur since the mosquitoes which have the capability to transmit them are readily found in the state.

Mosquitoes are broadly classified into two groups:
   1) Floodwater mosquitoes;
   2) Permanent water mosquitoes.

Floodwater mosquitoes lay their eggs on damp soil where flooding will occur or, in some cases, above the water line in treeholes, artificial containers, or other small bodies of water. When water (rain) fills these areas and floods the eggs, they hatch, and, after a week or so in the larval stages, broods of mosquitoes emerge simultaneously. These mosquitoes are mainly of the pest variety, and are the first to emerge in the spring months. The eggs are laid in previous seasons and overwinter in that stage. Some of these have only one brood per year, and others emerge continuously throughout the season, with a brood being produced with each significant rain. Eggs of these species have been known to remain viable for up to five years after they were laid. Many of these mosquitoes are strong flyers and may range up to ten miles or more in search of a blood meal. They must have a blood meal to lay eggs.

The permanent water mosquitoes lay their eggs directly on the water surface, either singly or in rafts. Populations of these grow as the season progresses in relation to the availability of breeding habitat, water, favorable weather conditions, and food. Overwintering takes place as adults in protected areas of buildings, caves, etc., or in the larval form, depending on the species. Many of the species in this group do not venture far from their breeding sites.

We have approximately 50 species of mosquitoes in Missouri. Among these, the life span ranges from less than a week to several months. Among all mosquitoes, it is only the female which "bites." She does so in order to obtain the blood meal she requires to lay viable eggs.

How Mosquito Species Multiply
All mosquitoes begin life as eggs. Under proper conditions, the egg hatches in two or three days into a larva, which is aquatic, but must breathe air. The larval stage lasts from four to ten days, depending on species and air temperature. After the larval stage, it becomes a pupa, and the pupal stage lasts another day or two. After this, a winged adult emerges.

Mosquitoes can breed in very small areas of water, including tin cans, old tires, drain troughs, household trash, rain pools and puddles where water can be expected to last for 10 days or longer. Large and deep bodies of water are usually not good mosquito breeding areas because of the presence of natural predators (fish, tadpoles) and the action of waves. Mosquito larvae cannot survive without still water or protection by emergent vegetation.

If you believe you have a mosquito breeding problem on your property, but are not sure, please call the Department of Community Health and the Environment. We will arrange an appointment for an inspection and evaluation, and recommend a possible solution for you.

What You Can Do
You as a resident can do more to control mosquitoes around your home than all other methods combined. Proper maintenance of your property is the first step. All trash and refuse that could contain water should be eliminated. The property should be adequately graded and drained, to prevent any pools or puddles of water that may last 10 days or longer.
You can help your local health department by initiating the following practices on your property:

Collect and properly discard all useless artificial containers such as tin cans, bottles, buckets, vases, and old tire casings.
Make certain that your rain gutters and downspouts are not blocked by leaves or other debris which would cause water to stand in them.
Stack pails, barrels, tubs, vases up-side down.
Cover boats and canoes, or store them upside down.
Stock rock gardens, garden pools and lily ponds with small fish, including the top water feeding minnow and gold-fish.
Fill in or drain any low places where water may stand for more than a week.
Empty and clean small wading pools at least once each week.
Provide proper maintenance of back-yard swimming pools to discourage the development of mosquitoes.
Drain livestock water tanks once each week or stock them with goldfish or top water feeding minnows.
Cover rain barrels, cisterns or fire barrels with 16-mesh wire screening.
Install splash blocks around homes to carry water away from foundations.
Store wheelbarrows upside down.
After you have done all you can do to reduce the number of mosquitoes on your property, you can protect yourself against the ones that remain by being sure your home is adequately screened, by wearing protective clothing, and by using mosquito repellent, which is quite effective.

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http://www.northlineexpress.com/mosquito_exterminators.asp

Mosquito traps on above link.
'
 But I get more satisfaction watching them FRY on the blue bug zapper myself!
___________________

Dog Heartworm  Ask The Vet
http://www.ask-the-vet.com/dog-heartworm.htm full article on link, this has been snipped to just include the major heartworm meds...  so Full article has more info.
 
Heartworm control
In general,tackle heartworm on 2 fronts ?
 
Daily heartworm tablets ? these are still around but are rapidly being replaced by the monthly heartworm tablets.

Monthly heartworm tablets.
First on the market was Heartgard (Ivermectin). many collie breeders steer clear of it because of reactions to the drug in their breed opting for the daily heartworm tablets.

Now comes as Heartgard plus (Ivermectin/Pyrantel)

Interceptor (milbemycin)   

Sentinel (milbemycin/lufenuron) combines the heartworm preventative with flea control.  http://www.ask-the-vet.com/oral-flea-medication.htm

To read about Revolution (selamectin)  http://www.ask-the-vet.com/revolution-for-dogs.htm

 For collie owners, if you want to play it safe, then I say use Interceptor or Sentinel or use daily heartworm tablets.