babesia

what is babesia and how is it treated

 

Babesia is basically a blood parasite, and if not taken care of, the dog can die from it. Babesia will get in the dogs system and cause anemia thus killing the dog. Babesia can be transmitted by blood to blood contact, from breedings (although it is not as likely for a male to pass it during breeding and the mother dog MAY or MAY NOT give it to SOME, ALL, or NONE of the pups), and it can also be transmitted through ticks.

Babesia at this time is not "curable" by standards of vetinary medicine, although some do claim that they know of a cure...Dr. B at the Univ of NC is doing alot of studying on this disease. You CAN but babisia into remission with drugs like berenil and imozol...and berenil would be my choice...
Hope this answered SOME of your questions...
BB

 

what are signals that a dog may have it i.e. weight loss,not eating,etc. blood on blood contact is that the only way it can be caught. it is not a airborne sickness or what about thru saliva. thanks

 

Basically... no clear signs or symptoms of babesia. specially at the early stages. More on they would be noticeable when it is at the worst stage. I have had some good buddies here that experienced the wrath of babesia!!! One good ol' dogman loss half of his dogs due to babesia!!! Another loss all his brood stocks coz of this!!! And we've been havin seminars on how to prevent Babesia and How to treat it.... With reagrds to treating it, i'll research on that. I'll keep yah posted. yis............. 3BK

 

As I stated, it can be passed thru blood to blood contact, BREEDING (although a male isn't AS likely to pass it during breeding and the momma dog MAY or MAY NOT pass it to some, all, or none of her offspring.
As far as signs, look for a loss of appetite, look for pale gums, look for jaundice in the toe nails and stuff like that...
BB

 

I have but one case of Babesia... and I found out about it too late. 1 week ago, my dog was doing better. He works for me as how he works when he was healthy. No signs at all! But one day he lost his appetite. Didn't work quite well as before... and I checked him up... his gums are pale... his getin' thinner... muscles are getting weaker... after 5 days, he's dead. Found out it was Babesia...

 

Sorry to hear about your loss...
Its a good idea, for everyone IMO, to have some Berenil available to them in case you start to suspect babesia, as sometimes, by the time you find out it is too late. I would suggest the Berenil RTU as that was you don't have to mix it or anything like that...
Also some lixotonic (probably spelt that wrong)...its similiar to red cell but much MORE powerful...it will help build back up the red cell count...
ONCE YOU HAVE A DOG THAT YOU KNOW OR EVEN SUSPECT HAS BABESIA...DO NOT USE THAT DOG ANY LONGER IN ANY MANNER WHERE IT MAY PASS BLOOD TO ANOTHER DOG!!! and its a good idea to keep the sick dog quarantined from the rest of your yard if possible, as a tick can bring it to your other dogs...not likely, but is possible...
BB

 

Babesia sucks!!!!!!!!!!!!!!!!!

 

It does suck, but its also a reality...so we need to learn to deal with it appropriately.
BB

 

sorry about the loss 3bk but thanks for the info

 

Yup! Shit happens man!:mad:

 

an anemic dog, pale gums, orange tint in the stool, is weak and not very perky, dark piss....what it does is infect red blood cells....when the body detects that some are infected it will destroy them.....and then the kidney filters out the destroyed ones(thus the dark piss)....sometimes they run a slight temperature(from their body fighting off the infection).......its not all its made out to be.....i have had a dog with it....i gave him 18 doxycylene pills(100mg) and some red cell and he is in remmission.....waiting on a cure...like was said earlier it would be a good idea to seperate them from the rest of your yard....IMO only a uneducated moron would cull a good dog with babesia....

 

Re: babesia gibsoni info

bebesia gibsoni is teh disease that is infecting pitbulls brought to the us fron southeast asia there is no cure for it but dr.adam adam berkanhuer not sure if spelled the right way does have what seems to be a grat treatment unlike the 2 other drugs talked about here which just put the disease into remission i am not sponsoring this kennel but they have a great article in bebesia gibsoni check it out www.redroverkennels.com you can reac doctor berkanheur at the n.c stae university tick and bloodborne pathogen lab also try to ask for tim poore

 

Want to read for a while? Here is the clinical explanation and teatment for Babesia.


ETIOLOGY
Four genera of Ehrlichia are now known to be pathogenic in the dog. Ehrlichia canis, prototype of the genus and the cause of canine ehrlichios, infects canine mononuclear cells. Ehrlichia platys infects canine platelets. Clinical signs due to natural E. platys infection are rare unless concurrent infection with another blood-borne organism is present. Ehrlichia equi predominantly infects and produces severe disease in the horse but can infect canine granulocytes and cause mild signs of illness. Most recently, it has been determined that natural exposure to E. risticii, causative agent of equine monocytic ehrlichiosis (Potomac horse fever), can induce a mild to moderate clinical disease in dogs. This paper will primarily address canine ehrlichiosis caused by E. canis.

Canine ehrlichiosis is a tick-borne rickettsial blood disease of domestic and wild canids. The disease may be presented as acute, subclinical, chronic, or severe chronic in form. The latter form is often referred to as tropical canine pancytopenia (TCP). The etiologic agent of canine ehrlichiosis is Ehrlichia canis, which is classified within the tribe Ehrlichieae, family Rickettsiaceae, order Rickettsiales.

Ehrlichia canis is a gram-negative, small coccoid, ellipsoid, or often pleomorphic microorganism which occurs within intracytoplasmic vacuoles of monocytes and lymphocytes. The agent may occur singly (elementary bodies) or in the form of small clusters (initial bodies) or large, tightly-packed clusters (morulae). The size of elementary bodies is in the range 0.2 to 0.4 (u)m, initial bodies from 0.5 to 4 (u)m, and morulae from 3 to 6 (u)m.

EPIZOOTIOLOGY
The brown dog tick, Rhipicephalus sanguineus, is the sole biologic vector involved in the transmission of E. canis. Transstadial but not transovarial transmission; has been demonstrated in the tick. The microorganism may also be transmitted from infected to susceptible dogs by whole blood inoculation. Accordingly, potential blood donor dogs should be confirmed free of E. canis infection prior to their use. Canine ehrlichiosis has been diagnosed worldwide wherever the vector tick exists. The majority of cases in the United States have been reported to occur in the western, southwestern, and southeastern regions, as well as Hawaii. The disease may often be diagnosed in regions where the brown dog tick is not found; however, case histories usually reveal that such infections were imported from enzootic areas.

CLINICAL SIGNS
Canine ehrlichiosis is a progressive disease. The onset of the acute phase of the disease generally occurs within 8 to 16 days following the bite of an infected tick or after inoculation of infected blood. This stage lasts 2 to 4 weeks and is usually characterized by fever (104 to 106F), depression, anorexia, serous to purulent oculonasal discharge, lymphadenopathy, and occasionally corneal opacity. Edema of the limbs and ataxia may also be present. During this phase, the organism multiplies by infecting mononuclear cells which pass to tissues of the mononuclear-phagocyte system. The acute stage is generally followed by a subclinical phase of varying duration. During this period, the dog may appear clinically normal; however, in experimental situations, all blood values remain at subnormal levels when compared with values recorded prior to infection. The disease may remain at a mild, chronic level with occasional episodes of fever, or develop into the severe chronic phase known as TCP. The development of this severe chronic phase is dependent upon the inability of the host to mount a sufficient immune response to maintain balance with the parasite. The factors which determine each animal's ability to mount a sufficient immune response and the clinical severity of the disease are not known for certain but probably include strain variation, host age and breed, physical or immunologic stress,and the presence of concomitant disease. Breed susceptibility is particularly important in German shepherd dogs.

They appear to have depressed cell-mediated immunity as compared to other breeds and are more likely to develop severe disease. Typically, TCP is characterized by fever, corneal opacity, hyphema, regenerative or nonregenerative anemia, and a severe leukopenia and thrombocytopenia. During the early phase of the disease, bone marrow hyperplasia is evident. However, as the disease progresses, cellular elements in the marrow become exhausted, producing a state of hypoplasia. Owing to the severe thrombocytopenia, epistaxis, petechiation of mucous membranes, hemorrhagic skin lesions, and peripheral edema are often observed. Mononuclear infiltration and hemorrhage of the meninges may result in an arched back, cervical or back pain, ataxia, paresis, and cranial nerve deficits. Death during this phase of the disease is generally due either to extensive mucosal and serosal hemorrhages or to secondary bacterial infections prompted by the dog's debilitated condition.

CLINICAL PATHOLOGY
The most prominent clinicopathologic manifestations of ehrlichiosis are a greatly increased erythrocyte sedimentation rate, thrombocytopenia, and a slight to severe pancytopenia. In recovering animals, there is a gradual to spontaneous improvement in thrombocyte levels. The appearance of bone marrow specimens obtained by aspiration cytology during the acute phase of the disease may range from normal cellularity to various degrees of hypocellularity.

Affected dogs may develop severe chronic ehrlichiosis subsequent to surgery or chemotherapy. Consequently, the severe chronic phase of ehrlichiosis may be precipitated by stress or by immunosuppression after a prolonged subclinical infection. Hypergammaglobulinemia that develops during the acute febrile phase persists during the subclinical and subsequent terminal phase of the disease. These excessive ( )-globulins, however, are not all specific for E. canis. Such manifestations are often misdiagnosed and attributed to an autoimmune process rather than to canine ehrlichiosis. Other biochemical findings include an increase in hepatic enzyme activity (serum alanine aminotransferase or SALT and alkaline phosphatase), particularly during the acute phase. Bone marrow cytology depends upon the stage of the disease. Pancytopenia is more likely with chronic ehrlichiosis. In contrast to the acute stage, bone marrow examination usually reveals moderate to marked hypocellularity with variable degrees of plasmacytosis. Among various prominent pathologic manifestations of fatal ehrlichiosis are extensive plasmacytosis and perivascular cuffing in most parenchymal organs, particularly the lung, meninges, kidneys, and spleen, suggesting an immunopathologic phenomenon. Such a phenomenon has been further substantiated by the finding that lymphocytes from infected dogs exert a cytotoxic effect upon autologous monocytes. This monocytotoxicity was shown to bear a temporal relationship to the thrombocytopenia. An indication that the thrombocytopenia in canine ehrlichiosis is immunologically mediated has been provided by evidence that serum from diseased dogs inhibits platelet migration in vitro. Scanning electron microscopy has indicated that the platelet migration inhibition factor (PMIF) interferes with platelet migration by inhibiting platelet pseudopod formation. Affected platelets become rounded and show evidence of clumping and leakage. Necropsy findings vary depending upon the stage of disease. Weight loss and emaciation are usually present in chronic cases. Petechial and ecchymotic hemorrhages may be present in the skin, tissue, and visceral surfaces of many organs. Lymphadenopathy, splenomegaly, and hepatomegaly are frequently present, particularly during the acute phase.



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Part 2




DIAGNOSIS
Diagnosis of acute ehrlichiosis by microscopic detection-of the organism in Giemsa-stained blood smears or buffy coat preparations is generally difficult, if not impossible, because the percentage of infected monocytes within the peripheral blood is extremely low.

An indirect fluorescent antibody (IFA) test, using in vitro culture-derived organisms as antigen, is currently the only available specific means for conf irmatory diagnosis of canine ehrlichiosis by detection and titration of antibodies to E. canis. In experimentally infected dogs, antibodies are usually first detectable between days 7 and 14 postinfection and 100% detectable by day 21. This variation is apparently due to individual animal responses rather than the volume of infectious inoculum. The serum titer in the IFA test may vary from 1:10 to 1:10,240 or greater, depending on the stage of infection, immune involvement of individual dogs with the agent, and breed of the dog. During the acute stage of infection, there is generally a very rapid increase in titer which, following recovery, is maintained at varying levels. Dogs in the chronic phase of ehrlichiosis generally reveal titers of 1:81,920 or greater. These extremely elevated titers generally indicate that the dog has been infected for a considerable length of time.

The presence of concurrent disease in a dog with ehrlichiosis can complicate the diagnosis and prognosis. Concurrent disease with babesiosis, hepatozoonosis, or hemobartonellosis are not too uncommon and suggest that more than one disease may be transmitted simultaneously by the vector tick infected with multiple organisms. In addition, existing autoinunune syndromes may mask various clinical signs associated with ehrlichiosis.

THERAPY
Specific Therapy
Tetracycline remains as the primary treatment of choice for ehrlichiosis. The recommended therapeutic regimen consists of tetracycline hydrochloride or oxytetracycline (preferred) given orally at 33 mg/lb divided t.i.d. for 2 to 4 weeks. While in many cases improvement may be noticed within 1 to 2 days, patient response may vary. A return to the afebrile state and an improvement in attitude are usually the first signs of clinical improvement. However, dogs in the chronic stage of disease usually take longer to respond. Dogs with chronic and particularly severe thrombocytopenia have a guarded prognosis and may show little to no response.

Doxycycline is a semisynthetic tetracycline analogue that is very lipid soluble. As such, it readily penetrates cells and, therefore, may be more effective in the elimination of Ehrlichia organisms. Treatment for 14 to 21 days at a dosage rate of 5 to 10 mg/kg orally is usually most effective in the treatment of chronic ehrlichiosis. The treatment time can be reduced to 5-7 days with intravenous administration.

If this treatment is effective in totally eliminating the organism from the affected dog, the IFA titer should gradually subside to a minimal or nondetectable level within 6 to 18 months posttreatment. Significant titer changes in chronically infected dogs may take longer. Periodic serologic screening and clinical follow-ups are recommended. If there is a significant increase in antibody titers and/or clinical abnormalities noted (including asymptomatic dogs), treatment should be repeated.

Chloramphenicol has been used to treat ehrlichiosis. However, because its efficacy is less than the tetracyclines, and the drug can directly interfere with heme synthesis, its use is not recommended.

Imidocarb dipropionate is a diamidine antiprotozoal drug which is effective for the treatment of a variety of animal protozoal diseases. Imidocarb is given as a single intramuscular injection (5 mg/kg). Imidocarb is the drug of choice for concurrent Babesia infections since the drug is particularly effective against canine babesiosis. Concurrent infections with both ehrlichiosis and Babesia reportedly can be effectively treated with two intramuscular doses of imidocarb given 14 days apart.

Supportive Therapy
Dehydration should be corrected with the administration of polyionic fluids. Food and water intake is particularly important to animals with chronic debilitating disease.

Blood transfusions are indicated for massive hemorrhage or chronic anemia that has become life threatening. Vasoconstrictive astringents (epinephrine or phenylephrine) may be useful for resolution of a nasal hemorrhage. Nutritional support is important for recovery of the hemopoietic system. B vitamins (particularly B12) and folic acid supplementation are indicated. Iron supplementation is also indicated in animals with chronic blood loss anemia. Vincristine has also been used to treat thrombocytopenia induced by Ehrlichia as well as other illnesses. It can be given intravenously at weekly intervals (0.01 to 0.025 mg/kg) or as vincristine-loaded platelets.

PREVENTION
Since transmission by vectors appears to be the only means by which the disease can be naturally transmitted to other animals, tick control is the best means of preventing the disease. Environments should be sprayed and animals dipped every 1 to 2 weeks in endemic areas. Incidences in kennels can be reduced by testing all animals and treating those with positive titers prior to introduction into the kennel. New additions should be quarantined until tested negative and treated if positive.

The only preventive therapeutic measure for canine ehrlichiosis thus far available is administration on a continuous basis of tetracycline at a low dosage (6.6 mg/kg/day). This may be most highly effective for dogs traveling to enzootic areas for a limited period.

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EHRLICHIA CANIS SEROLOGY

The specimen required is 1.0 ml serum (RTT or STT). The test is an IFA, and positive results are titered out completely to end point.

INTERPRETATION OF TEST RESULTS

Intracellular inclusions of E. canis in peripheral blood smears may occasionally be seen, but their persistence in peripheral blood is brief. Therefore, serologic testing is the best means of detecting the disease. Antibody response to Ehrlichia canis is first detectable at 7-21 days after infection and continues to rise in untreated dogs. The IFA titer decreases gradually after the parasite is eliminated by treatment, but it may persist indefinitely, especially in chronic cases. In such cases where dogs remain seropositive following successful treatment of clinical illness, it is strongly recommended that, aside from follow-up serology, hematologic parameters (CBC, particularly platelets) be evaluated on a routine basis (every 4-6 months) to confirm that the dog has been successfully cleared of infection since subclinical carriers may relapse at any time and/or serve as a source of infection through the tick for susceptible dogs.

High Titer (>1: 20,480)

Because the serum is titered out completely (i.e., diluted until a positive reaction is not longer detected), some very high titers are reported. Titers >1:20,480 generally indicate that the dog is in the chronic phase of the disease and was exposed some time ago (up to several years ago). If the owners are unaware of any episode of clinical disease in the past, the dog probably experienced a very mild acute phase of the disease. If the dog was ill and was treated, the titer may still remain high even though the dog is no longer sick. In some chronic cases with high titers, the titers may go down slightly over 6 months to 1 year. Periodic checkups for signs of disease, including a CBC, are recommended for dogs with persistent titers (every 3-4 months for dogs with very high titers). Any abnormalities detected on the CBC (e.g. a WBC and/or platelet count which is below the normal values), indicates that the dog was not cleared of infection and should be treated as described below.

Moderate Titers (1:160 - 1:10,240)

A moderate titer indicates that the dog is in the late acute/early convalescent phase of disease and that exposure was probably relatively recent. When such dogs are treated, their titers tend to decrease over a shorter period of time (approximately 3-6 months). Generally, if the illness has been brief, they may convert completely to a negative status over a 6-month period after treatment. However, some dogs have been known to remain seropositive, albeit at a significantly lower titer, for an indefinite period of time.



how is it treated[/QUOTE]

 

Part 3

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Very Low Titers (1:10 - 1:20)

Animals with very low titers should have a second serum sample submitted in 1-2 weeks. If no increase in antibody titer is detected, the dog most likely received a very mild exposure at some point in time and is not actively infected with E. canis.

ADDITIONAl COMMENTS

Hyperglobulinemia generally is present in dogs affected by canine ehrlichiosis. In some dogs experiencing the severe chronic phase of ehrlichiosis, bone marrow hypoplasia may occur, resulting in severe hypoglobulinemia with a concomitant decrease in serum antibody titers. Thus, serology results should be interpreted in conjunction with clinical presentation, hematology and biochemistry in order to establish a definitive diagnosis of ehrlichiosis.

TREATMENT RECOMMENDATIONS

Any dog seropositive for E. canis should be treated accordingly. The standard treatment for ehrlichiosis in dogs is tetracycline at 11 mg/lb t.i.d. for 3-4 weeks. However, some researchers suggest that more satisfactory results will be obtained with one of the following regimens:

Oxytetracycline at ll mg/lb t.i.d. for a minimum of 21 days

Doxycycline at 5-10 mg/kg (divided b.i.d.) for 14-30 days

(Note: It is recommended that dogs which demonstrate a chronic infection be administered 8-10 mg/kg doxycycline for 21-30 days.)

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CANINE BABESIOSIS

ETIOLOGY

Canine babesiosis is a hemoprotozoan infection of dogs residing in many tropical, semi-tropical and semi-arid regions of the world. Both Babesia canis and B. gibsoni are known to infect dogs in such regions of the U.S., although the latter is less common.

Babesia parasites may be observed within host erythrocytes, particularly during the acute stage of infection. Babesia canis, the larger of the two species, is a pyriform, teardrop- or pear-shaped, protozoal organism which measures 5-7 (u)m in length by 2-4 (u)m in width. While the organisms frequently occur in pairs, up to 8 organisms have been noted within a single erythrocyte. Babesia gibsoni is smaller than B. canis, measuring 1-3 (u)m in diameter and is observed most often within erythrocytes as single ring-form parasites.

EPIZOOTIOLOGY
In the U.S., the primary vector for transmission of B. canis or B. gibsoni is the brown dog tick, Rhipicephalus sanguineus. Since this tick is also the vector for Ehrlichia canis, dual infections are not uncommon, particularly in the southwest region of the U.S. While B. canis infections in dogs are most often recognized in the southwest and southeast regions of the U.S., B. gibsoni infections appear to be more geographically limited at this time. This species of Babesia was originally more prevalent in southeast Asia, however, over the past few years various foci of canine babesiosis caused B. gibsoni have become established in the U.S. While a few cases have been confirmed in the southwestern, southeastern and northeastern regions of the U.S., the majority of cases have been detected in dogs residing in southern California, particularly in the counties of San Bernardino, Kern and Los Angeles.

Aside from the tick, transmission of Babesia infections may also occur through blood transfusions from infected to susceptible dogs and by contaminated needles and instruments. Certain biting insects may also serve as mechanical vectors. Transplacental transmission of Babesia infections can occur. However, puppies infected in utero are less susceptible to clinical disease due to passive maternal immunity but remain carriers of the disease if untreated. Infections are also less severe in dogs which become infected as adults and most severe in those which become infected as older puppies and young (< 2 years) adult dogs.

Clinical Siqns and Pathogenesis
Clinical signs of canine babesiosis may vary greatly, depending on the stage of disease, age and immune status of the dog and complications from concurrent infections. Basically, there are four stages of canine babesiosis which may be recognized. The acute phase of babesiosis is most often characterized by fever, lethargy, anorexia, splenomegaly, hepatomegaly, lymphadenopathy, diarrhea or constipation, vomiting and congestion of mucous membranes which may become pale or white, hematuria and/or hemoglobinuria. Dogs may also become icteric and develop mild to severe ascites. CNS signs, muscular aberrations, respiratory symptoms and circulatory disturbances are also common findings during the acute stage. Clinical pathology usually reveals hemolytic anemia that is regenerative, bilirubinemia, bilirubinuria, varying degrees of hemolysis and lymphocytosis. Thrombocytopenia may occur in both mild and severe infections with B. canis but is usually more marked in severe cases. Mechanisms responsible for the thrombocytopenia are not clearly understood, however, it appears to develop independent of DIC, which is also a complication of severe canine babesiosis. The acute form of canine babesiosis is most commonly observed in puppies and young dogs. The peracute phase of the disease is most often represented by a very short history of illness. There is an extreme sudden onset of clinical signs followed by irreversible shock and death. Severe neurologic manifestations are due to sludging of parasitized erythrocytes within the capillaries of the CNS. Hypoxia and DIC are common findinqs in the peracute phase of babesiosis. This phase is most common in heavily tick-infested young dogs. The chronic form of canine babesiosis is characterized by intermittent fever, capricious appetite and marked loss in body condition. However, mild anemia and icterus may be the only notable signs. Concurrent infections with E. canis are common, thereby complexing the recognition of chronic babesiosis. The subclinical carrier phase is the most common form of babesiosis in adult dogs in the U.S. The carrier results from a fine equilibrium-between the parasite and the immune mechanisms of the host. A breakdown in homeostasis resulting in clinical babesiosis may develop following stress, immunosuppression due to chemotherapy or other factors, or splenectomy. Such dogs may serve as an important source of infection if used for blood donors or for breeding purposes.



TREATMENT
Several drugs have been determined to be effective against canine babesiosis. Babesia canis is more readily treatable than B. gibsoni. Clinical relapses are not uncommon following treatment for infections caused by the latter agent. Diminazine aceturate (Berenil, Hoechst; Ganaseg, Squibb) is used to treat both B. canis and B. gibsoni infections. The dosage consists of a single IM injection at 3.5 mg/kg. Imidocarb diproprionate (Imizol, Wellcome), when given in one single injection or two injections one week apart, at a dosage of 5mg/kg IM is highly effective against infections caused by B. canis only. Phenamidine (Lomadinie, May and Baker) given twice at 15 mg/kg SC on 2 consecutive days has also been found effective against infections caused by either B. canis or B. gibsoni.

Supportive therapy, particularly for those dogs which have severe anemia, is very important and should include, as deemed appropriate, blood transfusions, hematinics and electrolyte solutions. Lactated Ringer's solution is recommended for those dogs which become dehydrated.

QUOTE=crg8]what is babesia and how is it treated[/QUOTE]