All Posts Tagged With: "Bartonella"

Linda’s comments: Amazing how animals get better research and treatments than humans!!??  God Bless Dr Breitschwerft for his research …… He found “first time documented evidence that the pathogen may have been passed between family members.”  What Lida Mattman said all alone.  Then they say ,”At least 26 strains of Bartonella have been named worldwide, and the list is growing.”…..  AGAIN, a VET finds out with his continued research how deadly Bartonella can be.  This statement/quote ” Dr. Michael Kosoy, who heads the Bartonella laboratory for the Centers for Disease Control and Prevention in Fort Collins, Colo., said scientists are only beginning to build evidence that Bartonella infections may be more common than previously thought.” WHAT, NOW the CDC is admitting that Bartonella exists??  WOW….unbelievable….Perhaps all the pressure the Lymies are putting on research, IDSA and doctors is working….

At any rate, THANK GOD this is coming to the public….there is hope folks…..we just can’t give up the FIGHT….which brings me to the Dr Garry Gordon FIGHT protocol…..I have been on it for 1 1/2 years and IT WORKS….Lyme and the co-infections do NOT have a chance if you are on the FIGHT protocol….getting control and cleaning out the total body burden of pathogens and toxins in our bodies only helps to speed along our wellness journeys….. 

BY SARAH AVERY – Staff Writer

A bacterial infection typically spread by fleas, lice and biting flies could be more prevalent than many think, and may have been transmitted from a mother to her children at birth, scientists from N.C. State University say.

Dr. Edward Breitschwerdt, an infectious disease veterinarian and one of the world’s leading researchers of bacteria called Bartonella, has for the first time documented evidence that the pathogen may have been passed between family members.

Although more studies are needed to back up his findings, Breitschwerdt and colleagues describe the case of a mother and father who began battling chronic aches, fatigues and other symptoms soon after they were married. When their twins were born in 1998, the daughter died after nine days from a heart defect, and the son developed chronic health problems.

Using tissue from the daughter’s autopsy and blood from the surviving family members, Breitschwerdt’s team discovered that the entire family was infected with the same species of Bartonella bacteria, despite having no shared exposures to flea or lice infestations. Bartonella is known to causes such illnesses as trench fever and cat scratch disease, and it is increasingly suspected of triggering a variety of aches and inflammations that doctors have been unable to diagnose.

“I think we have stumbled across something that is of monumental medical importance,” said Breitschwerdt, whose findings were published recently in the Journal of Clinical Microbiology.

Proving the mother-child transmission could be difficult, however. Little funding is available for such research because the bacteria are still not considered a major source of human disease.

Dr. Michael Kosoy, who heads the Bartonella laboratory for the Centers for Disease Control and Prevention in Fort Collins, Colo., said scientists are only beginning to build evidence that Bartonella infections may be more common than previously thought.

“Bartonella are circulated around the world in many animals, but there are different Bartonella species, and the question is how can they be transmitted to humans?” Kosoy said, noting that most known cases have been transmitted from biting insects. He said the NCSU findings about the potential family transmission are compelling but inconclusive.

Dozens of strains

At least 26 strains of Bartonella have been named worldwide, and the list is growing. The most notorious Bartonella infection is cat scratch disease, a fever illness passed to humans from flea-infected cats. Fleas are the primary hosts, and they spread the bacteria in their feces.

Full article: http://www.cdc.gov/eid/content/16/3/500.htm

Excerpt:

We describe a new Bartonella species for which we propose the name Candidatus Bartonella mayotimonensis. It was isolated from native aortic valve tissue of a person with infective endocarditis. The new species was identified by using PCR amplification and sequencing of 5 genes (16S rRNA gene, ftsZ, rpoB, gltA, and internal transcribed spacer region).

Bartonella species are small, fastidious, gram-negative, intracellular bacteria that cause culture-negative infective endocarditis. Six species have been documented to cause endocarditis in humans: B. quintana (1), B. henselae (2), B. elizabethae (3), B. vinsonii subsp. berkhoffii (4), B. koehlerae (5), and B. alsatica (6). We report a case of culture-negative endocarditis caused by a new Bartonella species, for which we propose the name Candidatus Bartonella mayotimonensis.

Abstract:

Bartonella vinsonii subsp. berkhoffii, Bartonella henselae or DNA of both organisms was amplified and sequenced from blood, enrichment blood cultures or autopsy tissues from four family members. Historical and microbiological results support perinatal transmission of Bartonella species in this family.

 Full article: http://eutils.ncbi.nlm.nih.gov/entrez/eutils/elink.fcgi?dbfrom=pubmed&id=20220787&retmode=ref&cmd=prlinks

Excerpt:

At least 12 species in the genus Bartonella are zoonotic pathogens that may be
transmitted among mammalian hosts by fleas or other arthropods. Apparent host
specificity by some Bartonella species to mammalian hosts has been observed, and
the detection of multiple Bartonella species in mammalian fleas suggests that
fleas take bloodmeals from a variety of host species. However, many flea species
are observed to parasitize a narrow host range. Therefore, we suspect that fleas
may acquire Bartonella by a mechanism other than ingesting infectious blood. We
found that detection of multiple Bartonella genotypes and species is apparently
common in fleas and that the majority of fleas tested (5/9) carried Bartonella
species atypical of their hosts. We also detected Bartonella DNA in flea
reproductive tissues, suggesting that vertical transmission of this organism in
vectors is possible, potentially leading to the accumulation of Bartonella
diversity over time within fleas.The ISME Journal advance online publication, 11
March 2010; doi:10.1038/ismej.2010.22.

A North Carolina State University researcher has discovered that bacteria transmitted by fleas–and potentially ticks–can be passed to human babies by the mother, causing chronic infections and raising the possibility of bacterially induced birth defects

Dr. Ed Breitschwerdt, professor of internal medicine in the Department of Clinical Sciences, is among the world’s leading experts on Bartonella, a bacteria that is maintained in nature by fleas, ticks and other biting insects, but which can be transmitted by infected cats and dogs as well. The most commonly known Bartonella-related illness is cat scratch disease, caused by B. henselae, a strain of Bartonella that can be carried in a cat’s blood for months to years. Cat scratch disease was thought to be a self-limiting, or “one-time” infection; however, Breitschwerdt’s previous work discovered cases of children and adults with chronic, blood-borne Bartonella infections–from strains of the bacteria that are most often transmitted to cats (B. henselae) and dogs (B. vinsonii subsp. berkhoffii) by fleas and other insects.

In his most recent case study, Breitschwerdt’s research group tested blood and tissue samples taken over a period of years from a mother, father and son who had suffered chronic illnesses for over a decade. Autopsy samples from their daughter–the son’s twin who died shortly after birth–contained DNA evidence of B. henselae and B. vinsonii subsp. berkhoffi infection, which was also found in the other members of the family.

Both parents had suffered recurring neurological symptoms including headaches and memory loss, as well as shortness of breath, muscle weakness and fatigue before the children were born. In addition, their 10-year-old son was chronically ill from birth and their daughter died due to a heart defect at nine days of age.

Volume 16, Number 4–April 2010

Excerpt:

We conducted a prospective study to determine causes of acute febrile illness in 4 community hospitals, 2 in Chiang Rai (northern Thailand) and 2 in Khon Kaen (northeastern Thailand). We enrolled patients >7 years of age with a temperature >38°C who were brought to study hospitals for treatment from February 4, 2002, through March 28, 2003. Patients were excluded if they had a history of fever for >2 weeks or an infection that could be diagnosed clinically. Acute-phase serum samples were collected at the time of enrollment and convalescent-phase serum samples 3–5 weeks later. We enrolled nonfebrile control patients >14 years of age who had noninfectious conditions; acute-phase serum samples were collected. Clinical information was abstracted from patient charts. Nurses conducted physical examinations and personal interviews to collect information on patients’ demographic characteristics, exposures to animals, and outdoor activities.

Serum samples were tested for immunoglobulin (Ig) G antibodies to Bartonella spp. by immunofluorescent antibody assay at the Bartonella Laboratory of the Centers for Disease Control and Prevention, Fort Collins, CO, USA. Strains used for antigen production were: B. elizabethae (F9251), B. henselae (Houston-1), B. quintana (Fuller), and B. vinsonii subsp. vinsonii (Baker). Homologous hyperimmune serum specimens were produced in BALB/c mice as previously described (8). Bartonella infection was considered confirmed in febrile patients who had a >4-fold rise in IgG antibody titers and a convalescent-phase titer >64. Probable infection was defined as 1) a 4-fold antibody titer rise but convalescent-phase titers of 64, or 2) high and stable titers (>512 in acute-phase and convalescent-phase serum samples), or 3) acute-phase titer >512 with a >4-fold titer fall. Paired serum samples from febrile patients were also tested for serologic evidence of other common causes of febrile illness in Southeast Asia.

Febrile patients with acute-phase and convalescent-phase IgG antibody titers <128 were considered not to have Bartonella infection; we compared demographic and clinical characteristics of these patients to Bartonella-infected patients. To evaluate potential risk factors, we compared Bartonella-infected case-patients >14 years of age without serologic evidence of other infections (n = 20) to nonfebrile controls with IgG to Bartonella <128 (n = 70). Age adjusted odds ratios (AORs) with 95% confidence intervals (CIs) were calculated.

Full article:  http://informahealthcare.com/doi/abs/10.3109/01913120902785567

Excerpt:

The authors present the case of a young man with aplastic anemia who went into shock and died after several red blood cell unit transfusions. Immunohematological studies did not show any abnormality and blood cultures from patients and blood bags were negative. The ultrastructural findings, allied with current scientific knowledge, permitted the diagnosis of Bartonella sp. infection. In face of this diagnosis, two possibilities should be considered: the first one is that the patient was already infected by the bacteria before the last RBC unit transfusion. The pathogen could be involved in aplastic anemia etiology and in the failure to recover hemoglobin levels, in spite of the transfusions. The second possibility is that the RBC unit was contaminated with a Bartonella sp., which would have led to a state of shock, causing the death of the patient.

Full article: http://www.lymeneteurope.org/forum/viewtopic.php?f=7&t=1336#p9502

Excerpt:

Abstract
Using PCR in conjunction with pre-enrichment culture, we detected Bartonella henselae and B. vinsonii subspecies berkhoffii in the blood of 14 immunocompetent persons who had frequent animal contact and arthropod exposure.

Attempts to isolate Bartonella sp. from immunocompetent persons with serologic, pathologic, or molecular evidence of infection are often unsuccessful; several investigators have indicated that Bartonella isolation methods need to be improved (1–4). By combining PCR and pre-enrichment culture, we detected B. henselae and B. vinsonii subspecies berkhoffii infection in the blood of immunocompetent persons who had arthropod and occupational animal exposure

The Study

From November 2004 through June 2005, blood and serum samples from 42 persons were tested, and 14 completed a questionnaire, approved by the North Carolina State University Institutional Review Board. Age, sex, animal contact, history of bites, environment, outdoor activity, arthropod contact, travel, and medical history were surveyed. Bacterial isolation, PCR amplification, and cloning were performed by using previously described methods (5–7). Each blood sample was tested by PCR after direct DNA extraction, pre-enrichment culture for at least 7 days, and subculture onto a blood agar plate (Figure). An uninoculated, pre-enrichment culture was processed simultaneously as a control. Methods used for DNA extraction and conventional and real-time PCR targeting of the Bartonella 16S-23S intergenic spacer (ITS) region and heme-binding protein (Pap31) gene have been described (7,8). Conventional PCR amplicons were cloned with the pGEM-T Easy Vector System (Promega, Madison, WI, USA); sequencing was performed by Davis Sequencing, Inc. (Davis, CA, USA). Sequences were aligned and compared with GenBank sequences with AlignX software (Vector NTI Suite 6.0 (InforMax, Inc., Bethesda, MD, USA) (7,8). B. vinsonii subsp. berkhoffii, B. henselae, and B. quintana antibodies were determined by using a modification of a previously described immunofluorescence antibody assay (IFA) procedure (9

Study participants included 12 women and 2 men, ranging in age from 30 to 53 years; all of them reported occupational animal contact for >10 years (Table). Most had daily contact with cats (13 persons) and dogs (12 persons). All participants reported animal bites or scratches (primarily from cats) and arthropod exposure, including fleas, ticks, biting flies, mosquitoes, lice, mites, or chiggers. All participants reported intermittent or chronic clinical symptoms, including fatigue, arthralgia, myalgia, headache, memory loss, ataxia, and paresthesia (Table). Illness was most frequently mild to moderate in severity, with a waxing and waning course, and all but 2 persons could perform occupational activities. Of the 14 participants, 9 had been evaluated by a cardiologist, 8 each by an infectious disease physician or a neurologist, and 5 each by an internist or a rheumatologist. Eleven participants had received antimicrobial drugs.

A total of 559 fleas representing four species (Pulex irritans, Ctenocephalides felis, Ctenocephalides canis and Spilopsyllus cuniculi) collected on carnivores (five Iberian lynx Lynx pardinus, six European wildcat Felis silvestris, 10 common genet Genetta genetta, three Eurasian badger Meles meles, 22 red fox Vulpes vulpes, 87 dogs and 23 cats) in Andalusia, southern Spain, were distributed in 156 pools of monospecific flea from each carnivore, and tested for Bartonella infection in an assay based on polymerase chain reaction (PCR) amplification of the 16 S-23 S rRNA intergenic spacer region. Continued