Sunday, 7 September 2014

Global snapshot of infectious canine cancer shows how to control disease

Whiile countries with dog control policies have curbed an infectious and gruesome canine cancer, the disease is continuing to lurk in the majority of dog populations around the world, particularly in areas with many free-roaming dogs. This is according to research published in the open access journal BMC Veterinary Research.
The survey of veterinarians across the world confirmed that Canine Transmissible Venereal Tumor (CTVT) has a global reach. Researchers from the University of Cambridge found that the countries and areas with the lowest rates of the disease also had strong dog control policies. These include managing the number of street dogs; spay and neuter practices; and quarantine procedures for imported dogs.
CTVT first originated as a tumor in a single dog that lived thousands of years ago, and by becoming transmissible, this cancer has become the oldest, most widespread and prolific cancer known in nature. It causes tumors of the genitals, and is spread by the transfer of living cancer cells between dogs during sex. The tumor cells multiply and can be sloughed off and transferred to another dog during mating. CTVT is one of only two known transmissible cancers -- the other has decimated the wild Tasmanian devil population.
Until now, no systematic global survey of the disease had been performed. To understand the global distribution and prevalence of the disease, the scientists sent a questionnaire to 645 veterinarians and animal health workers around the world. The replies showed that CTVT is endemic in dogs in at least 90 of 109 countries surveyed.
The researchers found that the only cases of CTVT reported in countries in Northern Europe, where free-roaming dogs are absent, were found in dogs that had been imported from abroad. There were no reports of CTVT in New Zealand, a country with strict dog quarantine policies. On the other hand, the disease was more likely to be present in countries or areas with free-roaming dog populations.
Andrea Strakova, University of Cambridge, said: "Although CTVT can usually be effectively treated, lack of awareness of the disease and poor access to veterinary care mean it can go untreated and impact the welfare of dogs. Research and monitoring of this disease may lead to improved methods for disease prevention, detection and treatment."
Dr Elizabeth Murchison, University of Cambridge, said: "Our study has suggested that free-roaming dogs are a reservoir for CTVT. Our review of the historical literature indicated that CTVT was eradicated in the UK during the twentieth century, probably as an unintentional result of the introduction of dog control policies. Careful management of free-roaming dog populations, as well as inclusion of CTVT in dog import/export quarantine policies, may help to control CTVT spread."
The research also highlighted the importance of dog sterilisation programs in controlling CTVT spread. However, dog spaying and neutering may not always be protective against CTVT, possibly because the disease can also be spread by biting, licking or sniffing.
The research highlights the remarkable global spread of a single canine cancer which has continued to survive beyond the animal that first spawned it.

Story Source:
The above story is based on materials provided by BioMed CentralNote: Materials may be edited for content and length.

Journal Reference:
  1. Andrea Strakova, Elizabeth P Murchison. The changing global distribution and prevalence of canine transmissible venereal tumourBMC Veterinary Research, 2014; 10 (1): 168 DOI: 10.1186/s12917-014-0168-9

Cite This Page:
BioMed Central. "Global snapshot of infectious canine cancer shows how to control disease." ScienceDaily. ScienceDaily, 3 September 2014. <www.sciencedaily.com/releases/2014/09/140903092205.htm>.

Efficacy of fowl pox vaccines against Egyptian isolated strain during 2012

5. Efficacy of fowl pox vaccines against Egyptian isolated strain during 2012 - Susan S El-Mahdy and Christine Mikheal
Veterinary World, 7(9): 656-660


   doi: 10.14202/vetworld.2014.656-660


Susan S El-Mahdy: Central Laboratory for Evaluation of Veterinary Biologics, El-Seka El-Beida St. Abbasia 131, Cairo, Egypt;prof.s.elemahdy@gmail.com
Christine Mikheal: Department of Pox Vaccines Veterinary Serum and Vaccine Research Institute, El Seka El-Beida St. Abbasia, Cairo, Egypt;chochichach@yahoo.com

Received: 01-05-2014, Revised: 16-07-2014, Accepted: 21-07-2014, Published online: 06-09-2014

Corresponding author: Susan S. El-mahdy, email: prof.s.elemahdy@gmail.com


Aim: This study was designed to evaluate the protection induced by different commercial fowl pox (FP) vaccines against local FP virus isolated from Giza governorate in Egypt during 2012.
Materials and Methods: Efficacy of FP vaccines against local field isolates was determined in seven groups of (20 birds/group) 6 weeks old specific-pathogen free chicks. Each group was vaccinated via wing web with one of different FP living vaccines and (20) chicks in group (8) did not receive any FP vaccine and served as controls. At the 3rd, 5th, 7th and 10th-da post-vaccination (DPV), all birds were examined for the presence of takes at the site of vaccination. Three weeks post vaccination, serum samples were collected, and the levels of induced antibodies were detected by passive hemagglutination (PH) test. All birds in Groups (1-8A) were challenged individually via the wing web with EID50 103.0 of the Egyptian isolated strain during 2012.
Results: Takes detected at the site of vaccination at the 3rd day were ranging from 45 to 70%. This percent increased to 80-95% at the 5thDPV with a maximum elevation of takes at the 7th DPV (90-100%). Geometric mean titer of PH assay antibody titer, 3 weeks post vaccination, was ranging between 5.60 and 9.60 according to the type of vaccine used and with protection 90-100%.
Conclusion: Efficacy of some commercial FP vaccines used in the poultry field against the Egyptian isolated strain during 2012 ranged between 90% and 100% according to the type of used vaccine.

Keywords: chickens, fowl pox vaccines, local Egyptian isolated strain.

Detection of natural prevalence and infection of ixodid ticks with Theileria equi in hilly equines of Palam valley (India)

4. Detection of natural prevalence and infection of ixodid ticks with Theileria equi in hilly equines of Palam valley (India) Prateek Kashyap, Aman D. Moudgil and Pallavi
Veterinary World, 7(9): 652-655


   doi: 10.14202/vetworld.2014.652-655


Prateek Kashyap: ERA and Brooke India, Equine Welfare Unit, Palampur, Kangra, Himachal Pradesh, India; prateekpandit0871@gmail.com
Aman D. Moudgil: Department of Veterinary Parasitology, College of Veterinary Science, Guru Angad Dev Veterinary & Animal Sciences University, Ludhiana, Punjab, India; moudgil.aman@gmail.com
Pallavi: Division of Veterinary Public Health, Indian Veterinary Research Institute, Izatnagar, Bareilly, Uttar Pradesh, India;upadhyayapallavi.31@gmail.com
Received: 01-06-2014, Revised: 22-07-2014, Accepted: 31-07-2014. Published Online: 06-09-2014
Corresponding author: Prateek Kashyap, email: prateekpandit0871@gmail.com


Aim: The aim was to study the prevalence of tick infestation in equines of Palam valley and specific detection of Theileria equi infection in tick samples with nested polymerase chain reaction (PCR) based assay.
Materials and Methods: In order to study the prevalence of ixodid tick population in hilly equines and their potential role in the transmission of T. equi, a total of 74 ticks were collected from apparently healthy equines, which were then processed and identified by classical parasitological technique. The molecular techniques (nested PCR) were applied for identification of infection of T. equi.
Results: The ticks (n=74) collected from apparently healthy equines belonged mainly to three different species, of which 42 (56.75%) wereRhipicephalus microplus, whereas 16 (21.62%) were of Hyalomma species and 16 (21.62%) were of Hemaphysalis species. A total of 21 (30%) ticks were recovered from male and 53 (75.7%) from female equines. Adult equines harbored 94.6% (n=70) when compared to 5.4% (n=4) harbored by young ones. On nested PCR amplification an amplicon of 665 bp size specific for T. equi was detected in 6.75% (5/74) ticks (in 7.5% ticks recovered from a female and 4.7% from male equines).
Conclusion: Nested PCR assay resulted in significantly higher efficacy of detection of the parasite in ticks. These results clearly demonstrate the presence of equine theileriosis in hilly northern state of the country and potential roles of ticks (R. microplusHaemaphysalis andHyalomma species) in its transmission.

Keywords: equines, Himachal Pradesh, nested polymerase chain reaction, Theileria equi

Relationships among frozen-thawed semen fertility, physical parameters, certain routine sperm characteristics and testosterone in breeding Murrah buffalo (Bubalus bubalis) bulls

3. Relationships among frozen-thawed semen fertility, physical parameters, certain routine sperm characteristics and testosterone in breeding Murrah buffalo (Bubalus bubalis) bulls - A. K. Singh, P. S. Brar and R. S. Cheema
Veterinary World, 7(9): 644-651


   doi: 10.14202/vetworld.2014.644-651


A. K. Singh: Department of Veterinary Gynaecology and Obstetrics, Guru Angad Dev Veterinary and Animal Sciences University, Ludhiana - 141 004, Punjab, India; assengar2001@yahoo.co.in
P. S. Brar: Department of Veterinary Gynaecology and Obstetrics, Guru Angad Dev Veterinary and Animal Sciences University, Ludhiana - 141 004, Punjab, India; PSB: parkashbrar@gmail.com
R. S. Cheema; Department of Veterinary Gynaecology and Obstetrics, Guru Angad Dev Veterinary and Animal Sciences University, Ludhiana - 141 004, Punjab, India; ranjna.cheema@gmail.com

Received: 23-04-2014, Revised: 07-07-2014, Accepted: 12-07-2014, Published online: 06-09-2014

Corresponding author: A. K. Singh, e-mail: assengar2001@yahoo.co.in


Aim: The present study was carried out to examine the relationships among frozen-thawed semen fertility, physical parameters, seminal quality, and testosterone concentration in Murrah buffalo bulls.
Materials and Methods: A total of 30 breeding Murrah buffalo bulls (either progeny tested or under progeny testing program) were randomly selected from two government bull farms in Punjab. None of the bulls selected for this study had any preceding physical abnormality. A field fertility trial was conducted to determine the first service conception rate (FSCR). The number of females inseminated per bull semen was 10. All the bulls were inspected for structural soundness, measurement of scrotal circumference, testicular biometry, and internal pelvic area (IPA). Frozen-thawed semen was evaluated for total motility, progressive motility, viability, concentration, abnormality, and hypo-osmotic swelling test (HOST). Testosterone was estimated in blood plasma, seminal plasma as well as frozen-thawed semen extracts for establishing relationship.
Results: The FSCR was 48% in the bulls having a scrotal circumference of 44 cm, although, there was no significant correlation between FSCR and scrotal circumference. Similarly, no consistent relationship existed between sperm concentration and scrotal circumference. A positive correlation was observed between IPA and FSCR (r=0.294). Of the six post-thaw seminal components (total motility, progressive motility, viability, HOST (%), total abnormality and concentration) only total motility had a high significant (p<0.01) correlation with FSCR (r=0.694). Varied correlations existed between other seminal parameters and fertility. Using a simple regression analysis, the post-thaw motility, IPA, prepuce length and testosterone (independent variables) combined to explain approximately 62% of the variation in the FSCR (dependent variable).
Conclusion: The present study indicated that despite low to high correlations between seminal characteristics, physical parameters, fertility, and testosterone; the observations support the importance of these components and their function in maintaining semen quality and subsequent fertility.

Keywords: buffalo spermatozoa, fertility, pelvic area, scrotal circumference, testosterone.

Tuesday, 2 September 2014

Effect of dietary supplement of sugar beet, neem leaf, linseed and coriander on growth performance and carcass trait of Vanaraja chicken

2. Effect of dietary supplement of sugar beet, neem leaf, linseed and coriander on growth performance and carcass trait of Vanaraja chickenPunita Kumari, Chandramoni, Kaushalendra Kumar and Sanjay Kumar
Veterinary World, 7(9): 639-643


   doi: 10.14202/vetworld.2014.639-643


Punita Kumari: Department of Animal Nutrition, Bihar Veterinary College, Patna - 800 014, Bihar, India; puneeta.kri@gmail.com
Chandramoni: Department of Animal Nutrition, Bihar Veterinary College, Patna - 800 014, Bihar, India; chandramoni108@rediffmail.com
Kaushalendra Kumar: Department of Animal Nutrition, Bihar Veterinary College, Patna - 800 014, Bihar, India; drkaushalbvc@gmail.com
Sanjay Kumar: Department of Animal Nutrition, Bihar Veterinary College, Patna - 800 014, Bihar, India; sanjayvet29@rediffmail.com

Received: 11-03-2014, Revised: 04-07-2014, Accepted: 10-07-2014, Published online: 02-09-2014

Corresponding author: Punita Kumari, email: puneeta.kri@gmail.com



Detection of tetracycline resistance determinant tetA gene and antimicrobial resistance pattern in Escherichia coli isolates recovered from healthy layer chickens

1. Detection of tetracycline resistance determinant tetA gene and antimicrobial resistance pattern in Escherichia coli isolates recovered from healthy layer chickens - A. Balasubramaniam, M. Arthanari Eswaran, P. Suresh and K. Sukumar
Veterinary World, 7(9): 635-638


   doi: 10.14202/vetworld.2014.635-638


A. Balasubramaniam: Department of Veterinary Microbiology, Veterinary College and Research Institute, Namakkal, Tamil Nadu, India;
balasubramaniam72@gmail.com
M. Arthanari Eswaran: Department of Veterinary Microbiology, Veterinary College and Research Institute, Namakkal, Tamil Nadu, India;
drarthu@gmail.com
P. Suresh: Department of Veterinary Microbiology, Veterinary College and Research Institute, Namakkal, Tamil Nadu, India;vet_suresh@yahoo.com
K. Sukumar: Department of Veterinary Microbiology, Veterinary College and Research Institute, Namakkal, Tamil Nadu, India; drksugu@gmail.com

Received: 06-05-2014, Revised: 02-07-2014, Accepted: 12-07-2014, Published online: 02-09-2014

Corresponding author: A. Balasubramaniam, email: balasubramaniam72@gmail.com


Aim: The aim was to study the occurrence of tetracycline resistance determinant tetA gene, and antibacterial resistance pattern in commensal Escherichia coli recovered from healthy non-clinical layer chickens.
Materials and Methods: Twenty-four cloacal swabs were obtained from 15 flocks in five different layer farms located at around Namakkal, which is a place of high-intensity layer chicken rearing in south India. Identification of E. coli was carried out by performing cultural and biochemical tests. Antimicrobial resistance test was carried out using disc diffusion method. The polymerase chain reaction employingtetAC forward and tetAC reverse primers were carried out to detect tetA gene conferring resistance to tetracycline.
Result: All the collected cloacal swabs yielded E. coli. Twenty-one isolates (88%) were resistant to tetracycline antibiotic in disc diffusion method. All the isolates showed resistance to more than six antibiotics, which implied existence of multidrug resistant microbiota in intestine of poultry. Only seven (29%) isolates showed the presence of tetA gene indicating the involvement of either other one or more efflux gene(s), namely tetB, tetC and tetD or ribosomal protection encoded by tetM, tetO, tetQ and tetS genes than tetA gene.
Conclusion: Based on the presence of tetA gene among tetracycline-resistant bacteria in healthy non-clinical food-producing animals such as layer chickens, it can be significant in human medicine as tetA gene could easily be spread to other bacteria. This kind of phenomenon can be extrapolated in transfer of resistance for other antibacterial essential for treating bacterial infections in human. We conclude that preventing the spread of antimicrobial resistance through direct or indirect contact, consumed food/feed and through the environment is empirical in reduction of failures while treating bacterial infections.

Keywords: antibacterial resistance, Escherichia coli, tetA gene, tetracycline.

Sunday, 31 August 2014

Pandemic influenza preparedness and response - WHO guidance document

Pandemic influenza preparedness and response

WHO guidance document

Share
Authors:
World Health Organization

Overview


WHO previously published pandemic preparedness guidance in 1999 and a revision of that guidance in 2005. Since 2005, there have been advances in many areas of preparedness and response planning. For example, stockpiles of antiviral drugs are now a reality and a WHO guideline has been developed to attempt to stop or delay pandemic influenza at its initial emergence. There is increased understanding of past pandemics, strengthened outbreak communications, greater insight on disease spread and approaches to control, and increasingly sophisticated statistical modeling of various aspects of influenza.
Extensive practical experience has been gained from responding to outbreaks of highly pathogenic avian influenza A (H5N1) virus infection in poultry and humans, and from conducting pandemic preparedness and response exercises in many countries. There is greater understanding that pandemic preparedness requires the involvement of not only the health sector, but the whole of society. In 2007, the International Health Regulations (2005) (IHR, 2005) entered into force providing the international community with a framework to address international public health concerns.
In light of these developments, WHO decided in 2007 to update its guidance to enable countries to be better prepared for the next pandemic. Therefore this document published in April 2009 replaces the WHO Global Influenza Preparedness Plan (WHO/CDS/CSR/GIP/2005.5). This document should be used in conjunction with the WHO checklist for influenza preparedness planning published by the World Health Organization in 2005.
This guidance has been superseded by the Pandemic Influenza Risk Management Guidance: