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Rodney Crowell Outsider Rock Music CD Review

The exceptionally talented Rock artist Rodney Crowell has released him CD entitled Outsider. I am very confident and happy to announce that I believe Rodney Crowell fans, and Rock fans alike will be pleased with this one. With the release of Outsider Rodney Crowell’s artistic excellence is on full display as Crowell has once again delivered a brilliant collection of tracks that could very well be him best work to date.

Refreshingly, this was one of those CDs I was able to just pop in and comfortably listen to from beginning to end. Every track is enjoyable and was pretty easy for me to listen to from start to finish.

Rodney Crowell possesses the characteristic of being able to win you over with him talent alone. The kind of artist I really enjoy listening to.

Listen to Outsider and I believe you’ll find there’s not much to dis-like about it. The songs are inspired, the production is simply outstanding, and Rodney Crowell is clearly in top form. So much so that if you’re even mildly into Rock music you’ll enjoy this album.

While the entire album is really very good the truly standout tunes are track 6 – Don’t Get Me Started, track 9 – Things That Go Bump In The Day, and track 11 – We Can’t Turn Back.

My Bonus Pick, and the one that got Sore [...as in "Stuck On REpeat"] is track 1 – Say You Love Me. It’s a great track!

Outsider Release Notes:

Rodney Crowell originally released Outsider on August 16, 2005 on the Columbia label.

CD Track List Follows:

1. Say You Love Me 2. Obscenity Prayer, The (Give It To Me) 3. Outsider, The 4. Dancin’ Circles Round The Sun (Epictetus Speaks) 5. Beautiful Despair 6. Don’t Get Me Started 7. Ignorace Is The Enemy 8. Glasgow Girl 9. Things That Go Bump In The Day 10. Shelter From The Storm 11. We Can’t Turn Back

Outsider Album Notes Personnel include: Emmylou Harris (vocals); Will Kimbrough (electric guitar); Steve Fishell (steel guitar); Jonathan Yudkin (fiddle); John Mock (tin whistle, concertina); John Hobbs (organ); Tony Harrell (keyboards); Michael Rhodes (bass guitar); Eddie Bayers, Shannon Forrest (drums).

Get this song for free at my website! audioslavelover.ueuo.com Please subscribe Staind Outside And you, Can bring me to my knees Again All the times That I could beg you please In vain All the times That I felt insecure For you And I leave My burdens at the door But I’m on the outside And I’m looking in I can see through you See your true colors ‘Cause inside you’re ugly You’re ugly like me I can see through you See to the real you All the times That I felt like this won’t end It’s for you And I taste What I could never have It was from you All the times That I cried My intentions Were full of pride All I waste More time than anyone But I’m on the outside And I’m looking in I can see through you See your true colors ‘Cause inside you’re ugly You’re ugly like me I can see through you See to the real you All the times That I’ve cried All this wasted It’s all inside And I feel All this pain Stuffed it down It’s back again And I lie Here in bed All alone I can’t mend But I feel Tomorrow will be okay But I’m on the outside And I’m looking in I can see through you See your true colors ‘Cause inside you’re ugly You’re ugly like me I can see through you See to the real you

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Harley Builds 3-wheel Motorcycles – Harley Magazine Review of the 2009 Tri-glide

The rumor mill never seems to slow down when it comes to Harley-Davidson and its future bikes. I guess that kind of passion and curiosity is what drives the MoCo. The rumor of a factory Harley-Davidson trike making a comeback after more than three decades is true. The new Tri Glide Ultra Classic will be available at your local Harley dealer in limited numbers as a 2009 model. 

Let’s start with what the machine is and isn’t. It is a genuine Harley-Davidson covered by a full factory 2 year warrantee. It is manufactured by Harley in association with Lehman Trikes of South Dakota. It lists for ,999 (in the US) and is available in the 48 contiguous US states and Canada. It is well engineered, looks good and is a blast to ride. It isn’t a warmed over Lehman trike. I don’t know why this project was internally nicknamed “Boomer” but it was, and now you know.

What’s involved in riding a trike verses a bike? Well, let’s just say that they are exactly the same only different. Quite different. Same throttle, clutch, shifter and brakes. But the handling is more like a car because trikes don’t lean, they steer around turns. So get used to pulling on one side of the handlebars and pushing on the other through the turns. And, thanks to all the extra weight out back, you’ll have to slip the clutch a bit more and give it a bit more throttle coming off a stop than with a bike. Plus you can keep your feet on the floorboards all the time, even at a full stop. And always remember that your machine is a lot wider than a bike, even a bagger, when going through narrow spaces. And just because you missed the pothole in the road with your front tire doesn’t mean you’ll miss it with your rear ones. And. . . well you get the idea. Trikes and bikes are simply different.

Out on the road the Tri Glide is impressive. I have ridden several old and new trikes over the years and feel this is the best of the breed. Superior handling, a healthy power train and top notch fit and finish – and this was on a pre-production model! The low and high speed handling is more neutral than I expect from a trike. I suspect the purpose-build frame and specific fork geometry and rear suspension has a lot to do with that. Once you get used to slipping the clutch slightly from a dead stop and push/pull steering on the handlebars, riding the Tri Glide is a blast. I predict these machines will sell out quickly with a waiting line once word is out on how much fun they are.  Anyone who has ridden a two-wheel motorcycle will quickly take to the Tri Glide and will be confidently cruising the highways and slicing through zig zag turns on back roads in no time.

In our discussions with Harley’s marketing and engineering staff we heard how the main goal for the Tri Glide was “to extend riding access” which we took to mean extending the riding season (trikes handle better in snow, ice and rain than bikes do) as well as making people more comfortable riding a stable three-wheeler than a less stable two-wheeler. The Harley staffers told us their target customers tend to be more experienced riders.  One of the senior people confided in us “A lot of people who try a Tri Glide for the first time are pleased and surprised with the ride.” After we put some miles on one we have to agree,

Unlike any other current model Harley-Davidson that I am aware of, the host portion of the new Tri Glides are built on a new assembly line in the York factory. It is then shipped to the Lehman factory in South Dakota to be finished. From there, the complete machines are shipped to Milwaukee where they are forwarded on to the dealer network. When we asked about the relationship between Lehman Trikes and Harley-Davidson we were told that Lehman is actively involved in the process, but the Harley Tri Glides are quite different than Lehman’s own Ultra-based trikes. While the Lehman version uses a modified stock Harley FL frame and one-piece rear body section, the Tri Glides use unique, purpose-built frames and separate rear body sections and fenders. Harley assured us the current association with Lehman is not based on a buy-out or a joint venture. Harley views Lehman as a supplier.

OK, so what else is unique or unusual about the Tri Glide? We have already touched on the specific-to-this-model frame with increased fork angle and less trail for better steering effort. It has an electronic hand control to activate the optional electric reverse motor. The front forks are longer than those on the two-wheel Ultras and have an external steering stabilizer for a more consistent ride.

The front wheel is a 16 inch hoop, the rears are 15 inchers. The wheels and brake rotors all match. Machines with this much weight need good brakes, and the front dual Brembos are up to the task.  The 103 cubic inch engine mated with a heavy duty police-style clutch offers sufficient power to get down the road quite smartly. The Tri Glide has a unique transmission case and rear mounts are also different from the stock Harley Ultra two-wheel version. There is a standard oil cooler to help keep engine temperatures down, and the new for 2009 mufflers compliment the modified header pipes.

              

The Tour Pak is rated for up to 30 pounds of cargo, and the trunk, featuring hidden hinges and a lockable latch, can handle an additional 50 pounds in 4.3 cubic feet. We like the rear fenders are separate from the trunk and attached to it. Typically the trunk and rear fenders on most trikes are built as one unit making repairs or replacement quite expensive. 

Apparently Harley management had been considering the possibility of adding a trike to the line-up for some time but there were many issues to deal with. These included safety concerns, marketing options, and manufacturing challenges. When we asked about the stability of a Tri Glide in various real world riding conditions, one of the Harley engineers responded by saying they designed it with several goals in mind. “We wanted it to slip” he said, “before it would tip.”

2 critical measures the trike had to pass were the lane change maneuver at highway speeds, and the steady state turn (in tight circles at increasing speeds). The trike accomplished both with room to spare. Harley management ok’d the project when they realized the Ultra-based Tri Glide can go faster and corner harder than a stock Harley Ultra motorcycle “so we felt a comfort zone there.”

All the 2009 Tri Glides will be based on Ultra Classics. But Harley isn’t saying whether this might change in the future to expand across other models using V-Rods, Dynas or Sportsters as the base. However, given the fact that Harley considers the Tri Glide a new separate model platform, I’d bet there are more variations in the works. Personally, I’d like to see a water-cooled V-Rod powered trike.

Harley is planning on building only 2500 Tri Glides for 2009 in three color options – Vivid Black, Dark Blue Pearl or Red Hot Sunglo, and plans are for them to be available in Harley dealerships in August 2008. MSRP is ,999, which is significantly less than a similar Lehman Harley Ultra, and the Tri Glide comes with a 2-year factory warrantee. Want one? Better get your name and deposit to your dealer ASAP. They are going to go fast.

Interested in learning more about Harley motorcycles, from Sportsters to Softails and touring FL motorcycles? Check out motorcycle bulletin board and Harley forum www.aimag.com, run by American Iron Magazine, where this article was first published.

A Review on Clinical Laboratory Outbreak of Sudden Death Syndrome in Broiler Chicken in Kathmandu Valley Nepal

A Review on Clinical Laboratory Outbreak of Sudden Death Syndrome in Broiler Chicken in Kathmandu Valley Nepal

Kedar Karki ; Pragya Koirala

Central Veterinary Laboratory in Kathmandu Tripureshwor Nepal

 

ABSTRACT:

Sudden death of broiler birds of above 40 days was suddenly increased in the month of August 2008 in Kathmandu valley. Birds which were presented for post-mortem examination in Central Veterinary Laboratory Tripureswor Kathmandu were usually found dead on their backs with wings out-stretched. Incidence of this condition recorded was between 1.5 to 2.5% of the flock. The mean mortality due to sudden death syndrome was 1.3 – 9.6% and mortality was peak after 6 week of age. Post-mortem necropsies of birds affected by Sudden Death Syndrome were well-fleshed with edema and general pulmonary congestion. Feed was present along the entire digestive tract and the gall bladder was empty. The liver and kidneys were slightly congested and have patchy subcapsular hemorrhage. The heart was containing clotted blood in the atria and the ventricles are most often empty. Microbial and Mycobial culture of tissue samples of liver, lung, spleen, Proventriculus revealed in majority of samples the growth of Penicillium and Aspergillus spp of fungus and E.coli and Staphylococcus spp of bacteria. On feed restriction, supplementation of glucose containing electrolyte, liquid toxin binder, Immunomodulaters, acidifier and antibiotic reduced the mortality. The condition seems to be related to fast growth rate . In extreme situations, feed restriction need to be practiced which will virtually eliminate sudden death syndrome. A practical approach seems to use diets with 5-7% reduction in nutrient density. Giving more space and supportive treatment with anti-stress medicine may be beneficial.

 

Key word:

Sudden death syndrome , broiler birds, Microbial and Mycobial culture, Penicillium and Aspergillus spp of fungus, feed restriction, glucose containing electrolyte, liquid toxin binder, Immunomodulaters, acidifier,

 

Background of outbreak of Sudden Death Syndrome in Kathmandu Valley.

 

 

During the first week of August 2008 there sudden increase in mortality of broilers of above 6 week age. Just before death birds appear normal and it is common to observe that these birds will be feeding, drinking or walking normally. Birds exhibit clinical signs such as extending their neck, squawk and start wing beating as well as leg extension before fall back on their back and birds used to die suddenly. Post-mortem necropsies of birds affected by Sudden Death Syndrome were well-fleshed with edema and general pulmonary congestion. Feed was present along the entire digestive tract and the gall bladder was empty. The liver and kidneys were slightly congested and have patchy subcapsular hemorrhage. The heart was containing clotted blood in the atria and the ventricles are most often empty.

 

Material and Methods:

1: Clinical Epidemiological observation of affected flocks.

 

2: Post-mortem examination and Microbial and Mycobial evaluation of tissue samples.

 

3: Evaluation of possible treatment and preventive measure

 

 Epidemiology of Affected flock with sudden Death Syndrome in Month of August 2008:

Table: 1

Duration

no.of farm

Population at risk

Morbidity

Mortality

no.of samoles

 

First week

22

16620

4250

369

44

Second week

14

15450

1235

232

28

Third  week

20

10260

848

157

40

Fourth week

30

15700

2380

149

60

Total

86

58030

8713

907

172

 

 Postmortem finding of SDS birds:

 

Postmortem finding of birds which died of sudden death syndrome revealed all birds were well-fleshed with edema and general pulmonary congestion. Feed was present along the entire digestive tract and the gall bladder was empty. The liver and kidneys were slightly congested and have patchy subcapsular hemorrhage. The heart with containing clotted blood in the atria and the ventricles were most often empty. The edematous lung was observed. There was milky fluid in proventricular gland and intact food particles were present in gizzard, spleenomegally to spleeno atrophy was observed in almost all birds which were examined.

 

Laboratory Finding of Mycobiota and Micro biota of Postmortem Tissue samples:A total 86 tissue samples of lung,liver,speen,peoventriculus gizzard,were collected during postmortem examination and were subjected for both bacterial and mycological culture in respective media for culture and identification laboratory findings of which is presented below.

Table: 2

 

Samples numbers

Bacterial spp isolated

Fungal spp.isolated

Positive no

negative no

86

E.coli,Streptococcus,Staphylococcus spp.

 

59

27

86

 

Aspergillus,Penicillium,Candida spp

58

28

172

 

 

117

55

 

Treatment and Preventive measure advised to rest of birds in flock:

 

All birds remaining in flocks were advised two restrict the feed up to 8-10% and feed to twice daily only. Along with this it was advised to supplement glucose containing electrolyte liquid toxin binders like toxolivum ,toxol, kokonil, immunomodulater like immunocare,and and simple broad-spectrum antibiotics were advised to provide in water while supplementation of multivitamin B complex was totally withdrawn .

 

Review of literatures:

Sudden Death Syndrome is an acute heart failure disease that affects mainly male fast growing chickens that seem to be in good condition. The birds suddenly start to flap their wings, lose their balance, sometimes cry out, and then fall on their backs or sides and die; usually all within a minute (Satya 1).Sudden Death Syndrome kills 0.1% to 3% of broilers in European Countries.  UK survey of broiler ascites and sudden death syndrome in 1993(The Welfare of Broiler Chicken 2). H.A. Upandra reported that  Broilers that die of sudden death syndrome show no specific abnormalities. Birds usually male, appear healthy and are often above average flock body weight. Just before death birds appear normal and it is common to observe that these birds will be feeding, drinking or walking normally. Birds exhibit clinical signs such as extending their neck, squawk and start wing beating as well as leg extension before fall back on their back. Hence some farmers call this condition as cases of heart attack. Death occurs within minutes. Post mortem examination fails to exhibit any specific lesion. Hence it is also considered as a Behavioral Disease. However many workers who recorded behavioral pattern of birds concluded that there is no single behavior pattern can be attributed to this condition.

 

Pathology of sudden death syndrome is studied many workers and they found that birds affected by sudden death syndrome are always well-fleshed with edema and general pulmonary congestion. Feed is present along the entire digestive tract and the gall bladder is usually empty. The liver and kidneys may be slightly congested and have patchy subcapsular hemorrhage. The heart may contain clotted blood in the atria and the ventricles are most often empty. The edematous lung observed in cases of SDS was thought to be the contributing factor of death but in all probabilities it is a normal observation in birds that on their back for some time.

 

A number of studies have been aimed at correlating changes in tissue mineral, electrolyte and fat content as it relates to Sudden Death Syndrome. Sudden Death Syndrome affected birds showed elevated levels of liver calcium and reduced iron in lungs and kidneys. A small but statistically significant reduction in the potassium content and an increase in sodium content of heart tissue are also reported in Sudden Death Syndrome birds. However it is not known if these changes are causative or the consequence of Sudden Death Syndrome.

 

Because female broilers have a much lower incidence of Sudden Death Syndrome and Leghorns of either sex rarely show the condition, a comparative study was made in male broiler birds using either female broilers or Leghorn birds as control in studying the blood parameters. Male birds consistently exhibited elevated levels of blood glucose, Blood uric acid and lactate dehydrogenase as compared to females birds. As far as blood electrolyte study is considered, Sudden Death Syndrome birds had higher levels of blood potassium. These data again pose the question of how to interpret biochemical profiles of Sudden Death Syndrome birds, because in most instances, birds have been dead for some time prior to blood sampling.

 

Other factors such as diet texture and restriction programs have been studied with a view to isolating causative agents in Sudden Death Syndrome . It is reported that feed restriction can reduce mortality due to Sudden Death Syndrome in broiler chicks but feed restriction can reduce the body weight of these birds. It is concluded that Sudden Death Syndrome can be prevented by growing birds at a slower rate.

 

Diet protein per se seems to have little effect on Sudden Death Syndrome . Relatively little research aimed at investigating the role of dietary aminoacids on incidence of SDS is taken up. Taurine is considered to be a non-essential amino-acids for poultry. While avian species are assumed to synthesize sufficient taurine, reduced cardiac taurine levels have been associated with heart tissue degeneration in turkeys. Furazolidone is known to cause heart muscle degeneration in turkeys and this is accompanied by reduction in tissue taurine levels. Feeding up to 0.2% taurine to broilers resulted in a small reduction in incidence of Sudden Death Syndrome.

 

Use of various sources of energy in the diet has also been suspected in affecting the occurrence of Sudden Death Syndrome. The replacement of carbohydrate by fat is suspected to be a factor. The occurrence of Sudden Death Syndrome seems to be increased by feeding hydrogenated fat such as coconut oil as compared to birds fed comparable levels of unsaturated sunflower oil.

 

Biotin has been singled out most frequently among vitamins as a possible factor in Sudden Death Syndrome. It is suggested that biotin may be an important factor in increasing the occurrence of Sudden Death Syndrome if it is complicated by the incidence of fatty liver and kidney syndrome. The Sudden Death Syndrome seems to be worse when biotin is marginal and other Vitamin B are in excess.

 

Among many drugs used in poultry the role of anticoccidial drugs perhaps have received more attention than other drugs. There is some evidence of higher Sudden Death Syndrome mortality when anticoccidial drugs are used. Historically the occurrence of Sudden Death Syndrome does coincide with the introduction of the ionophore anticoccidials. However the involvement of ionophores in Sudden Death Syndrome is far from clear and typical pathological lesion of ionophore toxicity have not been reported in Sudden Death Syndrome diagnosed birds.

 

It is obvious that there is no one treatment or preventive system for the control of SDS in broilers. The condition is undoubtedly related to fast growth rate and as such management techniques to reduce the early maximum genetic potential for growth after the best preventive measure. One of the most successful techniques used to hamper early growth rate is a step-down lighting programme. Broilers are subjected to reduced day light between 5-18 day of growth. This effectively reduces feed intake and so hampers early growth rate. In extreme situations, feed restriction can also be practiced and this will virtually eliminate Sudden Death Syndrome. A practical approach is to use diets with 5-7% reduction in nutrient density. Giving more space and supportive treatment with anti-stress medicine may be beneficial (H.A. Upandra). Sudden death syndrome in fast growing broiler chickens has been recognized as a patho-physiological entity for four decades, but its pathogenesis still remains unknown. More recent investigations provided evidence that link SDS to cardiac arrhythmia, but the mechanism triggering arrhythmogenesis and factors responsible for fatal outcome are poorly understood. In order to understand the chain of events leading to Sudden Death Syndrome in broilers, the present study focused on putative mechanisms that trigger arrhythmia and mechanisms that predispose the myocardium to fatal arrhythmia. Susceptibility of broilers to cardiac arrhythmia under stress conditions was evaluated using a simulated stress test with epinephrine. Detailed histopathological evaluation of the broiler heart was undertaken to identify structural features that may predispose the myocardium to fatal arrhythmia. The simulated stress challenge revealed that many broilers are highly susceptible to stress induced cardiac arrhythmia. In some broilers the stress challenge induced severe ventricular arrhythmia, and the life threatening nature of this arrhythmia was evidenced by the fact that several birds showing the most severe arrhythmic responses, died suddenly within several days after the stress challenge. Examination of hearts of broilers that died of Sudden Death Syndrome revealed microscopic lesions in the cardiomyocytes, and widespread changes in the sub-endocardial and mural His-Purkinje system (HPS). Immune staining for Caspase-3 confirmed that numerous Purkinje cells in the left ventricular myocardium from broiler chickens that died of SDS were undergoing apoptosis. The observed lesions suggest that the electrical stability of the myocardium was compromised. Taken together, our findings indicate that stress is a most likely trigger of cardiac arrhythmia in broilers, whereas the pathological changes seen in the myocardium and in the HPS in fast growing broilers provide a very conducive milieu for sustained ventricular arrhythmia. In cases where the electrical stability of the myocardium is compromised, even an episodic arrhythmic event may readily degenerate to catastrophic ventricular fibrillation and sudden death. We conclude that the combination of stress and changes in the cardiomyocytes and HPS are the key requisite features in the pathogenesis of SDS (4 A A Olkowski, C Wojnarowicz, S Nain, B Ling, J M Alcorn, B Laarveld). A condition of broiler chickens of unknown cause, possibly metabolic. It can be induced by lactic acidosis and about 70% of birds affected are males(5 www.thepoultrysite.com/diseaseinfo/146/sudden-death-syndrome-flipover ). Sudden death syndrome usually occurs in heavy, fast-growing and healthy-looking broilers. Most of the affected birds are males. The characteristic necropsy changes are seen in well-fleshed broilers with edema and generalized pulmonary congestion, recently ingested feed in the crop and gizzard, distended intestine with creamy content and empty gall bladder. The liver and kidneys are slightly enlarged and the latter have patchy areas of subcapsular hemorrhage. The heart contains clotted blood in the atria but the ventricles are often empty and the left ventricle in particular assumes a hypertrophied appearance (6 J.C. Ononiwu, R.G. Thomson, H.C. Carlson, and R.J. Julian). A syndrome specifically associated with broiler breeders. Clinical signs – Mortality ranging from 0.5 to 8% per week with most of the birds dying at feeding time. No evidence of respiratory infection. Commences as flock reaches about 5% production and being worst about 20-30% production. It is believed that this is most likely to be due to a mineral imbalance associated with low potassium as the flock comes into lay. Treatment including 3.5Kg/tonne of potassium carbonate has reduced the incidence (7 members.tripod.com/poultryworld/dis_dir.htm).

 

Result and Discussion:

 

All the birds remaining in all affected flocks responded to the above treatment management and there was marked improvement in controlling of the syndrome.As todays broiler birds are genetically so engineered that  they are suppose to achieve maximum body weight gain during the schedule period of 45days there is trend of using feed additives which  also exerts some health problem in broiler as well they causes the problem like tibial dyschondroplacia in heavey weight broiler  has been reported by many workers in Europe and elesewhere.As today universally a total of 30-35 grains are being contaminated with one or other toxigenic fungus whose deleterious effect on livestock and poultry health has been well documented were it causes sudden death also coincides with finding of this observation. Further more especially during hot humid season whish increases stress to birds as well as there is a conducive environment for the growth of mold and fungus also provides higher risk to the birds for the deleterious effect of mycotoxin  in broiler health.Still today so far in the management of mycotoxin and mycosis only there is practice of using toxinbinders only during feed formulation process in feed mills.Which alone is not suffient to minimize effect to fungal contamination during storage if poultry especially broilers of finisher age have to protected some management pattern need to be changed. 

 

Conclusion and recommendation:

All clinical laboratory and epidemiological patterns observed in this investigation indicates that broilers in good body weight condition when not harvested timely and remain in poultry shade for prolong time due to the congestion of space enhances a stress factor. Along with this with increase in humidity and hot season favors the growth of mold and fungus in stored feeds there was increasing the risk of birds to mycosis. Under such circumstances birds are in danger to be affected by mycotoxicosis under such situation if a proper preventive measure to prevent the deleterious effect of mycotoxin is not under taken any time an unexpected syndrome may appear in poultry establishment. As this was a sudden mortality in broiler has been reported for first time finding of this invested need to be looked into.

 

 

 

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Reference:

1: Satya Feb 06: The Real Cost of Cheap Chicken by Joyce D’Silva www.satyamag.com/feb06/dsilva.html – Retrieved on 8 August 2008

2:The Welfare of Broiler Chicken ciwf.org.uk/publications/…/the_welfare_of_broiler_chickens_2000.pdf – Retrieved on 8 August 2008

 

3: SUDDEN DEATH SYNDROME:Dr. H.A. Upandra, Associate Professor, Dept. of Clinical Veterinary Medicine, Veterinary College, UAS, Bangalore: www.vetcareindia.com/halchal_sudden%20syndrome.htm – 15k – Retrieved on 8 August 2008

 

 

4: Res Vet Sci. 2007 Sep 26; : 17904171 (P,S,E,B,D) A study on pathogenesis of sudden death syndrome in broiler chickens.  A A Olkowski, C Wojnarowicz, S Nain, B Ling, J M Alcorn, B Laarveld : lib.bioinfo.pl/pmid:17904171 – 62k. Retrieved on 8 August 2008

 

 

5: Sudden Death Syndrome, ‘Flipover’ ThePoultrySite Quick Disease Guide www.thepoultrysite.com/diseaseinfo/146/sudden-death-syndrome-flipover- Retrieved on 8 August 2008  

 

6 : Pathological Studies of “Sudden Death Syndrome” in Broiler Chickens

J.C. Ononiwu, R.G. Thomson, H.C. Carlson, and R.J. Julian

:www.pubmedcentral.nih.gov/articlerender.fcgi?artid=1789498- Retrieved on 8 August 2008

 

 

7: THE A-Z POULTRY DISEASE INDEX: members.tripod.com/poultryworld/dis_dir.htm- Retrieved on 8 August 2008

 

Acknowledgement:

We would like to extend our sincier thanks to Dr.Dev Raj Adhikari SVO and incharge of Central Veterinary Hospital Tripureshwor, Kathmandu for providining early indication of problem. Our gratitude goes to the all broiler farmers of Kathmandu Valley for cooperating with this investigation team through out the observation period. Mr.Bal Bahadur Kunwar Srnior Vet.Technician and Mr.Bhimsen Adhikari Vet.Technician of Microbioly Unit of Central Veterinary Laboratory for their tedious work in lab for cultureing and processing of all samples deserves a special thanks. We would like to extend our heartfelt gratitude to Dr Esmeraldo M. Cabana, DVSM, MVSt (VPath) Veterinary Pathologist  Animal Health Laboratories

Diagnostic Services Branch Department of Primary Industries and Water, Australian Government service Tasmania.and  Dr.Lin, Tsang Long,Avian Pathologist and Dr.Hooser, Stephen B Head, Toxicology Sect. & Asst. Director,Animal Disease Diagnostic Laboratory Purdue University U.S.A for their continuous guidance through Email for this investigation and its documentation.Last but not least Dr.Poornima Manandhar chief of CVL Tripureshwor deserve a special thanks from this investigation team for her continuous inspiration

 

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