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Feline Special Offer:
8 cat DNA tests for just £79.95 including VAT
HCM, HCR, GSD4, PKD, PRA, PK-Def., SMA, Blood Groups

new license: Laboklin holds the exclusive license to test for Warmblood Fragile Foal Syndrome (WFFS)- new price is £48.00
new test: Glaucoma and Goniodysgenesis (GGD) in Border Collie
new test: Acral Mutilation Syndrome (AMS) in English Cocker Spaniel, Springer Spaniel and more ...
new test: Lafora Disease (LAF / LD) / Myoclonic Epilepsy in Beagle and Miniature Wire haired Dachshund
new
Kennel Club DNA testing schemes with LABOKLIN:
Primary Open Angle Glaucoma (POAG) in Basset
Dwarfism (Skeletal Dysplasia 2 / SD2 ) in Labrador Retriever


Doberman DNA bundle (DM2 + vWDI + Narcolepsy + B Locus + D Locus)

Test number: 8645

1 ) Degenerative Myelopathy / Degenerative Radiculomyelopathy) DM (Exon 2)
Breeds
Airedale Terrier , Alaskan Malamute , All Dog Breeds , American Eskimo , Bernese Mountain Dog , Bloodhound , Borzoi (Russian Wolfhound) , Boxer , British Timber Dog , Cavalier King Charles Spaniel , Canaan Dog , Cardigan Welsh Corgi , Chesapeake Bay Retriever , Fox Terrier , French Bull Dog , German Shepherd , Glen Of Imaal Terrier , Golden Retriever , Pyrenean Mountain Dog (Great Pyrenees) , Hovawart , Hungarian Pumi , Jack Russell Terrier , Kerry Blue Terrier , Labrador Retriever , Lakeland Terrier , Northern Inuit , Nova Scotia Duck tolling Retriever ( NSDTR ) , Pembroke Welsh Corgi , Poodle , Pug , Rhodesian Ridgeback , Rough Collie , Soft Coated Wheaten Terrier , Shetland Sheepdog (Sheltie) , Smooth Collie , Utonagan , Wire Fox Terrier .
Kennel Club
This test is part of the Official UK Kennel Club DNA Testing Scheme in Chesapeake Bay Retriever , French Bull Dog , German Shepherd , Nova Scotia Duck tolling Retriever ( NSDTR ) , Rough Collie , and Smooth Collie.
The Disease
Canine degenerative myelopathy (also known as chronic degenerative radiculomyelopathy) is a progressive disease of the spinal cord in older dogs. The disease has an insidious onset typically between 7 and 14 years of age. It begins with a loss of coordination (ataxia) in the hind limbs. As of July 15, 2008 the mutated gene responsible for DM has been found present in 43 breeds including German Shepherds, Boxers, Chesapeake Bay Retrievers, Rhodesian Ridgebacks, and both breeds of Welsh Corgis. The disease is chronic and progressive, and resulting in paralysis.
Clinical Signs
Degenerative myelopathy initially affects the back legs and causes muscle weakness and loss, and lack of coordination. These cause a staggering effect that may appear to be arthritis. The dog may drag one or both rear paws when it walks. This dragging can cause the nails of one foot to be worn down. The condition may lead to extensive paralysis of the back legs. As the disease progresses, the animal may display symptoms such as incontinence and has considerable difficulties with both balance and walking. If allowed to progress, the animal will show front limb involvement and extensive muscle atrophy. Eventually cranial nerve or respiratory muscle involvement necessitates euthanasia. Progression of the disease is generally slow but highly variable. The animal could be crippled within a few months, or may survive up to three years
Trait of Inheritance
Tow alleles are invloved in Degenerative Myelopathy, A and G, therefore a test result can be A/A, A/G, or G/G.

Mode of inheritance is autosomal recessive with variable penetrance;

Inheritance : AUTOSOMAL RECESSIVE trait


 

Sire

 

Dam

 

Offspring

         
clear
clear
100% clear
         
clear
carrier
50%  clear + 50% carriers
         
clear
affected
100% carriers
         
carrier
clear
50%  clear + 50% carriers
         
carrier
carrier
25% clear + 25% affected + 50% carriers
         
carrier
affected
50% carriers + 50% affected
         
affected
clear
100%  carriers
         
affected
carrier
50% carriers + 50% affected
         
affected
affected
100% affected

 


Clear

Genotype: N / N [ Homozygous normal ]

The dog is noncarrier of the mutant gene.

It is very unlikely that the dog will show signs of the Degenerative Myelopathy

 

Carrier

Genotype: N / DM (Exon 2) [ Heterozygous ]

The dog carries one copy of the mutant gene and one copy of the normal gene.

It is very unlikely that the dog will show signs of the Degenerative Myelopathy

 

Affected

Genotype: DM (Exon 2) / DM (Exon 2) [ Homozygous mutant ]

 

The dog carries two copies of the mutant gene and therefore it will pass the mutant gene to its entire offspring.

The dog may or may not show signs of the disease
Description

Please note that Exon 2 can be found in all dog breeds, there is another DM mutation in Exon 1 which can only be found in Bernese Mountain Dog, click here for more information.

For bernese Mountain Dog we have a special offer for both Exon 1 and Exon 2 at reduced price, click here for more details.

Sample Requirements
Buccal Swabs or 0.5 - 1 ml blood in EDTA Blood Tube Buccal swabs or 0.5 - 1 ml blood in EDTA Blood Tube .
Turnaround
1 - 2 weeks
2 ) von Willebrand disease Type I (vWD I)
Breeds
Bernese Mountain Dog , Cockapoo (English) , Cockapoo (American) , Coton de Tulear , Doberman , Drentsche Patrijschond , German Pinscher , Kerry Blue Terrier , Labradoodle , Manchester Terrier , Miniature Poodle , Papillon , Pembroke Welsh Corgi , Poodle , Stabyhound ( Stabijhoun ) , Standard Poodle , Toy Poodle .
Kennel Club
This test is part of the Official UK Kennel Club DNA Testing Scheme in Doberman , Manchester Terrier , and Standard Poodle.
The Disease
We are pleased to announce that Laboklin obtained an exclusive European License to perform this important genetic tes from Vet Gen LCC the owner of the European patentt.

Von Willebrand disease (vWD) is probably the most common inherited bleeding disorder in dogs. It is caused by lack of von Willebrand factor which is a protein that plays a key role in the blood clotting process resulting in prolonged bleeding. The disorder occurs in varying degrees of severity ranging from trivial bleeding to excessive life threatening haemorrhages.

Clinical Signs
Symptoms include spontaneous bleeding from the nose, gum and other mucous membranes. Excessive bleeding occurs after an injury, trauma or a surgery. Often dogs don’t show clinical signs until something starts the bleeding, such as nail trimming, teething, spaying, sterilizing, tail docking, cropping or other causes. Bleeding also occurs internally in the stomach, intestines, urinary tracts, the genitals and / or into the joints.

Type I von Willebrand's disease is considered relatively mild when compared to Type II in Scotch Terriers and Shetland Sheep Dogs and Type III in the German Wirehaired pointer, Type II and Type III are much more severe than type I.

Trait of Inheritance
vWD Type I is transmitted as autosomal incomplete dominant trait . This means that a dog that is genetically clear (also called homozygous normal) will not develop the vWD disorder and will not pass it to its offspring. Carrier dogs which carries one copy of the abnormal gene and another normal copy (also known as heterozygous) will have bleeding tendency. These carrier dogs will pass the abnormal gene to their offspring with a probability of 50%, the trait is called incomplete dominance because carrier dogs may not develop the disorder at all but they will still pass the abnormal gene to their offspring. Because it is very uncommon for carriers to show symptoms of vWD this condition is treated as Recessive. Affected dogs (carry two copies of the abnormal gene) will develop the vWD disorder and will pass the abnormal gene to each of their offspring

Inheritance : AUTOSOMAL RECESSIVE trait


 

Sire

 

Dam

 

Offspring

         
clear
clear
100% clear
         
clear
carrier
50%  clear + 50% carriers
         
clear
affected
100% carriers
         
carrier
clear
50%  clear + 50% carriers
         
carrier
carrier
25% clear + 25% affected + 50% carriers
         
carrier
affected
50% carriers + 50% affected
         
affected
clear
100%  carriers
         
affected
carrier
50% carriers + 50% affected
         
affected
affected
100% affected

 


Clear

Genotype: N / N [ Homozygous normal ]

The dog is noncarrier of the mutant gene.

It is very unlikely that the dog will develop von Willebrand disease Type I (vWD I). The dog will never pass the mutation to its offspring, and therefore it can be bred to any other dog.

 

Carrier

Genotype: N / vWD [ Heterozygous ]

The dog carries one copy of the mutant gene and one copy of the normal gene.

The dog is very unlikely to develop von Willebrand disease Type I (vWD I) and if it does it will be in a mild form. Since it carries the mutant gene, it can pass it on to its offspring with the probability of 50%.

 

Affected

Genotype: vWD / vWD [ Homozygous mutant ]

 

The dog carries two copies of the mutant gene and therefore it will pass the mutant gene to its entire offspring.

The dog is likely to develop von Willebrand disease Type I (vWD I) and will pass the mutant gene to its entire offspring
Description

The Mutation-based Test and its Advantages
A new DNA test has now been developed for the type I vWD.

Genetic testing makes it possible to identify whether a dog is clear, carrier or affected. This is vital to eliminate this condition from the breed within 2-3 generations.

The new DNA test can identify the responsible mutation directly.

This DNA test can be done at any age and unambiguously classifies dogs into affected, carriers and clear. The test enables breeders to eliminate the vWD disease gene from the Poodles. Carriers can be clinically normal because of a low penetrance or expressivity of the disease. This information is essential for controlling this disorder in the breed.

Breeders and owners should view vWD as a significant health risk and strive to get rid of the mutated gene. The discovery of the mutation, and the recent development of a DNA test, now provides just that opportunity.

Sample Requirements
Whole blood in EDTA tube (0.5 - 1 ml) or Buccal Swabs. Whole blood in EDTA tube (0.5 - 1 ml) or Buccal swabs. .
Turnaround
1 - 2 weeks
3 ) Narcolepsy
Breeds
Dachshund , Doberman , Labrador Retriever .
The Disease
Narcolepsy is a disabling sleep disorder affecting humans and animals. The disease is characterized by daytime sleepiness, cataplexy and striking transitions from wakefulness into REM sleep. A mutation in the gene encoding the receptor for hypocretin (orexin) receptor 2 was identified as the cause for canine narcolepsy.
Trait of Inheritance
Narcolepsy is an inherited autosomal recessive trait. This means that a dog can be clear (homozygous normal), affected, or a carrier (heterozygous). The carriers can spread the diseased gene in the population. Therefore, reliable information on non-affected dogs is the key to controlling this disease.

Inheritance : AUTOSOMAL RECESSIVE trait


 

Sire

 

Dam

 

Offspring

         
clear
clear
100% clear
         
clear
carrier
50%  clear + 50% carriers
         
clear
affected
100% carriers
         
carrier
clear
50%  clear + 50% carriers
         
carrier
carrier
25% clear + 25% affected + 50% carriers
         
carrier
affected
50% carriers + 50% affected
         
affected
clear
100%  carriers
         
affected
carrier
50% carriers + 50% affected
         
affected
affected
100% affected

 


Clear

Genotype: N / N [ Homozygous normal ]

The dog is noncarrier of the mutant gene.

It is very unlikely that the dog will develop Narcolepsy. The dog will never pass the mutation to its offspring, and therefore it can be bred to any other dog.

 

Carrier

Genotype: N / NARC [ Heterozygous ]

The dog carries one copy of the mutant gene and one copy of the normal gene.

It is very unlikely that the dog will develop Narcolepsy but since it carries the mutant gene, it can pass it on to its offspring with the probability of 50%.

Carriers should only be bred to clear dogs.

Avoid breeding carrier to carrier because 25% of their offspring is expected to be affected (see table above)

 

Affected

Genotype: NARC / NARC [ Homozygous mutant ]

 

The dog carries two copies of the mutant gene and therefore it will pass the mutant gene to its entire offspring.

The dog is likely to develop Narcolepsy and will pass the mutant gene to its entire offspring
Description

This is a mutation-based gene test, which offers many advantages over other methods

The genetic defect leading to the disease has been identified. By DNA testing, the responsible mutation can be shown directly. This method provides a very high accuracy test and can be done at any age. It offers the possibility to distinguish not only between affected and clear dogs, but also to identify clinically healthy carriers. This is an essential information for controlling the disease in the breed, as carriers are able to spread the disease in the population, but can not be identified by means of common laboratory diagnostic.

Sample Requirements
Whole blood in EDTA tube (0.5 - 1 ml) or Buccal Swabs. Whole blood in EDTA tube (0.5 - 1 ml) or Buccal swabs. .
Turnaround
2 - 3 weeks
4 ) Coat Colours: D-Locus D1 ( Dilution )
Breeds
All Dog Breeds , Border collie , Boston Terrier , Bulldog , Chihuahua , Doberman Pinscher , French Bull Dog , German Pinscher , Koolie ( Australian Koolie ) , Labrador Retriever , Large Munsterlander , Miniature Pinscher , Newfoundland , Rhodesian Ridgeback , Staffordshire Bull Terrier .
Description

The D locus is the primary locus associated with diluted pigment, which results in coats that would otherwise be black or brown instead showing up as gray, or blue in the case of black, and pale brown or Isabella in the case of brown. The melanophilin gene has recently been shown to be responsible, but not all of the dilute causing mutations have been identified yet.

A recessive mutation in the melanophilin gene was identified as the cause of colour dilution phenotypes in the dog. Two alleles (variants) are described: the dominant full colour (D) and the recessive dilute (d). Two copies of dilute are needed to lighten black pigment to grey (often called blue) and red pigment to cream (also called buff). A diagnostic DNA test identifies the specific variants of the MLPH gene.

Please note that in the Chow Chow, Rhodesian Ridgeback and Sloughi breeds, there is another mutation that can cause coat colour dilution, it is the D2 Locus mutation and in those breeds both D Locus and D2 Locus mutations must be tested for complete analysis.

 
Further reading
Coat Colour Inheritance Chartshtml file
Sample Requirements
Whole blood in EDTA tube (0.5 - 1 ml) or Buccal Swabs. Whole blood in EDTA tube (0.5 - 1 ml) or Buccal swabs. .
Turnaround
2 - 3 weeks
5 ) Coat Colour: B Locus (Brown Coat Colour)
Breeds
All Dog Breeds , American Cocker Spaniel , Australian Shepherd , Bedlington Terrier , Border collie , Cardigan Welsh Corgi , Dachshund , Dalmatian , Doberman Pinscher , English Cocker Spaniel , Flatcoated Retriever , Fox Terrier , French Bull Dog , Galgo Espanol , German Longhaired Pointer , German Shorthair Pointer , Gordon Setter , Griffon Bruxellois , Irish Soft Coated Wheaten Terrier , Koolie ( Australian Koolie ) , Labrador Retriever , Miniature Pinscher , Newfoundland , Pointer , Portuguese Waterdog , Scottish Terrier , Weimaraner .
Description

The B locus is responsible for the presence of brown, chocolate, or liver coat colour. It is also responsible for nose colour. In breeds where the A locus does not come into play, any dog that has at least one B allele (and is not 'ee'), will be black in the pigmented areas of the coat. If the dog has two copies of any of several b alleles will be brown. There are at least three such b alleles. Regardless of other loci, any dog with at least one B allele will have a black nose and pads, while those with any two b alleles will have a liver nose and pads.

This test checks if the dog carries 0, 1 or 2 copies of the mutations typically responsible for the brown coat colour, which is also known in some breeds as liver, chocolate, sedge, and less frequently, red. There are three primary 'b' mutations that are responsible for nearly every liver or chocolate dog. A notable exception is the French Bulldog where in addition to these three mutations, there is a fourth cause of chocolate that has yet to be identified.

In some breeds such as Gordon Setter this coat colour is referred to as liver.

 
Further reading
Coat Colour Inheritance ChartsHTML file
Brittany Coat ColoursPDF file
B Locus Inheritence ChartPDF file
Sample Requirements
Whole blood in EDTA tube (0.5 - 1 ml) or Buccal Swabs. Whole blood in EDTA tube (0.5 - 1 ml) or Buccal swabs. .
Turnaround
1 - 2 weeks
Price for the above 5 tests
£ 156.00 (including VAT)

To order:

  • Download Order Form from this link pdf

  • Complete the order form and send it together with your samples to the following address:

    Laboklin (UK),   125 Northenden Road, Manchester, M33 3HF

See Also:
Copper Toxicosis (Copper Storage Disease )  
Progressive Retinal Atrophy (Dominant PRA)  
Globoid Cell Leukodystrophy (Krabbe Disease)  
CSNB (Congenital Stationary Night Blindness)  
CLAD (Canine Leukocyte Adhesion Deficiency)  
Cystinuria  
von Willebrand disease Type II (vWD II)  
PK Deficiency (Pyruvate Kinase Deficiency)  
Fucosidosis  
PFK Deficiency (Phosphofructokinase deficiency)  
Myotonia Congenita  
MH (Malignant Hyperthermia)  
X-Linked Severe Combined Immunodeficiency (X-SCID)  
GM1-Gangliosidosis  
Narcolepsy  
Muscular Dystrophy (MD)  
MPS ( Mucopolysaccharidosis type VII)  
Hereditary Myopathy / Centronuclear Myopathy (HMLR, CNM)  
Canine Cyclic Neutropenia (Gray Collie Syndrome)  
Progressive Retinal Atrophy (cord1- PRA / crd4 PRA)  
L-2-HGA ( L- 2 - hydroxyglutaric aciduria )  
von Willebrand disease Type I (vWD I)  
von Willebrand disease Type III (vWD III)  
Neuronal Ceroid Lipofuscinosis ( CL / NCL )  
Trapped Neutrophil Syndrome ( TNS )  
Progressive Red2tinal Atrophy (crd PRA)  
PDP 1 Deficiency (Pyruvate Dehydrogenase Phosphatase 1 Deficiency)  
Factor VII Deficiency  
Progressive Retinal Atrophy (rcd1 PRA)  
Progressive Retinal Atrophy (rcd1a PRA)  
Juvenile Brain Disease ( JBD ) / Juvenile Encephalopathy ( Epilepsy )  
Microphthalmia ( RBP4 )  
French Bulldog DNA bundle  
Leonberger DNA bundle  
Spanish Water Dog DNA bundle  
Lethal Acrodematitis ( LAD )  
BRAF Mutation ( transitional cell carcinoma )  
MDR1 Gene Defect / Ivermectin Sensitivity *  
Exercise Induced Collapse ( EIC )  
Dwarfism (Pituitary Dwarfism / Hypopituitarism)  
Degenerative Myelopathy / Degenerative Radiculomyelopathy) DM (Exon 2)  
Greyhound Neuropathy (Hereditary Neuropathy)  
Brittle Bone Disease (Osteogenesis Imperfecta)  
Glycogen Storage Disease (GSDllla)  
Hereditary Cataract (HSF4)  
Neonatal encephalopathy (NE / NEWS)  
Haemophilia B (factor IX deficiency)  
JEB (Junctional Epidermolysis bullosa)  
Primary Lens Luxation (PLL)  
Brachyury (Bobtail Gene / Short Tail)  
Familial Nephropathy (FN) / Hereditary Nephropathy *  
Startle Disease (SD) / Hyperekplexia  
Familial Nephropathy (FN) / Hereditary Nephropathy  
Myostatin Mutation ("Bully" Whippet)/ Double Muscling  
Hereditary Nephritis / Samoyed Hereditary Glomerulopathy  
Episodic Falling in Cavalier King Charles Spaniel (EF)  
Dry Eye and Curly Coat syndrome (CCS)  
CKCS Pack A: Episodic Falling + Dry Eye Curly Coat syndrome  
Haemophilia A (factor VIII deficiency)  
Congenital Hypothyreosis / hypothyroidism ( CHG )  
Hereditary Nasal Parakeratosis (HNPK)  
Juvenile Epilepsy (JE)  
Musladin-Lueke syndrome (MLS)  
Ichthyosis *  
Neonatal Cortical Cerebellar Abiotrophy (NCCD)  
Dwarfism (Skeletal Dysplasia 2 / SD2 )  
Primary Open Angle Glaucoma (POAG)  
Progressive Retinal Atrophy (generalized PRA)  
Progressive Retinal Atrophy (GR-PRA1)  
Progressive retinal atrophy ( rcd4-PRA) / LOPRA  
Alaskan Malamute Polyneuropathy (AMPN / IPAM / HPAM)  
Pug Dog Encephalitis (PDE) / Necrotizing Meningoencephalitis (NME)  
Polycystic Kidney Disease (PKD)  
Pompe's Disease (Glycogen Storage Disease type II / GSDII)  
Primary ciliary dyskinesia (PCD)  
Protein Losing Nephropathy (PLN)  
Late Onset Ataxia (LOA)  
Cobalamin Malabsorption (Imerslund-Gräsbeck syndrome (IGS))  
Collie Eye Anomaly (CEA) / Choroidal Hypoplasia (CH) Option 2 Optigen*  
Retinal Dysplasia (RD) / Oculo Skeletal Dysplasia (OSD)*  
Spinocerebellar ataxia (SCA)  
Cystinuria (Dominant)  
pap-PRA1 (Progressive Retinal Atrophy)  
Progressive Retinal Atrophy (BAS PRA)  
CMSD (Canine Multiple System Degeneration)  
Hereditary Cataract (HSF4) *  
Special offer 4: Juvenile Epilepsy + Furnishing + LSD  
Progressive Retinal Atrophy (prcd-PRA) Option 2: Optigen (8094X)  
Progressive Retinal Atrophy (prcd-PRA) Option 1: (8094P)  
Thrombopathia (Thrombopathy)  
Digital Hyperkeratosis (DH) (Hereditary Footpad Hyperkeratosis / Corny Feet)  
Degenerative Myelopathy / degenerative radiculomyelopathy) DM (Exon 1)  
Degenerative Myelopathy / degenerative radiculomyelopathy) DM (Exon 1 + Exon 2)  
Ectodermal Dysplasia / Skin Fragility Syndrome (ED / SFS)  
Hypomyelination (Shaking Puppy Syndrome) SPS  
Type A PRA * Optigen)  
JRT and PRT Pack A: Late Onset Ataxia (LOA) + Spinocerebellar Attaxia (SCA)  
JRT and PRT Pack B:Late Onset Ataxia (LOA) + Spinocerebellar Attaxia (SCA) + PLL + JBD  
Leonberger Polyneuropathy 1 ( LPN1)  
Adult Onset Neuropathy * (AON)  
Hereditary Ataxia (HA)  
Finnish Hound Ataxia / Cerebellar Ataxia (FHA / CAFH)  
Dandy-Walker-Like Malformation (DWLM)  
Persistent Müllerian duct syndrome (PMDS)  
Cone Degeneration (CD) by OptiGen *  
Fanconi Syndrome (FS)  
Lagotto Storage Disease (LSD)  
Juvenile Laryngeal Paralysis & Polyneuropathy (JLPP)  
Progressive Retinal Atrophy (CNGA1 PRA)  
Achromatopsia (day blindness) / ACHM  
Progressive Retinal Atrophy (GR-PRA2)  
Unspecified test  
Postoperative Hemorrhage (P2Y12 / P2RY12)  
Glanzmann Thrombasthenia (Thrombasthenia, Thrombasthenic thrombopathia, GT)  
Prekallikrein Deficiency (KTK) / Fletcher Factor Deficiency  
C3 Deficiency (Complement Component 3 deficiency)  
Congenital Myasthenic Syndrome (CMS)  
Bardet Biedl Syndrome (BBS)  
GM2 Gangliosidosis Variant 0 (Sandhoff Disease)  
Macrothrombocytopenia ( MTC-D )  
Renal Cystadenocarcinoma and Nodular Dermatofibrosis (RCND)  
Vitamin D-dependent Rickets (HVDRR)  
Amelogenesis Imperfecta (AI) / Familial Enamel Hypoplasia (FEH)  
X-linked Myotubular Myopathy (XLMTM)  
Collie Eye Anomaly (CEA) / Choroidal Hypoplasia (CH) Option 1*  
Macrothrombocytopenia ( MTC- R )  
Muscular Dystrophy (MDL)  
Mucopolysaccharidosis type IIIa (MPS IIIA)  
Neuroaxonal Dystrophy ( NAD )  
Progressive Retinal Atrophy (rcd2-PRA) Option 1 by Laboklin  
Ichthyosis ( Epidermolytic Hyperkeratosis (EHK) )  
May-Hegglin Anomaly (MHA)  
Alaskan Husky Encephalopathy (AHE)  
Cerebral Dysfunction (CDF)  
Dwarfism ( Chondrodysplasia )  
Ichthyosis (Congenital Ichthyosis / Great Dane Ichthyosis)  
Hemorrhagic Diathesis / Bleeding Diathesis (Canine Scott Syndrom)  
Glycogen storage disease type Ia (GSD Ia) / VON Grieke Disease  
Gallbladder Mucoceles  
Primary Hyperoxaluria type I (PH I)  
Hyperuricosuria / Urate Stones (HUU, SLC)  
Severe Combined Immunodeficiency (SCID)  
Leukocyte Adhesion Deficiency type III (LAD III)  
Cleft Lip / Palate and Syndactyly (CLPS)  
Progressive Retinal Atrophy (crd1 PRA)  
Progressive Retinal Atrophy (CRD2 PRA)  
Spondylocostal Dysostosis (Comma Defect)  
Canine Multi-Focal Retinopathy (CMR)  
Craniomandibular Osteopathy (CMO)  
Retinal Dysplasia (RD) / Oculo Skeletal Dysplasia (OSD)*  
Special Offer: DM (Exon 2) + MDR1  
Special Offer Chinese Crested: PLL + prcd PRA Option 1 + rcd3 PRA + DM Exon 2  
Warbung Micro Syndrome 1 (WARBM1)  
Raine Syndrome  
van den Ende-Gupta Syndrom (VDEGS)  
Lundehund-Syndrome ( Lymphagetasia )  
Obesity / Adiposity ( ADI )  
Alexander Disease (AxD) / Leukodystrophy  
Spinal Dysraphism / Neural Tube Defects ( NTD )  
Spongy Degeneration with Cerebellar Ataxia ( SDCA1 )  
XL - PRA (Progressive retinal Atrophy)  
Nemaline Myopathy (NM)  
Beagle DNA Bundle : IGS + Factor VII + MLS + NCCD + Osteogenesis imperfecta + PK + POAG  
Poodle DNA Bundle: DM exon2 + rcd4 PRA + NE + prcd-PRA option 1 + vWD1  
Golden Retriever DNA bundle: GR-PRA1 + GR-PRA2 + Ichthyosis + prcd-PRA option 1 + Muscular Dystrophy (MD)  
Pug Special Offer: DM Exon2 + MH + PDE / NME + PK + PLL  
Aussie DNA bundle: CEA option * + DM exon2 + HSF4 + MDR1 + MH + NCL + prcd-PRA Option 1*  
Collie DNA Bundle: CEA Option 1 + DM exon2 + HUU (SLC) + MDR1 + rcd2-PRA  
Border Collie DNA Bundle: CEA Option 1 + IGS + MDR1 + SN + NCL + TNS + GGD  
Pack A: CNM + DM exon2 + EIC + HNPK + OSD option 1 + prcd-PRA option 1 + SD2  
Pack B: AxD + Cystinuria + Narcolepsy + Obesity + PK + SLC + XL-MTM  
Ichthyosis  
Catalase Deficiency ( CAT ) / Hypocatalasemia / Acatalasia  
Juvenile Myoclonic Epilepsy ( JME )  
Paroxysmal Dyskinesia ( PxD )  
Spongy Degeneration with Cerebellar Ataxia ( SDCA2 )  
Belgian Shepherd Special Offer : SDCA1 + SDCA2  
Sensory Neuropathy ( SN )  
Acute Respiratory Distress Syndrome ( ARDS )  
POAG / PLL Primary Open Angle Glaucoma (POAG) and Primary Lens Luxation (PLL)  
Shar Pei auto-inflammatory disease (SPAID)  
Dystrophic Epidermolysis Bullosa (DEB)  
Landseer DNA bundle (Cystinuria + DM2 + SLC + MD + Thrombopathia)  
Rhodesian Ridgeback DNA Bundle (DM2 + Haemophilia B + SLC + JME + MH)  
Rottweiler DNA bundle ( DM2 , SLC , JLPP , CL1 , XL - MTM )  
Leonberger Polyneuropathy 2 ( LPN2 )  
Hereditary Nasal Parakeratosis (HNPK)  
Subacute Necrotizing Encephalopathy (SNE)  
ISDS Exclusive Border Collie DNA Bundle: CEA 1* + IGS + SN + TNS  
Acral Mutilation Syndrome ( AMS )  
Lafora Disease (LAF / LD) / Myoclonic Epilepsy  
Shetland DNA Bundle: CEA option 1 + DM Exon 2 + vWD Type III + MDR1 + CNGA1-PRA  
CKCS Pack B: DM Exon2 + Episodic Falling + DryEye + MD + MTC  
Progressive Retinal Atrophy (rcd3 PRA)  
Old English Sheepdog (Bobtail) DNA bundle: DM Exon2 + EIC + HA + MDR1 + PCD  
German Shepherd and Wolfdog DNA Bundle  
Glaucoma and Goniodysgenesis (GGD)  
Leukoencephalomyelopathy ( LEMP )  
Hereditary Deafness ( PTPRQ )  
Type B PRA * (Optigen)  
Neuronal Ceroid Lipofuscinosis in ACD ( NCL in ACD )  
Chondrodystrophy (CDDY with IVDD Risk) and Chondrodysplasia (CDPA)  

 
 
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