1.Successful management of tracheal stenosis using tracheal stenting in a Russian Blue cat
Eunji HUR ; Yong Gwan PARK ; Jiyun CHA ; Min-Yeong LEE ; Jaekyoung LEE ; Hwi-Yool KIM ; Aryung NAM
Journal of Veterinary Science 2025;26(1):e15-
and Relevance: This case is the first instance of using tracheal stenting to effectively manage tracheal stenosis in a cat, successfully resolving a respiratory emergency, and ensuring long-term care.
2.Successful management of tracheal stenosis using tracheal stenting in a Russian Blue cat
Eunji HUR ; Yong Gwan PARK ; Jiyun CHA ; Min-Yeong LEE ; Jaekyoung LEE ; Hwi-Yool KIM ; Aryung NAM
Journal of Veterinary Science 2025;26(1):e15-
and Relevance: This case is the first instance of using tracheal stenting to effectively manage tracheal stenosis in a cat, successfully resolving a respiratory emergency, and ensuring long-term care.
3.Successful management of tracheal stenosis using tracheal stenting in a Russian Blue cat
Eunji HUR ; Yong Gwan PARK ; Jiyun CHA ; Min-Yeong LEE ; Jaekyoung LEE ; Hwi-Yool KIM ; Aryung NAM
Journal of Veterinary Science 2025;26(1):e15-
and Relevance: This case is the first instance of using tracheal stenting to effectively manage tracheal stenosis in a cat, successfully resolving a respiratory emergency, and ensuring long-term care.
4.Successful management of tracheal stenosis using tracheal stenting in a Russian Blue cat
Eunji HUR ; Yong Gwan PARK ; Jiyun CHA ; Min-Yeong LEE ; Jaekyoung LEE ; Hwi-Yool KIM ; Aryung NAM
Journal of Veterinary Science 2025;26(1):e15-
and Relevance: This case is the first instance of using tracheal stenting to effectively manage tracheal stenosis in a cat, successfully resolving a respiratory emergency, and ensuring long-term care.
5.Biomechanical comparison of bone staple techniques for stabilizing tibial tuberosity fractures
Kyu-Tae PARK ; Min-Yeong LEE ; Hwi-Yool KIM
Korean Journal of Veterinary Research 2023;63(3):e24-
This study compared the biomechanical properties of bone-stapling techniques with those of other fixation methods used for stabilizing tibial tuberosity fractures using 3-dimensionally (3D)-printed canine bone models. Twenty-eight 3D-printed bone models made from computed tomography scan files were used. Tibial tuberosity fractures were simulated using osteotomy. All samples were divided into 4 groups. Group 1 was stabilized with a pin and tension-band wire; group 2, with a pin and an 8 mm-wide bone staple; group 3, with 2 horizontally aligned pins and an 8 mm-wide bone staple; and group 4 with a 10 mm-wide bone staple. Tensile force was applied with vertical distraction until failure occurred. The load and displacement were recorded during the tests. The groups were compared based on the load required to cause displacements of 1, 2, and 3 mm. The maximum failure loads and modes were recorded. The loads at all displacements in group 4 were greater than those in groups 1, 2, and 3. The loads at 1, 2, and 3 mm displacements were similar in groups 1 and 3. There was no significant difference between groups 1 and 3. Groups 1 and 4 provided greater maximum failure loads than groups 2 and 3. Failure occurred because of tearing of the nylon rope, tibial fracture, wire breakage, pin bending, and fracture around the bone staple insertion. In conclusion, these results demonstrate that the bone-stapling technique is an acceptable alternative to tension-band wire fixation for the stabilization of tibial tuberosity fractures in canine bone models.
6.Expression of neurotrophic factors in injured spinal cord after transplantation of human-umbilical cord blood stem cells in rats.
Hyo Jin CHUNG ; Wook Hun CHUNG ; Jae Hoon LEE ; Dai Jung CHUNG ; Wo Jong YANG ; A Jin LEE ; Chi Bong CHOI ; Hwa Seok CHANG ; Dae Hyun KIM ; Hyun Jung SUH ; Dong Hun LEE ; Soo Han HWANG ; Sun Hee DO ; Hwi Yool KIM
Journal of Veterinary Science 2016;17(1):97-102
We induced percutaneous spinal cord injuries (SCI) using a balloon catheter in 45 rats and transplanted human umbilical cord blood derived mesenchymal stem cells (hUCB-MSCs) at the injury site. Locomotor function was significantly improved in hUCB-MSCs transplanted groups. Quantitative ELISA of extract from entire injured spinal cord showed increased expression of brain-derived neurotrophic factor (BDNF), nerve growth factor (NGF) and neurotrophin-3 (NT-3). Our results show that treatment of SCI with hUCB-MSCs can improve locomotor functions, and suggest that increased levels of BDNF, NGF and NT-3 in the injured spinal cord were the main therapeutic effect.
Animals
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Brain-Derived Neurotrophic Factor/*genetics
;
*Cord Blood Stem Cell Transplantation
;
Enzyme-Linked Immunosorbent Assay
;
Gene Expression Profiling
;
*Gene Expression Regulation
;
Humans
;
Locomotion
;
Nerve Growth Factor/genetics
;
Rats
;
Spinal Cord Injuries/*therapy
7.Quantitative measurement of influenza virus replication using consecutive bronchoalveolar lavage in the lower respiratory tract of a ferret model.
Dong Hun LEE ; Jong In KIM ; Jae Won LEE ; Wook Hun CHUNG ; Jae Keun PARK ; Yu Na LEE ; Jin Soo HAN ; Hwi Yool KIM ; Sang Won LEE ; Chang Seon SONG
Journal of Veterinary Science 2014;15(3):439-442
The ferret is an established animal model of influenza virus infection. Although viral replication in the upper respiratory tract is usually measured with consecutively collected nasal washes, daily evaluation of viral replication in the lung is limited because a large numbers of ferrets need to be sacrificed at consecutive time points. To overcome this limitation, we performed a virus quantification assay using bronchoalveolar lavage (BAL) fluid. This non-invasive BAL technique allows consecutive quantification of virus replication in the lungs of living ferrets. Our method can be used for the longitudinal evaluation of virus tropism in the lower respiratory tract.
Animals
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Bronchoalveolar Lavage/*veterinary
;
Disease Models, Animal
;
Female
;
Ferrets/*virology
;
Influenza A Virus, H3N2 Subtype/*physiology
;
Orthomyxoviridae Infections/*veterinary/virology
;
Respiratory System/*virology
;
Virus Replication/*physiology
8.Evaluation of a canine small intestinal submucosal xenograft and polypropylene mesh as bioscaffolds in an abdominal full-thickness resection model of growing rats.
A Jin LEE ; Sung Ho LEE ; Wook Hun CHUNG ; Dae Hyun KIM ; Dai Jung CHUNG ; Sun Hee DO ; Hwi Yool KIM
Journal of Veterinary Science 2013;14(2):175-184
We evaluated the biological scaffold properties of canine small intestinal submucosa (SIS) compared to a those of polypropylene mesh in growing rats with full-thickness abdominal defects. SIS is used to repair musculoskeletal tissue while promoting cell migration and supporting tissue regeneration. Polypropylene mesh is a non-resorbable synthetic material that can endure mechanical tension. Canine SIS was obtained from donor German shepherds, and its porous collagen fiber structure was identified using scanning electron microscopy (SEM). A 2.50-cm2 section of canine SIS (SIS group) or mesh (mesh group) was implanted in Sprague-Dawley rats. At 1, 2, 4, 12, and 24 weeks after surgery, the implants were histopathologically examined and tensile load was tested. One month after surgery, CD68+ macrophage numbers in the SIS group were increased, but the number of CD8+ T cells in this group declined more rapidly than that in rats treated with the mesh. In the SIS group, few adhesions and well-developed autologous abdominal muscle infiltration into the SIS collagen fibers were observed. No significant differences in the tensile load test results were found between the SIS and mesh groups at 24 weeks. Canine SIS may therefore be a suitable replacement for artificial biological scaffolds in small animals.
Abdominal Wall/*surgery
;
Animals
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Biocompatible Materials/*therapeutic use
;
Dogs
;
Female
;
Intestinal Mucosa/cytology/transplantation
;
Intestine, Small/cytology/*transplantation
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Polypropylenes/*therapeutic use
;
Rats
;
Rats, Sprague-Dawley
;
Tensile Strength
;
Tissue Adhesions
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*Tissue Scaffolds
;
Transplantation, Heterologous/*methods
;
*Wound Healing
9.Improved rat spinal cord injury model using spinal cord compression by percutaneous method.
Wook Hun CHUNG ; Jae Hoon LEE ; Dai Jung CHUNG ; Wo Jong YANG ; A Jin LEE ; Chi Bong CHOI ; Hwa Seok CHANG ; Dae Hyun KIM ; Hyo Jin CHUNG ; Hyun Jung SUH ; Soo Han HWANG ; Hoon HAN ; Sun Hee DO ; Hwi Yool KIM
Journal of Veterinary Science 2013;14(3):329-335
Here, percutaneous spinal cord injury (SCI) methods using a balloon catheter in adult rats are described. A balloon catheter was inserted into the epidural space through the lumbosacral junction and then inflated between T9-T10 for 10min under fluoroscopic guidance. Animals were divided into three groups with respect to inflation volume: 20 microL (n = 18), 50 microL (n = 18) and control (Fogarty catheter inserted but not inflated; n = 10). Neurological assessments were then made based on BBB score, magnetic resonance imaging and histopathology. Both inflation volumes produced complete paralysis. Gradual recovery of motor function occurred when 20 microL was used, but not after 50 microL was applied. In the 50 microL group, all gray and white matter was lost from the center of the lesion. In addition, supramaximal damage was noted, which likely prevented spontaneous recovery. This percutaneous spinal cord compression injury model is simple, rapid with high reproducibility and the potential to serve as a useful tool for investigation of pathophysiology and possible protective treatments of SCI in vivo.
Animals
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Balloon Embolectomy/*methods
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Disease Models, Animal
;
Male
;
Rats
;
Rats, Sprague-Dawley
;
Spinal Cord Compression/*therapy
10.Percutaneous transplantation of human umbilical cord-derived mesenchymal stem cells in a dog suspected to have fibrocartilaginous embolic myelopathy.
Wook Hun CHUNG ; Seon Ah PARK ; Jae Hoon LEE ; Dai Jung CHUNG ; Wo Jong YANG ; Eun Hee KANG ; Chi Bong CHOI ; Hwa Seok CHANG ; Dae Hyun KIM ; Soo Han HWANG ; Hoon HAN ; Hwi Yool KIM
Journal of Veterinary Science 2013;14(4):495-497
The use of human umbilical cord blood-derived mesenchymal stem cells for cell transplantation therapy holds great promise for repairing spinal cord injury. Here we report the first clinical trial transplantation of human umbilical cord (hUCB)-derived mesenchymal stem cells (MSCs) into the spinal cord of a dog suspected to have fibrocartilaginous embolic myelopathy (FCEM) and that experienced a loss of deep pain sensation. Locomotor functions improved following transplantation in a dog. Based on our findings, we suggest that transplantation of hUCB-derived MSCs will have beneficial therapeutic effects on FCEM patients lacking deep pain sensation.
Animals
;
Cartilage Diseases/etiology/therapy/*veterinary
;
*Cord Blood Stem Cell Transplantation/veterinary
;
Dog Diseases/etiology/*therapy
;
Dogs
;
Embolism/etiology/therapy/*veterinary
;
Female
;
Humans
;
Mesenchymal Stromal Cells/cytology/*metabolism
;
Spinal Cord Diseases/etiology/therapy/*veterinary
;
Treatment Outcome

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